A Systems Biology Approach towards Understanding Host Response and Pathogen Adaptation in Latent Tuberculosis Infection

Baloni, Priyanka

January 2016

Mycobacterium tuberculosis, the etiological agent of tuberculosis, has adapted with the host environment and evolved to survive in harsh conditions in the host. The pathogen has successfully evolved strategies not only to evade the host immune system but also to thrive within the host cells. Upon infection, the pathogen is either cleared due to the host immune response, or it survives and causes active tuberculosis (TB) infection. In a number of cases however, the pathogen is neither killed nor does it actively proliferate, but it remains dormant in the host until the environment becomes favorable. This dormant state of pathogen is responsible for latent TB infection (LTBI). WHO reports indicated that as much as a third of the whole world’s population is exposed to the pathogen, of which a significant proportion could be latently infected (WHO report, 2015). These individuals do not show symptoms of active TB infection and hence are difficult to detect. The latent TB infected (LTBI) individuals serve as a reservoir for the pathogen, which can lead to epidemics when the conditions change. Hence, it is necessary to understand the host -pathogen interactions during LTBI, as this might provide clues to developing new strategies to detect and curb a latent infection. Host-pathogen interactions are multifaceted, in which both species attempt to recognize and respond to each other, all of these through specific molecules making distinct interactions with the other species. The outcome of the infection is thus decided by a complex set of host-pathogen interactions. The complexity arises since a large number of molecular components are involved, also multiplicity of interactions among these components and due to several feedback, feed forwards or other regulatory or influential loops within the system. The complexity of biological systems makes modeling and simulation an essential and critical part of systems– level studies. Systems biology studies provide an integrated framework to analyze and understand the function of biological systems. This work addresses some of these issues with an unbiased systems-level analysis so as to identify and understand the important global changes both in the host and in the pathogen during LTBI. The broad objectives of the work was to identify the key processes that vary in the host during latent infection, the set of metabolic reactions in the host which can be modulated to control the reactivation of infection, global adaptation in Mycobacterium tuberculosis (Mtb) and then to utilize this knowledge to identify strategies for tackling latent infection. A review of literature of the current understanding of latency from the pathogen and the host perspective is described in chapter 1. From this, it is clear that most available studies have focused on the role of individual molecules and individual biological processes such as granuloma formation, toll-like receptor signaling, T cell responses as well as cytokine signaling, in either initiating or maintaining a latent infection, but there is no report till date about whether and how these processes are connected with each other. While transcriptome based studies have identified lists of differentially expressed genes in LTBI as compared to healthy controls, no further understanding is currently available for many of them, regarding the processes they may be involved in and what interactions they make, which may be important for understanding LTBI. The first part of the work is a systematic meta-analysis of genome-scale protein interaction networks rendered condition-specific with transcriptome data of patients with LTBI, which has provided a global unbiased picture of the transcriptional and metabolic variations in the host and in the pathogen during the latent infection. To start with, publicly available gene expression data related to LTBI, active TB and healthy controls were considered. In all, 183 datasets summing up to 105 LTBI, 41 active TB and 37 healthy control samples were analyzed. (Chapter 2). Standard analysis of the transcriptome profiles of these datasets indicated that there was zero overlap among them and that not a single gene was seen in common among all datasets for the same condition. An extensive human protein-protein interaction network was constructed using information available from multiple resources that comprehensively contained structural or physical interactions and genetic interactions or functional influences. Nodes in this network represented individual proteins and edges represented interactions between pairs of nodes. The identity of each node and the nature of interaction of each edge along with the type of evidence that was used as the basis for drawing the edge, was collated for the network. The gene expression data was integrated into the human protein-protein interaction (PPI) network for each condition, which essentially had weighted nodes and directed edges, specific to that condition, from which specific comparative networks were derived. The highest ranked perturbations in LTBI were identified through a network mining protocol previously established in the laboratory. This involved computing all versus all shortest paths on the comparative network, scoring the paths based on connectedness and various centrality measures of the nodes and the edges and finally ranking the paths based on the cumulative path scores. Intriguingly, the top-ranked set of perturbations were found to form a connected sub-network by themselves, referred to as a top perturbed sub-network (top-net), indicating that they were functionally linked or perhaps even orchestrated in some sense. Th17 signaling appears to be dominant. About 40 genes were identified in the unique set of LTBI condition as compared to the active TB condition, and these genes showed enrichment for processes such as apoptosis, cell cycle as well as natural killer cell mediated toxicity. Construction and analysis of a miRNA network indicated that 32 of these have strong associations with miRNA explaining the role of the latter in controlling LTBI. 3 other genes from the top-net are already established drug targets for different diseases with known drugs associated with them, which are BCL2, HSP90AA1 and NR3C1. These 3 proteins can be explored further as drug targets in LTBI whose manipulation using existing drugs may result in inhibiting the underlying biological process and thereby result in disturbing the state of latency. As a second objective, global variations in the host transcriptome were identified during ascorbic acid induced dormancy (Chapter 3). Ascorbic acid or Vitamin C is a nutrient supplement required in the diet. This organic compound has a known antioxidant property, as it is known to scavenge the free radicals. In a recent study, Taneja et al, demonstrated that Vitamin C could induce dormancy in Mtb. On similar lines, experiments were done in THP-1 cells infected with Mtb to determine the host responses during ascorbic acid (AA) induced dormancy. The raw gene expression data was provided by our collaborator Prof. Jaya Tyagi that included 0 hour, 4 days and 6 days time points with infection and vitamin C versus infection alone or vitamin C alone as controls. The transcriptome data was normalized and integrated into the human PPI network as described for the meta-analyses. It was experimentally determined that ascorbic acid induces dormancy in 4 days post infection. The top-ranked paths of perturbation were analyzed and compared for three different conditions: (i) uninfected condition, (ii) AA treated and infected condition, and (iii) AA, isoniazid and infected condition. The dormant pathogen is known to be drug-tolerant and thus as a marker for the state of dormancy, the lack of effect of isoniazid is also monitored in the infected host cells. The analysis revealed that there were some broad similarities as compared to LTBI from patient samples but AA induced dormancy in cell lines stood out a separate group indicating that there were significant differences such as involving Interferon Induced Transmembrane Proteins (IFITMs), vacuolar ATPase as well as GDF15, which belongs to TGF-beta signaling pathway. The highest ranked perturbed paths contained genes involved in innate immune responses of which ISG15, IFITMs, HLAs and ATPases emerge as the most altered in the dormant condition. CCR7 emerges as a key discriminator, which is subdued in the latent samples but highly induced in infection conditions. Pathway-based analysis of different conditions showed that oxidative stress, glutathione metabolism, proteasome degradation as well as type II interferon signaling are significantly up-regulated in AA induced dormancy. The dormant bacteria reside in the host cells and are known to modulate the host metabolism for their own benefit. So, the third objective was to understand the metabolic variations in the host during LTBI (Chapter 4). A genome-scale metabolic (GSM) model of alveolar macrophage was used in this study. The metabolic model contains information of the reactions, metabolites and the genes encoding enzymes that catalyze a particular reaction. Flux balance analysis (FBA), a constraint-based metabolic modeling method, is used for analyzing the alterations in the metabolism under different infection conditions. In order to mimic the physiological condition, gene expression data was used for constraining the bounds of the reactions in the model. Two different expression studies were used for analysis: GSE25534 (from Chapter 2) and ascorbic acid induced dormancy (Chapter 3). The analysis was carried out for latent TB versus healthy control and latent TB versus active TB to identify the most altered metabolic processes in LTBI. Differences in fluxes between the two conditions were calculated. A new classification scheme was devised to categorize the reactions on the basis of flux differences. In this chapter, higher fluxes in LTBI condition were identified for reactions involved in transport of small metabolites as well as amino acids. Solute carrier proteins responsible for the transport of the metabolites were identified and their biological significance is discussed. Reduced glutathione (GSH), arachidonic acid, prostaglandins, pantothenate were identified as important metabolites in LTBI condition and their physiological role has been described. Sub-system analysis for different conditions shows differential regulation for arachidonic acid metabolism, fatty acid metabolism, folate metabolism, pyruvate metabolism, glutathione metabolism, ROS detoxification, triacylglycerol synthesis and transport as well as tryptophan metabolism. From the study, transporter proteins and reactions altered during LTBI were identified, which again provide clues for understanding the molecular basis of establishing a latent infection. Mycoabcterium tuberculosis is known to undergo dormancy during stress conditions. In this chapter, the main objective was to identify the global variations in the dormant Mtb (Chapter 5). To carry out the analysis, the Mtb PPI network was constructed using information from available resources. Gene expression data of two different dormancy models, Wayne growth model and multiple-stress model, were used for the study. To identify the key players involved in reversal of dormancy, the transcriptome data of reaeration condition was also used. In this study, the Max-flow algorithm was implemented to identify the feasible paths or flows in different condition. The flows with higher scores indicate that more information is traversed by the path, and hence is important for the study. From the analysis of Wayne growth model (hypoxia model), important transcriptional regulators such as SigB, SigE, SigH, regulators in the two-component system such as MprA, MtrA, PhoP, RegX3 and TrcR were identified in stress condition. Multiple-stress model studied the growth of bacteria in low oxygen concentration, high carbon dioxide levels, low pH and nutrient starvation. The gene expression data was integrated in the Mtb PPI network and implementation of Max-flow algorithm showed that MprA, part of the MprA-MprB two-component system, is involved in the regulation of persistent condition. WhiB1 also features in the paths of dormant condition and its role in persistence can be explored. In reaeration model, WhiB1 and WhiB4 are present in the top flows of this condition indicating that the redox state is perturbed in the pathogen and the interactions of these proteins are important to understand the reversal of dormant condition. From the study, Rv2034, Rv2035, HigA, Rv1989, Rv1990 and Rv0837 proteins belonging to toxin-antitoxin systems were also identified in the dormant bacteria, indicating their role in adaptation during stress condition. The role of Rv2034 has been studied in persistence, but the function of other proteins can be analyzed to provide new testable hypotheses about the role of these proteins in dormancy. Thus, the flows or paths perturbed during dormancy were identified in this study. To get a better understanding of the metabolic network active in mycobacteria under different conditions, experiments were performed in Mycobacterium smegmatis MC2 155. The non-pathogenic strain of genus Mycobacteria, Mycobacterium smegmatis, is used as a surrogate to carry out molecular biology studies of Mtb. Mycobacterium smegmatis MC2 155 (Msm) is the commonly used laboratory strain for experimental purpose. In order to obtain a clear understanding of how comparable are the metabolic networks between the virulent M. tuberculosis H37Rv and the model system Msm, the latter model is first studied systematically. In Chapter 6, first the functional annotation of the Msm genome was carried out and the genes were categorized into different Tuberculist classes based on homology with the Mtb genome. A high-throughput growth characterization was carried out to characterize the strain systematically in terms of different carbon, nitrogen or other sources that promoted growth and thus served as nutrients and those that did not, together yielding a genome-phenome correlation in Msm. Gene expression was measured and used for explaining the observed phenotypic behavior of the organism. Together with the genome sequence, the transcriptome and phenome analysis, a set of about 257 different metabolic pathways were identified to be feasible in wild-type Msm. About 284 different carbon, nitrogen source and nutrient supplements were tested in this experiment and 167 of them supported growth of Msm. This indicates that the compounds enter the cells and are metabolized efficiently, thus yielding similar phenotypes. The expressed genes and metabolites supporting growth were mapped to the metabolic network of Msm, thus helping in the identification of feasible metabolic routes in Msm. A comparative study between Msm and Mtb revealed that these organisms share similarity in the nutrient sources that are utilized for growth. The study provides experimental proof to identify the feasible metabolic routes in Msm, and this can be used for understanding the metabolic capability in the two organisms under different conditions providing a basis to understand adaptations during dormancy. In the last part of the work presented in this thesis, the metabolic shift in the pathogen was studied using a genome-scale metabolic model of Mtb (Chapter 7). The model contains information of the reactions, metabolites and genes involved in the reactions. Flux balance analysis (FBA) was carried out by integrating normalized gene expression data (Wayne model and multiple-stress model transcriptome considered in Chapter 5) to identify the set of reactions, which have a higher flux in the dormant condition as compared to the control replicating condition. Glutamate metabolism along with propionyl CoA metabolism emerge as major up-regulated processes in dormant Mtb. Next, with an objective of identifying essential genes in dormant Mtb, a systematic in silico single gene knock-out analysis was carried out where each gene and it's associated reaction was knocked out of the model, one at a time and the ability of the model to reach its objective function assessed. About 168 common genes in Wayne model and multiple-stress model were identified as important in Mtb after the knockout analysis. Essentiality is in essence a systems property and requires to be probed through multiple angles. Towards this, essential genes were identified in Mtb using a multi-level multi-scale systems biology approach. About 283 genes were identified as essential on the basis of combined analysis of transcriptome data, FBA, network analysis and phyletic retention studies in Mtb. 168 genes identified as important in dormant Mtb were compared with 283 essential genes and about 91 genes were found to be essential. Finally, among the set of essential genes, those that satisfy other criteria for a drug target were analyzed using the list of high-confidence drug targets of Mtb available in the laboratory along with their associated drug or drug-like molecules. 38 out of the 168 important genes in Mtb were found to have one or more drugs associated with them from the DrugBank database. Colchicin-Rv1655, Raloxifene-Rv1653, Bexarotene-Rv3804, Rosiglitazone-Rv3804 are top-scoring drug-target pairs that can be explored for killing dormant bacilli. The study has thus been useful in identifying important proteins, reactions and drug targets in dormant Mtb. In summary, the thesis presents a comprehensive systems-level understanding of various aspects of host responses and pathogen adaptation during latent TB infection. Key host and pathogen factors involved in LTBI are identified that serve as useful pointers for deriving strategies for tackling a latent infection.

Mycobacterium Tuberculosis

Systems Biology

Latent Tuberculosis Infection (LTBI)

Tuberculosis

Tuberculosis Pathogenesis

Tuberculosis Vaccines

Antitubercular Agents

Mtb

Mycobacterium smegmatis

Genome-scale Metabolic Model (GSM)

Latent TB Infection

Molecular Biophysics

Calculating the risk of infection of mycobacterium tuberculosis in endemic settings

Johnstone-Robertson, Simon Peter

03 1900

Thesis (MSc)--Stellenbosch University, 2012. / ENGLISH ABSTRACT: The annual risk of infection (ARI), a measure of recent transmission, has been described as the most important parameter in tuberculosis (TB) epidemics. Nevertheless, mounting evidence suggests all factors contributing to TB transmission are not yet completely understood. This research was performed to investigate the role various parameters, e.g. overcrowding, period of infectivity, ventilation, and infectivity of source cases, play in TB transmission. An established airborne transmission risk model, the Wells-Riley equation (WRE), was modified to account for scenarios where unknown numbers of infectious individuals may be present. Subsequently, the ARI for three indoor locations conducive to TB transmission were calculated. Two locations (households and minibus taxis) were identified in a social mixing survey conducted within a South African community where TB is endemic as a part of this research. The third location (prison) was identified in an earlier independent study in the same community. The impact various interventions could have in reducing the ARI associated with each location was explored. Poor ventilation, severe overcrowding, extended exposure periods, and high incidence rates contributed to high TB transmission risks in each location. The household-associated ARI was related to the number of resident adults. Current TB control programs will only reduce the ARI if household ventilation levels are improved simultaneously. Similar reductions in the ARI could be achieved by trebling current ventilation levels or by separating child and adult sleeping areas. Neighbouring households can also contribute substantially to the ARI. The minibus taxi-associated ARI for drivers and commuters was considerable but readily reduced by opening windows or keeping the fresh-air fan on. Reducing TB case prevalence through active or passive case-finding would reduce the ARI substantially. The prison-associated ARI was proportional to levels of overcrowding. No single intervention, such as improved ventilation, decreased lock-up time, or improved case-finding, would decrease the ARI substantially, but concurrent implementation of all of them to meet national or international standards would. This research shows TB is not only transmitted in epidemics by highly infectious TB cases, but that any TB case, no matter how infectious, has the potential to infect susceptible people under the right conditions. / AFRIKAANSE OPSOMMING:Die jaarlikse infeksierisiko (ARI) – maatstaf van onlangse siekteoordrag – word as die belangrikste parameter in tuberkulose- (TB-)epidemies bestempel. Nietemin dui toenemende bewyse daarop dat nie álle faktore wat tot TB-oordrag bydra, volledig verstaan word nie. Hierdie navorsing is onderneem om ondersoek in te stel na die rol van verskillende parameters – byvoorbeeld oorbevolking, tydperk van aansteeklikheid, ventilasie en die aansteeklikheid van brongevalle – in TB-verspreiding. Gevestigde model vir die raming van siekteverspreiding deur die lug, die Wells-Riley-vergelyking (WRE), is aangepas vir scenario’s waar onbekende aantal aansteeklike individue moontlik aanwesig is. Daarna is die ARI bereken vir drie ingeslote ruimtes wat TB-oordrag bevorder. Twee van die ruimtes (huishoudings en minibustaxi’s) is ten tyde van die navorsing uitgewys in sosialevermengingsopname in Suid-Afrikaanse gemeenskap waar TB endemies is. Die derde ruimte (gevangenisse) is uitgewys in vroeëre onafhanklike studie in dieselfde gemeenskap. Die navorser het gevolglik bepaal watter moontlike impak verskillende intervensies op die verlaging van die ARI in elke ruimte het. Swak ventilasie, ernstige oorbevolking, verlengde blootstellingstydperke en hoë voorkomsyfers het in elke ruimte tot hoë TB-oordragrisiko bygedra. Die huishoudingsverwante ARI het verband gehou met die aantal volwassenes wat in die huis woon. Huidige TB-beheerprogramme sal slegs die ARI kan verlaag indien huishoudelike ventilasievlakke terselfdertyd verbeter word. Drie keer beter ventilasievlakke of die skeiding van kinders en volwassenes se slaapareas kan soortgelyke verlagings in die ARI teweegbring. Buurhuishoudings kan ook aansienlik tot die ARI bydra. Die minibustaxi-verwante ARI vir bestuurders en pendelaars was beduidend, maar kan betreklik maklik verlaag word deur vensters oop te maak of die varslugwaaier aan te hou. Die vermindering van die voorkoms van TBgevalle deur aktiewe óf passiewe gevalle-opsporing kan die ARI ook beduidend verlaag. Die gevangenisverwante ARI het met vlakke van oorbevolking verband gehou. Geen enkele intervensie soos beter ventilasie, korter toesluittye of beter gevalle-opsporing sal die ARI aansienlik verlaag nie, maar die gelyktydige inwerkingstelling van ál hierdie intervensies in pas met nasionale of internasionale standaarde kan wél. Hierdie navorsing toon dat TB in epidemies nie net deur hoogs aansteeklike TB-gevalle oorgedra word nie, maar dat enige TB-geval, ongeag hoe aansteeklik, die siekte in die regte omstandighede na vatbare mense kan oordra.

Tuberculosis -- Infection

TB transmission

Annual risk of infection -- Calculation

Wells-Riley equation

Dissertations -- Mathematics

Theses -- Mathematics

TB

ARI

Iron and Tuberculosis pathogenesis

Cowie, Danielle

04 1900

Thesis (MSc)--Stellenbosch University, 2014. / ENGLISH ABSTRACT: Iron is an essential element that plays a role in the process of respiration, oxygen transport and as a principle cofactor to several enzymes. Iron homeostasis is a finely regulated process since excess levels become toxic to healthy cells via the production of reactive oxygen species. A plethora of genes that control several key points throughout this regulatory process have been identified. Research focusing on changes in expression levels and downstream functional effects of these genes has become increasingly important over the past decade. One area of particular interest has emerged since a link between iron status and host response to Mycobacterium tuberculosis infection was discovered. Although the prevalence of Tuberculosis has decreased across the globe with the exception of Africa and parts of Europe, the mortality rate remains high. Therefore, research that focuses on understanding an individual’s predetermined susceptibility to TB infection at the genetic level could provide health care practitioners with the tools required to identify and educate at-risk individuals prior to TB infection. RT-qPCR was utilised to determine expression profiles for eight iron genes (CP, CYBRD1, FTH, FTL, LTF, HFE, HMOX1, and SCL40A1) normalised to three reference genes (ACTB, GUSB, and RPL37A1). Up-regulation is demonstrated in the TB group for transcript levels recorded for CYBRD1, HFE, HMOX1, and SLC40A1. Several measured serum parameters including conjugated, unconjugated, total bilirubin, and total protein were increased in the TB group while albumin was significantly lower in this group. Correlation analysis demonstrated that a positive correlation exists between transferrin saturation and iron and a negative correlation exists between transferrin and ferritin levels. Individuals categorised with low serum iron levels demonstrated lower CP/GUSB levels and higher HMOX1/GUSB levels. Individuals categorised with low transferrin saturation levels demonstrated higher FTL/GUSB and SLC40A1/GUSB levels and lower CP/GUSB. Results from this study provide further evidence for the relationship between iron status and TB infection rates, although protein studies are required to confirm these results. The data obtained illustrate the important role that these profiles and iron parameters may play in the clinical field when identifying at-risk individuals. Further investigation that focuses on which gene profile and parameter combinations show the most distinctive utility in the clinical setting is warranted. / AFRIKAANSE OPSOMMING: Yster is ‘n noodsaaklike element wat ‘n rol speel in die proses van respirasie en die vervoer van suurstof en ook ‘n belangrike ko-faktor vir verskeie ensieme is. Yster homeostase is op ‘n fyn manier gereguleer omdat oormatige vlakke toksies kan wees vir gesonde selle wanneer reaktiewe suurstofspesies geproduseer word. ‘n Magdom gene wat verskeie sleutelpunte in hierdie proses kontroleer is voorheen identifiseer. Navorsing wat fokus op die veranderinge in geenuitdrukkingsvlakke en die funksionele gevolge daarvan het oor die afgelope dekade toenemend belangrik geword. Een gebied van spesifieke belang het na vore gekom nadat ‘n verband tussen ystervlakke en die manier waarop die immuunstelsel reageer op Mycobacterium tuberculosis infeksie, ontdek is. Alhoewel die voorkoms van Tuberkulose wêreldwyd, behalwe in Afrika en sekere dele van Europa, afgeneem het, bly die sterftesyfer hoog. Daarom kan navorsing wat daarop fokus om ‘n individu se voorafbepaalde vatbaarheid vir TB-infeksie op die genetiese vlak te verstaan dalk aan gesondheidswerkers die regte instrumente verskaf om hoë-risiko individue te identifiseer en op te voed voordat hulle TB ontwikkel. RT-qPKR is gebruik om die geenuitdrukkingsvlakke van agt ystergene, wat met drie verwysings-gene (ACTB, GUSB, en RPL37A1) genormaliseer is, te bepaal. ‘n Toename in die uitdrukkingsvlakke van CYBRD1, HFE, HMOX1, en SLC40A1 is in die TB-groep waargeneem. Die bloedvlakke van verskeie parameters insluitend gekonjugeerde, ongekonjugeerde, totale bilirubin, en totale proteïen was hoër in die TB-groep, terwyl albuminvlakke laer was in hierdie groep. Korrelasie-analise het ‘n positiewe korrelasie tussen transferrin-versadiging en yster getoon, terwyl daar ‘n negatiewe korrelasie tussen transferrin- en ferritinvlakke gevind is. Individue met lae ystervlakke het laer CP/GUSB-vlakke en hoër HMOX1/GUSB-vlakke getoon. Individue met lae transferrin-versadiging het hoër FTL/GUSB- en SLC40A1/GUSB-vlakke en laer CP/GUSB-vlakke getoon. Resultate uit hierdie studie verskaf verdere getuienis dat daar ‘n verwantskap tussen ystervlakke en TB-infeksiekoerse bestaan, alhoewel proteïenstudies nodig is om hierdie resultate te bevestig. Die data dui op die belangrike rol wat hierdie profiele en ystervlakke in die kliniese veld mag speel in die identifisering van hoë-risiko individue. Verdere ondersoek, gefokus op watter geenprofiel en parameterkombinasies die grootste nut in die kliniese omgewing bied, is geregverdig.

Mycobacterium tuberculosis infection

Tuberculosis -- Molecular aspects

Iron -- Physiological effect

Iron -- Genetic analysis

Iron -- Metabolism

UCTD

Theses -- Genetics

Dissertations -- Genetics

Unraveling the Evolutionary Advantages of Crosstalk Between Two-Component Signalling Systems of M tuberculosis

Bharadwaj, Vemparala

January 2017

M. tuberculosis (Mtb) senses and responds to changes in its environment primar-ily through two-component signalling systems (TCSs). Each TCS contains a trans-membrane histidine kinase (HK ) protein and a cytoplasmic response regulator (RR) protein. HK detects a stimulus and gets phosphorylated. It then binds and transfers the phosphoryl group to the RR of the same TCS. Activated RR then triggers gene ex-pression, including upregulation of the HK and RR involved, eliciting responses that are essential for the bacterium to adapt. Though di erent TCSs detect distinct stimuli, the binding regions of the HK s and RRs share signi cant similarity. This raises the possibil-ity of crosstalk, where HK s dissipate signals to RRs that do not belong to the same TCS. Studies have argued that such dissipation of signals impairs the fitness of the organism, as it decreases the output levels as well as triggers unwanted responses. In contrast, a recent experimental study has discovered that TCSs of Mtb share extensive crosstalk, violating the widely accepted specificity paradigm. In this study, we have attempted to unravel the evolutionary underpinnings of this extensive crosstalk observed in Mtb. We hypothesised that such crosstalk may be advantageous in programmed environments, where there are well-defined sequences of stimuli. In such situations, crosstalk can up-regulate HK s and RRs of non-cognate TCSs. This up-regulation primes the latter TCSs for upcoming signals, increasing their sensitivity. We constructed a mechanistic model of the functioning of TCSs and a fitness variable to qualitatively measure the response of a TCS to a signal, to test the hypothesis. We performed population genetics simulations of the evolution of phenotypes of different crosstalk patterns. We found that in a random environment, the phenotype without any crosstalk is selected over time, which is in agreement with prevalent arguments in favour of specificity of TCSs. But when the environment is programmed, the phenotype with a crosstalk pattern mirroring the pattern of stimuli dominates the population. Finally, we found evidence for the evolutionary preference to preserve crosstalk in gene sequences of HK s and RRs encoded in Mtb. We found that the binding domains of HK s and RRs, which were predicted to share crosstalk, are under greater pressure to be similar than those domains which do not crosstalk. Our study thus provides a plausible explanation of the unexpected presence of crosstalk in Mtb. Since these cross-interactions aid the pathogen to adapt in the host, inhibitors of such interactions are likely to have therapeutic potential.

Mycobacterium tuberculosis

Two-component Signalling Systems (TCSs)

Trans-Membrane Histidine Kinase

M. tuberculosis (Mtb)

Tuberculosis Infection

Chemical Engineering

Étude de la variabilité de réponse immunitaire innée chez l'Homme : une approche évolutive et moléculaire / Studying the variability in human innate immune response : an evolutionary and molecular approach

Deschamps, Matthieu

29 September 2015

Les maladies infectieuses sont l’une des principales causes de mortalité à travers le monde. La réponse immunitaire est l’un des phénotypes les plus complexes qui existent. Elle présente une variabilité au sein et entre les populations. Cette thèse vise à identifier des facteurs génétiques et des mécanismes moléculaires sous-jacents aux différences de susceptibilité aux maladies infectieuses grâce à l’utilisation d’une combinaison d’approches in silico et ex vivo. Nous avons tout d’abord réalisé des analyses de génétique des populations et de génétique évolutive pour évaluer l’impact de la sélection naturelle sur les gènes de l’immunité innée. Nos résultats montrent l’étendue et l’hétérogénéité des pressions sélectives sur ces gènes et suggèrent que l’introgression d’allèles provenant de l’Homme de Néandertal dans certaines de ces séquences ont participé à l’adaptation des populations Européennes et Asiatiques à leurs environnements respectifs. Nous avons ensuite estimé l’implication des miARN dans la réponse des cellules dendritiques à l’infection par Mycobacterium tuberculosis. Nos résultats soulignent les conséquences de l’infection sur les réseaux de régulation de l’expression des gènes par les miARN et montrent que l’expression de 3% des miARN est associée à des facteurs génétiques proximaux. Nous identifions en particulier deux associations qui ne sont observées que dans un contexte infectieux. Le travail présenté ici constitue la plus large étude de génétique évolutive et de génétique des populations axée sur les gènes de l’immunité innée réalisée à ce jour et la première caractérisation de l’architecture génétique de la réponse à l’infection impliquant les miARN. / Infectious diseases remain one of the leading causes of death worldwide. The immune response to pathogens, one of the most complex phenotypes that exist, presents substantial variability among individuals and populations. This thesis aims to identify genetic factors and molecular mechanisms underlying differences in susceptibility to infectious diseases using a combination of in silico and ex vivo approaches. First, we performed population and evolutionary genetics analyses to assess the impact of natural selection on innate immunity genes. Our analyses reveal the widespread and heterogeneous nature of the selective pressures acting on those genes. In addition, we suggest that the introgression of Neanderthal alleles in some of these sequences contributed to the adaptation of European and East Asian populations to local pathogens. Second, we profiled the miRNA response to Mycobacterium tuberculosis infection in human dendritic cells. Our results highlight the impact of infection on miRNA-mediated gene regulatory networks and show that the expression of 3% of miRNAs is associated with proximate genetic variants. More specifically, we identify two infection-specific associations. The work presented here provides the largest evolutionary genetics analysis of innate immunity genes to date and the first attempt to characterize the genetic architecture of the miRNA response to infection. Our work offers new insights into the genetic basis of inter-individual variability in immune responses and provides a set of candidate genetic variants for future functional validation to elucidate novel molecular mechanisms underlying differences in susceptibility to infectious diseases.

Immunité innée

Génétique évolutive

MiARN

Génétique des populations

Tuberculose

Homme de Néandertal

Innate immunity genes

Evolutionary genetics

Mycobacterium tuberculosis infection

576.8

Structural and Functional Studies on Pyridoxal Kinase and Pyridoxal 5′-phosphate Dependent Enzymes

Deka, Geeta

January 2017

Most of the chemical reactions of living cells are catalyzed by protein enzymes. These enzymes are very efficient and display a high degree of specificity with respect to the reaction catalyzed. Cellular activities depend critically on the precise three-dimensional structure and function of thousands of enzymes. Many enzymes require binding of metal ions or small organic molecules for their function. The organic molecules that are indispensible components of catalysis by proteins are called coenzymes. Pyridoxal 5ʹ-phosphate (PLP) is a versatile coenzyme found in all living cells. PLP-dependent enzymes play a key role in the function of most of the enzymes catalyzing reactions in the metabolic pathways of amino acid synthesis and degradation. The enzyme pyridoxal kinase serves to make available the co-enzyme PLP to apo-PLP dependent enzymes. Because of their key role in cellular function and their medical importance, the structure and function of PLP-dependent enzymes have been extensively investigated. In the past decade, detailed investigations on the structure and function of several PLP-dependent enzymes have been carried out in our laboratory. The enzymes studied are B. subtilis serinehydroxymethyl transferase (SHMT), S. typhimurium acetylornithine aminotransferase (AcOAT), S. typhimurium and E. coli diaminopropionate ammonia lyase (DAPAL), S. typhimurium D-serine dehydratase (DSD), S. typhimurium D-cysteine desulfhydrase (DCyD) and S. typhimurium arginine decarboxylase (ArgD). The extensive studies conducted on PLP-dependent enzymes in our laboratory during the past decade has not only resulted in deeper understanding of their structure and function but also raised several new questions regarding substrate recognition, reaction specificity, role of active site residues in the catalytic reaction, mechanism of catalysis and potential applications of these enzymes. This thesis is an attempt to answer some of these questions. The thesis also presents the structure and function of a new protein, Salmonella typhimurium pyridoxal kinase, the enzyme that provides PLP for PLP-dependent enzymes. Single crystal X-ray diffraction technique is the most powerful tool currently available for the elucidation of the three-dimensional structures of proteins and other biological macromolecules and for revealing the relationship between their structure and function. X-ray diffraction studies have provided in depth understanding of the topology of secondary structural elements in the three-dimensional structures of proteins, the hierarchical organization of protein domains, structural basis for the substrate specificity of enzymes, intricate details of mechanisms of enzyme catalyzed reactions, allosteric regulation of enzyme activity, mechanisms of feed-back inhibition, structural basis of protein stability, symmetry of oligomeric proteins and their possible biological implications and a myriad of other biochemical and biophysical properties of proteins. The work reported in this thesis is primarily based on X-ray diffraction studies. X-ray crystal structure investigations are complemented by spectral and biochemical studies on the catalyzed reactions. The thesis begins with an introduction to PLP-dependent enzymes and presentation of a brief summary of the earlier work carried out in our laboratory on PLP-dependent enzymes (Chapter 1). A brief description of earlier functional classification of PLP-dependent enzymes and the more recent classification of these enzymes into the four groups based on their three-dimensional structure is provided. Although enzymes belonging to these four structural classes have evolved from independent evolutionary lineages, they share some common features near their active sites and in the mode of PLP binding. Earlier work carried out elsewhere on pyridoxal kinase and its key role in maintaining PLP at a low concentration in the cytosol is presented. Different mechanisms that have been proposed for the transfer of PLP from pyridoxal kinase to other apo PLP-dependent enzymes are briefly described. The experimental procedures and computational methods used during the course of these investigations to obtain the results reported in chapters 3-6 are presented in Chapter 2. Most of these methods are applicable to the isolation of plasmids, cloning, over expression, protein purification, mutant construction, crystallization, X-ray diffraction data collection and processing, structure elucidation and refinement, validation and structural analysis presented in the next three chapters. Various programs and protocols used for data processing, structure determination, refinement, model building, structure validation and analysis are also briefly described. In chapter 3, the role of a number of active site residues in the reaction catalyzed by EcDAPAL, a fold type II PLP-dependent enzyme, the structure of which was determined earlier in the laboratory is explored by mutational, biochemical and structural analyses. Earlier studies had established the probable role of Asp120 and Lys77 in the reaction leading to the breakdown of D-DAP and L-DAP, respectively (Bisht et al., 2012). To further validate the earlier observations, a number of active site mutants were generated for Asp 120 (D120N, D120C, D120S and D120T), Asp 189 (D189N, D189C, D189S and D189T), Lys77 (K77T, K77H, K77R and K77A), His 123 (H123L) and Tyr 168 (Y168F). The structure of D120N mutant crystal obtained after soaking in crystallization cocktail containing D-DAP revealed the presence of an intact external aldimine complex at the active site supporting the earlier proposal that Asp120 is the base abstracting the Cα proton from the D-isomer of DAP. Biochemical and structural observations suggested that none of the Asp189 mutants may bind PLP and were catalytically inactive suggesting an essential role for Asp189 in catalysis. In contrast to type I PLP-dependent enzymes, none of the Lys 77 mutants of EcDAPAL could bind PLP either covalently or non-covalently and were inactive with both the isomers of DAP. Thus, Lys77 appears to be important for both PLP binding and catalysis. H123L mutant formed an external aldimine with D-DAP and a gem-diamine complex with L-DAP indicating that this residue is also crucial for catalysis. These studies have provided additional support to the catalytic mechanism of EcDAPAL proposed earlier. The next Chapter 4 explores the structure, function and catalytic mechanism of Salmonella typhimurium DAPAL (StDAPAL). The protein was purified from a construct carrying a hexa-histidine tag at the C-terminus by Ni-NTA chromatography. The purified protein was demonstrated to be homogeneous by SDS-PAGE and MALDI-TOF. Crystals of StDAPAL belonging to the C-centred monoclinic space group (C121) with four molecules in the asymmetric unit were obtained by the micro batch method and used for collecting X-ray diffracting data. The crystal structure was determined by molecular replacement using the homologous enzyme from E. coli (PDB code 4D9M, Bisht et al., 2012), which shares a sequence identity of 50% with the S. typhimurium enzyme as the phasing model in the program Phaser (McCoy et al., 2007) of the CCP4 suite. The model was refined with Refmac5 of CCP4 suite to R and Rfree values of 25.5% and 30.9%, respectively. A superposition of the structure so obtained over EcDAPAL revealed that the two structures are very similar. A sulfate molecule bound to the active site of StDAPAL could be located. The position of the sulfate corresponds to that of the carboxyl group of aminoacrylate intermediate of EcDAPAL (4D9M). The PLP was bound to Lys78 as an internal aldimine. Since the active sites of the two protomers in fold type II PLP-dependent enzymes are independent, it might be possible to obtain functional monomers of EcDAPAL. With this view, mutation of a conserved Trp (Trp399) present in the dimeric interface resulted in the destabilization of the dimeric interface and partial conversion of the dimeric protein to a monomeric protein. However, the monomeric species of EcDAPALW399R was unable to bind PLP and hence did not possess any catalytic activity. This highlights the importance of dimeric organization for efficient binding of PLP as well as for the activity of the enzyme. A remarkable difference between EcDAPAL and StDAPAL is the absence of a disulfide bond between residues Cys271 and Cys299 in StDAPAL equivalent to the bond formed between Cys265 and Cys291 in EcDAPAL. Mutation of Cys265 and Cys291 of EcDAPAL to Ser did not affect the activity of the enzyme towards either of the isomers of the substrate indicating that the disulfide bond is not crucial for enzyme activity. The stability of the loop corresponding residues 261-295 of EcDAPAL was believed to be promoted by the disulfide bond. However, the equivalent loop was found to be ordered in StDAPAL even though the disulfide bond is absent. In contrast to StDAPAL, EcDAPAL did not show any metal dependent activity. The previous two chapters dealt with fold type II PLP-dependent enzymes. In contrast, Chapter 5 deals with revisiting the structure and function of a fold type I PLP-dependent enzyme, Salmonella typhimurium arginine decarboxylase (StADC). ADC is a very large polypeptide in comparison with other fold type I enzymes. It is induced when the bacterium is subjected to low pH and plays a major role in protecting the cells from acid stress. The structure of StADC was determined but not satisfactorily refined by Dr. S. R. Bharat earlier. The X-ray diffraction data collected by Bharat needed to be improved and the structure needed to be further refined and compared with the homologous E. coli enzyme. Therefore, the entire process of data processing, structure solution and refinement was repeated. The refined structure of StADC was found to correspond to the apo form of the enzyme with only a phosphate molecule occupying the position equivalent to that of 5’ phosphate of PLP observed in EcADC holo enzyme structure. This allowed examination of structural changes that accompany PLP binding and formation of an internal aldimine. The apo to holo transition in StADC involves the movement and ordering of two loops consisting of residues 151-164 and 191-196 which are in the linker and PLP binding domains of the protein, respectively. Phosphate binding by itself appears to be insufficient for these structural changes. These two loops are close to the PLP binding site of the other protomer of the dimer. Hence, these movements are probably important for the catalytic function of the enzyme. Holo ADC has been found as a decamer in other studies. The decameric form of the apo-StADC suggests that PLP binding may not be essential for the oligomeric state of the protein. ADC appears to reduce proton concentration inside the cell in two ways; (i) by surface charge neutralization and (ii) by arginine decarboxylation by extracting a proton from the cytoplasm. The resulting product agmatine is exchanged for extra cellular arginine by arginine-agmatine antiporter. The low sequence identity and lack of structural similarity of the inducible and constitutive forms of ADC from S. typhimurium shows that these are unlikely to be products of divergent evolution. The final chapter 6 of the thesis presents the work carried out on S. typhimurium pyridoxal kinase (PLK). In the salvage pathway of pyridoxal 5’phosphate (PLP), PLP is produced as the product of the reaction catalyzed by PLK using PL, PN and PM as substrates. Thus, PLK plays the critical role of ensuring availability of PLP to the large number of PLP-dependent enzymes. S. typhimurium PLK was purified to homogeneity, crystallized in its native as well as ligand bound forms. It was necessary to circumvent an unusual problem caused by spots arising from a contaminant crystal to obtain the structure of the native crystals of PLK that belonged to the P212121 space group with two protomers in the crystal asymmetric unit. It was then straight forward to determine the ligand bound structures of StPLK (space group P43212) obtained by co-crystallization with ATP, PL and Mg2+ by molecular replacement using the wild type structure as the phasing model. The structures obtained by co-crystallization revealed the presence of ADP, Mg2+ and a PL bound to the active site Lys233 via a Schiff base (internal aldimine). This is the first structure in which the presence of an internal aldimine in the active site of PLK has been observed. Formation of the internal aldimine might be one way to prevent the release of excess PLP and protecting the cell from PLP induced toxicity. The enzyme was shown to be inhibited by the product which will also help in maintaining PLP concentration at low levels. It was also demonstrated that PLK interacts with apo-PLP-dependent enzymes. This observation supports possible direct transfer of PLP from PLK to PLP-dependent enzymes. The thesis ends with an appendix where the work carried out during the course of the thesis work but not as part of the thesis is briefly described.

Pyridoxal Kinase

Pyridoxal 5'-Phosphate Enzymes

Escherechia Coil

Latent Tuberculosis Infection

E. coli Diaminopropionate Ammonia Lyase

S. typhimurium Arginine Decarboxylase

Diaminopropionate Ammonia Lyase

Molecular Biophysics

Infecção latente por tuberculose: uma análise dos componentes e indicadores epidemiológicos do tratamento preventivo da tuberculose em Goiás / Latent tuberculosis infection: an analysis of the components and epidemiological indicators of the preventive treatment of this tuberculosis in Goiás

Gomes, Daniel Batista

20 December 2016

Submitted by Cássia Santos (cassia.bcufg@gmail.com) on 2017-06-29T12:16:23Z No. of bitstreams: 2 Dissertação - Daniel Batista Gomes - 2016.pdf: 3477482 bytes, checksum: 39d73011b1245110ab18fca9b832b249 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2017-07-10T14:14:40Z (GMT) No. of bitstreams: 2 Dissertação - Daniel Batista Gomes - 2016.pdf: 3477482 bytes, checksum: 39d73011b1245110ab18fca9b832b249 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2017-07-10T14:14:40Z (GMT). No. of bitstreams: 2 Dissertação - Daniel Batista Gomes - 2016.pdf: 3477482 bytes, checksum: 39d73011b1245110ab18fca9b832b249 (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2016-12-20 / Tuberculosis is still a major global health problem. One of the strategies recommended for the control of tuberculosis is the identification and early treatment of individuals with latent M. tuberculosis infection (ILTB). In Brazil, ILTB is not part of the compulsory notification aggravations, but there is a recommendation for States to create instruments for notification and follow-up of cases. In Goiás, a notification form for ILTB was developed in 2012 by the State Department of Health. The objective of the research is to analyze the epidemiological profile of ILTB cases and to characterize the surveillance processes related to the diagnosis and treatment of this disease in this state. The reports of ILTB cases treated between 2013 and 2015 were analyzed. A database linking was carried out considering the cases of tuberculosis reported in the SINAN NET Notification System and the ILTB records. To evaluate the technical and structure aspects of ILTB control services, a structured questionnaire was applied to the supervisors of health surveillance in the 18 health regions of the State. A descriptive and exploratory data analysis was carried out using software SPSS 13.0 and TABWIN 1.6 EPI INFO. 345 cases of ILTB were reported in the study period. The patients' ages ranged from 0 to 92 years (median age 38 years); 65.2% were adults and 10.1% were up to 10 years. Five municipalities (Goiânia, Aparecida de Goiânia, Jataí, Anápolis and Formosa) reported 77.7% of the cases. In 24.6% of the cases, the criterion for treatment of ILTB was the result of Tuberculin Test (TT)> 10mm. In this group all cases were asymptomatic and 78.8% had contact with active tuberculosis. It was identified that 39 cases were HIV positive, corresponding to 12.7% of indications for ILTB treatment. According to health surveillance supervisors, all 246 municipalities had a Tuberculosis Control Program. Concerning the specific training on ILTB, 74 municipalities (30.1%) received this training, reaching 141 health professionals. In relation to the specific training for the application of TT, only three (16.7%) health regions were trained, of which two managed to decentralize this training to some of their jurisdictions. Eleven regional health (61.1%) reported that the number of TT provided by the State Department of Health was inadequate to meet the demands of municipalities. According to supervisors, 88.2% of the municipalities in Goiás do not have the tools to monitor cases of co-infection with HIV. The present study contributed to the knowledge of the epidemiological profile of the reported cases of ILTB, as well as to the process of control of this aggravation in the State. Failures were identified in the ILTB control process in the different regions of the State of Goiás. This study is expected to support effective actions to control tuberculosis in the State. / A tuberculose ainda é um grande problema de saúde global. Uma das estratégias preconizada para controle da tuberculose consiste na identificação e tratamento precoce dos indivíduos com infecção latente pelo M. tuberculosis (ILTB). No Brasil, a ILTB não faz parte dos agravos de notificação compulsória, porém existe recomendação para que os Estados criem instrumentos para notificação e acompanhamento dos casos. Em Goiás, uma ficha de notificação para ILTB foi desenvolvida em 2012 pela Secretaria de Estadual da Saúde. O objetivo da pesquisa consiste em analisar o perfil epidemiológico dos casos de ILTB e caracterizar os processos de vigilância relacionados ao diagnóstico e tratamento dessa doença neste estado. Foram analisadas as notificações de casos de ILTB tratados entre 2013 e 2015. Foi realizada a vinculação de base de dados considerando os casos de tuberculose notificados no Sistema de Informação de Agravos de Notificação (SINAN NET) e os registros de ILTB. Para avaliar aspectos técnicos e de estrutura de serviços de controle de ILTB foi aplicado questionário estruturado para os supervisores de vigilância em saúde das 18 regiões de saúde do Estado. Foi realizada análise descritiva e exploratória de dados por meio dos softwares SPSS 13.0 e TABWIN 1.6 EPI INFO. 345 casos de ILTB foram notificados, no período de estudo. A idade dos pacientes variou de 0 a 92 anos (mediana de 38 anos); 65,2% eram adultos e 10,1% tinham até 10 anos. 05 municípios (Goiânia, Aparecida de Goiânia, Jataí, Anápolis e Formosa) notificaram 77,7% dos casos. Em 24,6% dos casos, o critério para tratamento da ILTB foi o resultado do Teste Tuberculínico (TT) >10mm. Nesse grupo todos os casos eram assintomáticos e 78,8% tinham contato com caso de tuberculose ativa. Identificou-se que 39 casos eram HIV positivos, correspondendo a 12,7% das indicações para tratamento ILTB. De acordo com os supervisores de vigilância em saúde, todos os 246 municípios contavam com Programa de Controle da Tuberculose. 74 municípios (30,1%), receberam treinamento sobre ILTB, alcançando 141 profissionais de saúde. Em relação ao treinamento especifico para aplicação do TT apenas 03 (16,7%) regiões de saúde foram capacitadas, das quais duas conseguiram descentralizar esta capacitação para alguns de seus municípios jurisdicionados. 11 regionais de saúde (61,1%) informaram que o número de TT disponibilizado pela Secretaria de Estado da Saúde foi inadequado para atender as demandas dos municípios. Ainda segundo os supervisores, 88,2% dos municípios goianos não dispõem de ferramentas para acompanhamento dos casos de co-infecção com HIV. O presente estudo contribuiu para o conhecimento do perfil epidemiológico dos casos notificados de ILTB, bem como para o processo de controle desse agravo no Estado. Foram identificadas falhas no processo de controle da ILTB, nas diferentes regiões de Saúde do Estado de Goiás. Espera-se que esse estudo possa subsidiar ações efetivas para o controle da tuberculose no Estado.

Tuberculose

Infecção latente por tuberculose

Vigilância em saúde

Saúde pública

Tuberculosis

Latent tuberculosis infection

Health surveillance

Public health

CIENCIAS DA SAUDE::SAUDE COLETIVA

Custo-efetividade da prova tuberculínica versus QuantiFERON-TB Gold-In-Tube no diagnóstico e tratamento da infecção latente tuberculosa em profissionais de saúde da Atenção Básica no Brasil. / Cost-effectiveness of tuberculin skin test versus QuantiFERON-TB Gold-In-Tube in the diagnosis and treatment of latent tuberculosis infection in the primary health care workers in Brazil.

Rafaela Borge Loureiro

08 May 2015

Conselho Nacional de Desenvolvimento Científico e Tecnológico / Os profissionais da área da saúde formam um dos grupos mais vulneráveis à infecção pelo Mycobacterium tuberculosis (Mtb). Segundo estimativas da Organização Mundial de Saúde (OMS), 8,8 milhões de pessoas estavam infectadas pelo Mtb e ocorreram 1,4 milhão de óbitos por tuberculose (TB) em 2010. A identificação de pessoas com Infecção Latente Tuberculosa (ILTB) é considerada pela OMS como uma prioridade no controle da doença, especialmente em países em desenvolvimento em que a incidência da doença ativa tem apresentado redução. O objetivo do presente trabalho foi avaliar, no Brasil, o custo-efetividade dos testes Prova Tuberculínica (PT) e Quantiferon TB Gold-In-Tube (QTF-GIT) no diagnóstico e tratamento da ILTB em profissionais de saúde atuantes na atenção básica, sob a perspectiva do Sistema Único de Saúde (SUS), comparando cinco estratégias que incluem o QTF-GIT, distintos pontos de corte para a PT e uso sequencial dos dois testes; e analisar o impacto do tabagismo sobre o risco de ILTB entre os profissionais de saúde, destacando-se a categoria da Enfermagem. Foi realizada uma avaliação econômica completa do tipo custo-efetividade, conduzida considerando uma coorte hipotética de 10.000 profissionais de saúde atuantes na atenção básica, com horizonte temporal restrito a um ano. Um modelo analítico de decisão, caracterizado por uma árvore de probabilidades de eventos, foi desenvolvido utilizando o software TreeAge ProTM 2013 para simular os resultados clínicos e impactos econômicos em saúde da nova tecnologia diagnóstica (QTF-GIT) versus a PT tradicional. Esse modelo simulou cinco estratégias diagnósticas para detecção e tratamento da ILTB: (a) PT, usando ponto de corte de 5mm; (b) PT, usando ponto de corte de 10 mm; (c) teste QTF-GIT; (d) PT, com ponto de corte de 5mm, seguida de teste QTF-GIT quando PT positiva; (e) PT, com ponto de corte de 10mm, seguida de teste QTF-GIT quando PT positiva. Foi realizada análise de sensibilidade determinística univariada. Na determinação dos fatores associados à ILTB, foi elaborado um modelo de regressão logística múltipla com seleção hierarquizada, utilizando o software Stata. A estratégia mais custo-efetiva foi a PT no ponto de corte ≥10mm, considerando como medida de desfecho tanto o número de indivíduos corretamente classificados pelos testes assim como o número de casos de TB evitados. A utilização isolada do QTF-GIT revelou-se a estratégia de menor eficiência, com RCEI= R$ 343,24 por profissional corretamente classificado pelo teste. Encontrou-se risco à ILTB significantemente maior para sexo masculino [OR=1,89; IC 95%:1,11-3,20], idade ≥ 41 anos [OR=1,56; IC 95%: 1.09-2,22], contato próximo com familiar com TB [OR=1,55; IC 95%: 1.02-2,36], status do tabagismo fumante [OR=1,75; IC 95%: 1.03-2,98] e categoria profissional da Enfermagem [OR=1,44; IC 95%: 1.02-2,03]. Concluiu-se que a PT no ponto de corte de 10mm é a estratégia diagnóstica mais custo-efetiva para ILTB entre os profissionais de saúde na atenção básica e que a ILTB está associada ao hábito do tabagismo e à categoria profissional de Enfermagem. / Health professionals form one of the groups most vulnerable to infection by Mycobacterium tuberculosis (Mtb). According to estimates by the World Health Organization (WHO), 8.8 million people were infected with Mtb and were 1.4 million deaths from TB in 2010. The identification of persons with Latent Tuberculosis Infection (LTBI) is considered by WHO as a priority in the control of disease, especially in developing countries where the incidence of active disease has shown reduction. The aim of this study was to evaluate, in Brazil, the cost-effectiveness of tests Tuberculin Skin Test (TST) and Quantiferon TB Gold-In-Tube (QFT-GIT) in the diagnosis and treatment of LTBI in health professionals working in primary care from the perspective of SUS, comparing five strategies that include the QFT -GIT, different cutoff points for TST and sequential use of two tests; and analyze the impact of smoking on the risk of LTBI among health professionals, highlighting the category of Nursing. A full economic assessment of the type cost-effectiveness was performed, conducted considering a hypothetical cohort of 10,000 health professionals working in primary care, with limited time horizont of one year. A decision analytical model, characterized by a tree of probabilities of events, was developed using the TreeAge ProTM software 2013 (TreeAge Software Inc, Williamstown, MA, USA) to simulate the clinical and economic impacts on health of new diagnostic technology (QFT -GIT) versus the traditional TST. This model simulated five diagnostic strategies for detection and treatment of LTBI (a) TST, using a cut-off of 5 mm; (B) TST, using 10 mm cut-off currently recommended by the TNP; (C) QFT-GIT test; (D) TST, with a cut-off of 5 mm, followed by QFT-GIT test when positive TST; (E) TST, with a cut-off point of 10 mm, followed by QFT-GIT test when positive TST. Univariate deterministic sensitivity analysis was performed to assess the robustness of the results. In determining the factors associated with LTBI, a multiple logistic regression model with hierarchical selection was made, using the Stata software. TST strategy at the cut-off ≥ 10mm was the most cost-effective strategy, while the QFT-GIT alone was the most effective strategy, but showed higher cost. It was found to significantly greater risk for LTBI male [OR = 1.89; 95% CI: 1.11 to 3.20], age ≥ 41 years [OR = 1.56; 95% CI: 1.09-2,22], close contact with a family with TB [OR = 1.55; 95% CI: 1.02-2,36], the smoker smoking status [OR = 1.75; 95% CI: 1.03-2,98] and professional nursing category [OR = 1.44; 95% CI: 1.02-2,03]. It was concluded that TST in 10mm cut-off is the diagnostic strategy more cost-effective for LTBI among health professionals in primary care and that LTBI is associated with the smoke and professional category nurse.

Custo-efetividade

Prova tuberculínica

Quanti-FERON-TB Gold-In-Tube

Infecção latente tuberculosa

Profissionais de saúde

Tabagismo

Cost-effectiveness

Tuberculin skin test

QuantiFERON-TB Gold-In-Tube

Latent tuberculosis infection

Health care professionals

Smoke

EPIDEMIOLOGIA

Custo-efetividade da prova tuberculínica versus QuantiFERON-TB Gold-In-Tube no diagnóstico e tratamento da infecção latente tuberculosa em profissionais de saúde da Atenção Básica no Brasil. / Cost-effectiveness of tuberculin skin test versus QuantiFERON-TB Gold-In-Tube in the diagnosis and treatment of latent tuberculosis infection in the primary health care workers in Brazil.

Rafaela Borge Loureiro

08 May 2015

Conselho Nacional de Desenvolvimento Científico e Tecnológico / Os profissionais da área da saúde formam um dos grupos mais vulneráveis à infecção pelo Mycobacterium tuberculosis (Mtb). Segundo estimativas da Organização Mundial de Saúde (OMS), 8,8 milhões de pessoas estavam infectadas pelo Mtb e ocorreram 1,4 milhão de óbitos por tuberculose (TB) em 2010. A identificação de pessoas com Infecção Latente Tuberculosa (ILTB) é considerada pela OMS como uma prioridade no controle da doença, especialmente em países em desenvolvimento em que a incidência da doença ativa tem apresentado redução. O objetivo do presente trabalho foi avaliar, no Brasil, o custo-efetividade dos testes Prova Tuberculínica (PT) e Quantiferon TB Gold-In-Tube (QTF-GIT) no diagnóstico e tratamento da ILTB em profissionais de saúde atuantes na atenção básica, sob a perspectiva do Sistema Único de Saúde (SUS), comparando cinco estratégias que incluem o QTF-GIT, distintos pontos de corte para a PT e uso sequencial dos dois testes; e analisar o impacto do tabagismo sobre o risco de ILTB entre os profissionais de saúde, destacando-se a categoria da Enfermagem. Foi realizada uma avaliação econômica completa do tipo custo-efetividade, conduzida considerando uma coorte hipotética de 10.000 profissionais de saúde atuantes na atenção básica, com horizonte temporal restrito a um ano. Um modelo analítico de decisão, caracterizado por uma árvore de probabilidades de eventos, foi desenvolvido utilizando o software TreeAge ProTM 2013 para simular os resultados clínicos e impactos econômicos em saúde da nova tecnologia diagnóstica (QTF-GIT) versus a PT tradicional. Esse modelo simulou cinco estratégias diagnósticas para detecção e tratamento da ILTB: (a) PT, usando ponto de corte de 5mm; (b) PT, usando ponto de corte de 10 mm; (c) teste QTF-GIT; (d) PT, com ponto de corte de 5mm, seguida de teste QTF-GIT quando PT positiva; (e) PT, com ponto de corte de 10mm, seguida de teste QTF-GIT quando PT positiva. Foi realizada análise de sensibilidade determinística univariada. Na determinação dos fatores associados à ILTB, foi elaborado um modelo de regressão logística múltipla com seleção hierarquizada, utilizando o software Stata. A estratégia mais custo-efetiva foi a PT no ponto de corte ≥10mm, considerando como medida de desfecho tanto o número de indivíduos corretamente classificados pelos testes assim como o número de casos de TB evitados. A utilização isolada do QTF-GIT revelou-se a estratégia de menor eficiência, com RCEI= R$ 343,24 por profissional corretamente classificado pelo teste. Encontrou-se risco à ILTB significantemente maior para sexo masculino [OR=1,89; IC 95%:1,11-3,20], idade ≥ 41 anos [OR=1,56; IC 95%: 1.09-2,22], contato próximo com familiar com TB [OR=1,55; IC 95%: 1.02-2,36], status do tabagismo fumante [OR=1,75; IC 95%: 1.03-2,98] e categoria profissional da Enfermagem [OR=1,44; IC 95%: 1.02-2,03]. Concluiu-se que a PT no ponto de corte de 10mm é a estratégia diagnóstica mais custo-efetiva para ILTB entre os profissionais de saúde na atenção básica e que a ILTB está associada ao hábito do tabagismo e à categoria profissional de Enfermagem. / Health professionals form one of the groups most vulnerable to infection by Mycobacterium tuberculosis (Mtb). According to estimates by the World Health Organization (WHO), 8.8 million people were infected with Mtb and were 1.4 million deaths from TB in 2010. The identification of persons with Latent Tuberculosis Infection (LTBI) is considered by WHO as a priority in the control of disease, especially in developing countries where the incidence of active disease has shown reduction. The aim of this study was to evaluate, in Brazil, the cost-effectiveness of tests Tuberculin Skin Test (TST) and Quantiferon TB Gold-In-Tube (QFT-GIT) in the diagnosis and treatment of LTBI in health professionals working in primary care from the perspective of SUS, comparing five strategies that include the QFT -GIT, different cutoff points for TST and sequential use of two tests; and analyze the impact of smoking on the risk of LTBI among health professionals, highlighting the category of Nursing. A full economic assessment of the type cost-effectiveness was performed, conducted considering a hypothetical cohort of 10,000 health professionals working in primary care, with limited time horizont of one year. A decision analytical model, characterized by a tree of probabilities of events, was developed using the TreeAge ProTM software 2013 (TreeAge Software Inc, Williamstown, MA, USA) to simulate the clinical and economic impacts on health of new diagnostic technology (QFT -GIT) versus the traditional TST. This model simulated five diagnostic strategies for detection and treatment of LTBI (a) TST, using a cut-off of 5 mm; (B) TST, using 10 mm cut-off currently recommended by the TNP; (C) QFT-GIT test; (D) TST, with a cut-off of 5 mm, followed by QFT-GIT test when positive TST; (E) TST, with a cut-off point of 10 mm, followed by QFT-GIT test when positive TST. Univariate deterministic sensitivity analysis was performed to assess the robustness of the results. In determining the factors associated with LTBI, a multiple logistic regression model with hierarchical selection was made, using the Stata software. TST strategy at the cut-off ≥ 10mm was the most cost-effective strategy, while the QFT-GIT alone was the most effective strategy, but showed higher cost. It was found to significantly greater risk for LTBI male [OR = 1.89; 95% CI: 1.11 to 3.20], age ≥ 41 years [OR = 1.56; 95% CI: 1.09-2,22], close contact with a family with TB [OR = 1.55; 95% CI: 1.02-2,36], the smoker smoking status [OR = 1.75; 95% CI: 1.03-2,98] and professional nursing category [OR = 1.44; 95% CI: 1.02-2,03]. It was concluded that TST in 10mm cut-off is the diagnostic strategy more cost-effective for LTBI among health professionals in primary care and that LTBI is associated with the smoke and professional category nurse.

Custo-efetividade

Prova tuberculínica

Quanti-FERON-TB Gold-In-Tube

Infecção latente tuberculosa

Profissionais de saúde

Tabagismo

Cost-effectiveness

Tuberculin skin test

QuantiFERON-TB Gold-In-Tube

Latent tuberculosis infection

Health care professionals

Smoke

EPIDEMIOLOGIA

Mycobacterium tuberculosis kinases as potential drug targets: production of recombinant kinases in E. coli for functional characterization and enzyme inhibition screening against the medicinal plant Pelargonium sidoides

Lukman, Vishani

01 1900

Tuberculosis (TB) is an infectious and fatal disease that ranks as the second leading killer worldwide. It is caused by Mycobacterium tuberculosis (Mtb) which is an obligate intracellular parasite that colonizes the alveolar macrophages of the immune system. The major health concern associated with TB is its co-infection with HIV and the development of strains with multi-drug resistance. The elimination of TB has been hindered due to the lack of understanding of the survival strategies used by this pathogen. Thus, research towards discovering new effective antibacterial drugs is necessary and a group of Mtb kinase enzymes were targeted in this study because these enzymes are crucial for metabolism, pathogenesis and, hence, the survival of Mtb. Kinases are a group of structurally distinct and diverse proteins that catalyze the transfer of the phosphate group from high energy donor molecules such as ATP (or GTP) to a substrate. The phosphorylation of proteins modifies the activity of specific proteins which is subsequently used to control complex cellular processes within Mtb. The starting point of this research targeted eight specific Mtb kinases namely; Nucleoside diphosphokinase, Homoserine kinase, Acetate kinase, Glycerol kinase, Thiamine monophosphate kinase, Ribokinase, Aspartokinase and Shikimate kinase. The aim of this project was to subclone the gene sequences for these eight recombinant Mtb kinases and express them in Escherichia coli, to purify the proteins and determine their activity. In the effort to find new lead compounds, the final stage of this study focused on the basic screening of the TB kinases against an extract prepared from Pelargonium sidoides, a medicinal plant, to identify any inhibitory effects. Although this traditional medicinal plant has been broadly researched and extensively used to treat TB, there is still a lack of understanding of this plant’s scientific curative effect. Various molecular and biochemical methods were used to achieve the aims of this project. The putative gene sequence was obtained from the annotated genome of H37Rv, deposited at NCBI as NC_000962.2. The genes encoding the kinases were successfully PCR-amplified from genomic DNA, cloned into an expression vector in-frame with a C- or N-terminal 6-histidine-tag and expressed in E. coli BL21 (DE3). The purification of the protein was complex, but various different methods and techniques were explored to obtain sufficient amounts of protein. The functional characterization of the kinases involved an HPLC enzyme assay that showed that the recombinant kinases were active. These enzymes were then screened against the potential inhibitory compounds in P. sidoides using enzyme assays to generate dose-response curves. This allowed an effective comparison not only of the Mtb kinases’ activity under normal conditions but also the kinases’ activity in the presence of a potential inhibitor. Overall, the inhibition of the enzymes required the presence of higher concentrations of the P. sidoides extract. However, the SK enzyme results presented a significantly higher inhibition and the lowest IC50 value, in comparison to the other kinases, which makes this kinase an attractive potential drug target against TB. In summation, cloning and purification of SK was successful, resulting in a concentration of 2030 μg/ml of purified enzyme and its activity analysis demonstrated enzyme functionality. This activity was reduced to zero in the presence of 1 x 102 mg/ml dilution of P. sidoides plant extract. This research conducted has extended the quality of information available in this field of study. These interesting results, proposing and identifying SK as a suitable potential target can be a starting point to significantly contribute and progress in this field of research, with the eventual goal of developing a drug to combat this fatal disease. / Life Sciences / M. Sc. (Life Sciences)

Tuberculosis

Mycobacterium tuberculosis

Kinases

Nucleoside diphosphokinase

Homoserine kinase

Acetate kinase

Glycerol kinase

Thiamine monophosphate kinase

Ribokinase

Aspartokinase

Shikimate kinase

Pelargonium sidoides

Cloning

E. coli expression

Protein purification

Functional characterization

Inhibitory screens

616.995

Tuberculosis -- Prevention

Mycobacterium tuberculosis

Mycobacterium tuberculosis -- Infection

Tuberculosis -- Microbiology

Medical sciences