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Differential gene expression associated with phenotypic virulence of mycobacterium tuberculosisLam, T. H., Jason., 林梓軒. January 2006 (has links)
published_or_final_version / abstract / Microbiology / Master / Master of Philosophy
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The study of virulence determinants of mycobacterium tuberculosisLam, T. H., Jason., 林梓軒. January 2011 (has links)
Persistence in human macrophages is central to the virulence of Mycobacterium
tuberculosis, which is the causative agent of tuberculosis. Although the
intracellular parasitism is apparent, molecular determinants of mycobacterial
virulence are not well understood.
The current investigation identified virulent genes of M. tuberculosis by
measuring survivability of Mycobacterium smegmatis recombinants inside a
human monocytic cell line THP-1 after acquiring various virulent gene candidates
of M. tuberculosis. These gene candidates included nine virulent gene
candidates suggested by other studies, five genomic polymorphisms identified in
hypervirulent strains of M. tuberculosis using microarray-based comparative
genomic hybridization, and ten single nucleotide polymorphisms identified in the
hypervirulent strains using full genome sequencing. Interestingly, only
recombinants harboring a truncated Rv2820c and a known virulent gene mce1A
survived significantly better than vector control after six hours of ex vivo
infection.
As nucleotide sequencing indicated that the truncated Rv2820c loses around 60%
of gene at 3’ end, ex vivo survivability of M. smegmatis recombinants harboring
the last 60% of Rv2820c as well as the intact Rv2820c was measured, but was
similar to that of vector control. The 3’ truncated portion itself did not alter
mycobacterial survivability ex vivo, but its presence did compromise the survival
advantage gained due to the truncated Rv2820c.
To determine whether the truncated and the intact Rv2820c could enhance
mycobacterial virulence in vivo, these two alleles were transformed into
Mycobacterium marinum and their recombinants were used to infect zebrafish.
In vivo infection showed that zebrafish infected with the recombinant harboring
truncated Rv2820c died significantly faster than vector control, whereas the
recombinant harboring intact Rv2820c behaved similarly to vector control.
Results indicated that the truncated Rv2820c, but not the intact Rv2820c, could
enhance mycobacterial virulence both ex vivo and in vivo.
Additional nucleotide sequencing revealed that the 3’ truncation in Rv2820c is
caused by a Beijing/W-defining deletion RD207 and is commonly found in
Beijing/W strains of M. tuberculosis. Non-Beijing/W strains possess the intact
Rv2820c conversely. Since Beijing/W strains have proven to be more virulent
than non-Beijing/W strains both ex vivo and in vivo, the truncated Rv2820c may
be one of the Beijing/W-specific virulence determinants.
To confirm that Rv2820c of Beijing/W strains really enhances M. tuberculosis
survival in human macrophages, the truncated Rv2820c was transformed into
non-Beijing/W M. tuberculosis strains and their recombinants were used to infect
THP-1 cells. Ex vivo infection confirmed that the truncated Rv2820c could
enhance M. tuberculosis survival inside human macrophages, but is unlikely to
induce a different profile of cytokine secretion from infected macrophages.
In conclusion, the current study demonstrated that the truncated Rv2820c of
Beijing/W strains could enhance mycobacterial virulence both ex vivo and in vivo.
Enhanced phenotypic virulence, however, was not observed for the intact
Rv2820c of non-Beijing/W strains. The truncated Rv2820c may be one of the
Beijing/W-specific virulence determinants and collaboratively contribute to the
high phenotypic virulence of this family. / published_or_final_version / Microbiology / Doctoral / Doctor of Philosophy
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The modulating properties of mycobacterial mycolic acids on murine macrophage functionKorf, Johanna Elizabeth 07 October 2005 (has links)
The pathogenicity of mycobacteria is directly related to their ability to survIve within macrophages, thereby circumventing host defense responses. This ability to resist degradation in macrophage phagosomes/lysosomes derives in large part from the complex structure of the cell wall of Mycobacterium tuberculosis. Surface exposure of lipid and glycolipid components of the mycobacterial cell wall is considered to be a major factor in the virulence of the pathogen by orchestrating the dialogue with host cells. Their interactions and modulating properties on host macrophage functions may contribute to our understanding of the pathogenesis of tuberculosis. In this study the modulating properties on macrophage functions by the major mycobacterial cell wall lipids, mycolic acids, were investigated. The investigation focused not only on the physical changes induced in macrophages as a result of the interaction with mycolic acids but also on the modulation of macrophage functions involved in innate and adaptive immunity. It was concluded that MA was involved both in mechanisms of pathogenesis of M tuberculosis, as in induction of protective immunity. By opening up some of the secrets of pathogenesis and immunity of tuberculosis, it provided new avenues for research to pursue a timeous and efficient solution to the disease. / Dissertation (MSc (Biochemistry))--University of Pretoria, 2005. / Biochemistry / unrestricted
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Pneumocystis jiroveci and respiratorey bacterial pathogens in cases of pneumonia at hospitals in Port ElizabethDu Plessis, Sarah Jane January 2008 (has links)
Pneumocystis jiroveci, Mycoplasma pneumoniae and Mycobacterium tuberculosis are respiratory pathogens associated with pneumonia, with increasing prevalence of Pneumocystis pneumonia (PcP) and tuberculosis (TB) in AIDS patients. Increased resistance of M. tuberculosis has emphasized the need for rapid susceptibility testing, such as flow cytometry. Sputum specimens (102) were assessed by PCR employing primers directed at the following genes: P. jiroveci: mitochondrial large subunit ribosomal RNA (mtLSUrRNA), dihydropteroate synthase (DHPS) and dihydrofolate reductase (DHFR), and for M. pneumoniae: 16S rRNA and P1 adhesin. Positive P. jiroveci samples were genotyped by PCR-SSCP (single-strand conformation polymorphism) targeting the: internal transcribed spacer region (ITS), intron of the nuclear 26S rRNA gene (26S), variable region of the mitochondrial 26S rRNA gene (mt26S) and β-tubulin gene (β-tub). Multi-drug resistant (MDR-TB) cultures grown in the presence and absence of four antibiotics (rifampicin, isoniazid, ethambutol and ofloxacin) were heat killed, stained with SYTO16 and Propidium Iodide and analysed using flow cytometry. Rifampicin resistance gene mutations were screened by PCR and DNA sequencing. Details of patient’s gender, age, HIV and M. tuberculosis status were provided by the hospitals. Women were seen to be at high risk for community-acquired P. jiroveci colonisation. Overall, prevalence of P. jiroveci was 55.1 percent (54/102 patients). P. jiroveci was mainly associated with HIV (25/102 P. jiroveci positive patients for which clinical data was available) and co-colonisation with M. tuberculosis was observed in 11 cases. Sequence analysis of DHPS and DHFR products found no resistance associated mutations. M. pneumoniae was detected in one patient. Four simple SSCP patterns were identified and there were no co-infections with other P. jiroveci strains. Nine M. tuberculosis samples [8 MDR-TB isolates (NHLS) and M. tuberculosis ATCC® 27294TM] were tested. There was a 53 percent (19 out of 36 tests) agreement of flow cytometry with the BACTEC MGIT 960. Mutations (at two specific codons, namely 516 and 531) in the rifampicin resistance-determining region (RRDR) of the rpoB gene were observed in eight M. tuberculosis isolates. Evaluation of methods for genotyping and drug susceptibility testing of PcP and TB are imperative for epidemiology and drug resistance studies, and impact on treatment protocols.
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Impact of exogenous reinfection on TB infection in a genetically susceptible population.Mwangi, Wangari Isaac. 17 December 2013 (has links)
In this study we investigated the impact of exogenous reinfection on genetically resistant and genetically sensitive sub populations. We qualitatively analysed the dynamics of TB by assuming that TB is transmitted in two ways namely homogeneous and heterogeneous modes of transmission. Analytically, we computed the fundamental thresholds used to measure disease persistence; the basic reproduction number R₀; and found that the exogenous reinfection parameters do not appear in the basic reproduction number. Hence, basic reproduction number derived in presence of exogenous reinfection does not adequately predict the course of a TB epidemic. We obtained the exogenous reinfection threshold which indicated that exogenous reinfection complicates TB dynamics. Both analytical and simulation results disclosed that when exogenous reinfection is above exogenous reinfection threshold TB dynamics were governed by
a backward bifurcation implying TB may continue to invade the population despite basic reproduction number being less than one. We computed critical value of basic reproduction numbers Rᴄ and found that TB can only be eradicated if basic reproduction number is reduced below critical value Rc. Furthermore, we incorporated TB therapy in heterogeneous model among individuals with clinically active TB and performed sensitivity and uncertainty analysis using Latin Hypercube Sampling. The sensitivity and uncertainty results showed that transmission rates, reactivation rates and proportion that is genetically resistant greatly infuenced outcome
variables of our TB model. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2013.
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A pharmacokinetic study of rifabutin and its interaction with antiretrovirals in African patients with TB-HIV co-infection.Naiker, Suhashni. 23 October 2013 (has links)
The management of HIV-associated tuberculosis (TB) is complicated by the
pharmacokinetic interactions between rifampicin (RMP) and co-administered
protease inhibitors (PIs) and non-nucleoside reverse transcriptase inhibitors.
Rifabutin (RBT) is an alternative rifamycin, preferred in patients requiring PIs.
Recent studies suggest the current recommended dose of RBT in
combination with boosted lopinavir (LPV/r) is suboptimal and there are
insufficient pharmacokinetic data evaluating the interaction between RBT coadministered
with efavirenz (EFV) and nevirapine (NVP). Pharmacogenomic
studies have shown that RMP concentrations are lower in patients from sub-Saharan Africa with polymorphisms of the SLCO1B1gene but there is
currently no data on the pharmacogenetic determinants of RBT exposure.
The pharmacokinetics of RBT were evaluated at two different doses in HIV
co-infected patients before and after the introduction of LPV/r, EFV and NVPbased antiretroviral therapy (ART). After six weeks of standard TB therapy, RBT 300 mg daily was started for four weeks. Thereafter patients were randomized to receive either RBT 150 mg daily or RBT 150 mg three times a week (TPW) with LPV/r, RBT 300mg or 450mg with NVP or RBT- 450mg or 600mg with efavirenz. After four weeks on the first RBT dose, patients switched to the alternate dose and continued until the end of TB treatment. Serial RBT and 25-O-desacetylrifabutin (dRBT) concentrations were measured during a dose interval before patients switched RBT doses.
The median AUC0-24 and Cmax, of RBT in patients taking 150mg RBT TPW
was significantly reduced when compared to the other treatment arms. 86% of patients whilst on this intermittent RBT arm had an AUC0-24 < 4.5 μg.h/mL, level that has been associated with acquired rifamycin resistance. Rifabutin exposure was maintained within the range of AUCs that have been shown to
prevent acquired rifamycin resistance (ARR) with 150mg daily dosing in
combination with LPV/r. In addition, the combination of RBT with NVP 300mg
resulted in significantly increased exposure of RBT, with significantly higher
exposure observed with 600mg RBT. However, the combination of RBT
450mg with EFV resulted in RBT exposure lower than 300mg RBT given
alone in the same patients, whereas RBT 600mg plus NVP results in
bioavailability of RBT equivalent to 300mg given alone.
Rifabutin was well tolerated at all doses. Only three grade 4 laboratory
toxicities, elevated transaminases, neutropenia, and uveitis, possibly related
to RBT were reported in patients taking NVP. SLCO1B1 rs4149032 C>T
polymorphism occurs frequently in African patients in Durban and may be
associated with low RBT bioavailability. These findings support
recommendations for the higher dose of RBT in combination with LPV and
EFV but not with NVP. / Thesis (Ph.D.)-University of KwaZulu-Natal, Durban, 2012.
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The measurement of genetic diversity in mycobacterium tuberculosis using random amplified polymorphic DNA profilingRichner, Sharon M January 2000 (has links)
Mycobacterium tuberculosis has caused a resurgence in pulmonary disease in both developed and developing countries in recent times, particularly amongst people infected with the human immunodeficiency virus. The disease has assumed epidemic proportions in South Africa and in the Eastern Cape Province in particular. Of further concern is the isolation of increasing numbers of multiply drug resistant strains. Knowledge of the genetic capability of this organism is essential for the successful development of novel antibiotics and vaccines in an attempt to bring the global pandemic under control. Measurement of the genetic diversity of the organism may significantly contribute to such knowledge, and is of vital importance in monitoring epidemics and in improving treatment and control of the disease. This will entail answering a number of questions related to the degree of genetic diversity amongst strains, to the difference between urban and rural strains, and between drug resistant and drug sensitive strains, and to the geographical distribution of strains. In order to establish such baseline information, RAPD profiling of a large population of isolates from the western and central regions of the Eastern Cape Province was undertaken. A smaller number of drug resistant strains from a small area of KwaZulu-Natal were also analysed, with a view to establishing the genetic difference between strains from the two provinces. Cluster analysis, analysis of molecular variance and Geographical Information Systems technology were used to analyse the RAPD profiles generated. An unexpectedly high degree of genetic diversity was detected in strains from both provinces. While no correlation was seen between genetic diversity and either urban-rural situation or geographical location, a small degree of population structure could be correlated with drug resistance in the Eastern Cape. Furthermore, a significant degree of population structure was detected between strains from the two provinces, although this was still within the parameters for conspecific populations. Future work is necessary to further characterise strains from rural areas of both provinces, as well as from the eastern region of the Eastern Cape in an attempt to pinpoint the cause of the separation of the provincial populations.
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Etude des mécanismes favorisant la dispersion et la survie intracellulaire de Mycobacterium tuberculosis / Study of the mechanisms stimulating Mycobacterium tuberculosis propagation and intracellular survivalVanzembergh, Frédéric 17 July 2011 (has links)
A ce jour, l’Organisation Mondiale de la Santé estime qu’un tiers de la population mondiale est infectée par Mycobacterium tuberculosis (Mtb), l’agent étiologique de la tuberculose. De par un taux de mortalité et de morbidité élevé, cette maladie infectieuse constitue un véritable fléau sanitaire au niveau mondial. <p>Mtb est un pathogène intracellulaire qui infecte son hôte par voie aérienne. In vivo, il doit faire face à une série d’environnements (phagosome, granulome) stressants de par leurs activités antimicrobiennes et par leur composition en nutriments relativement pauvre. Pour pouvoir survivre et se multiplier dans ces conditions, Mtb possède un panel de transporteurs spécifiques ainsi que toute une série de mécanismes pour contrer, voire détourner les défenses immunitaires de l’hôte. Malgré cette oppostion, les mycobactéries finissent séquestrées à l’intérieur de granulomes, structure caractéristique de la tuberculose, dans un état de dormance. La mise au point de nouveaux traitements prophylactiques et thérapeutiques nécessite la compréhension des mécanismes mis en œuvre par Mtb pour survivre et se multiplier au sein de son hôte.<p><p>Le présent travail a consisté en l’étude de mécanismes favorisant la dispersion et la survie intracellulaire de Mtb chez son hôte via: <p>1)\ / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished
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Role of regulatory T cells in the pathogenesis of human tuberculosis / Rôle des lymphocytes T régulateurs dans la pathogenèse de la tuberculose chez l'hommeHougardy, Jean-Michel 14 May 2008 (has links)
Globalement, un tiers de la population mondiale est infectée par Mycobacterium tuberculosis, l'agent infectieux de la tuberculose (TB). Fort heureusement, seuls 5 à 10 % des individus infectés développent un jour une TB active. Les individus non malades restent cependant infectés à vie, on parle d'infection latente. Chaque année, 8-10 millions nouveaux cas de tuberculose active sont recensés et M. tuberculosis est responsable de 1,5 à 2 millions de décès. Depuis plus d'une décennie, M. tuberculosis s'est étroitement associé à l'infection par le virus de l'immunodéficience humaine. Cette alliance néfaste représente une importante menace pour les pays en voie de développement, car ces 2 pathogènes déciment les forces vives de ces populations. Il faut malheureusement rajouter à ce triste tableau une fréquence grandissante de souches multi-résistantes, voire extensivement multi-résistantes. Face à ces souches, les avancées thérapeutiques du siècle dernier sont pratiquement réduites à néant. <p>Considérant ces données, il est désormais crucial d'améliorer nos outils de dépistage de l'infection latente, de diagnostic de la maladie active, de prévention (vaccins) et de traitement. Pour atteindre ces objectifs, une des pistes est la caractérisation détaillée des réponses immunitaires. En comparant les réponses immunitaires des sujets infectés de manière latente à celles liées à la maladie active, nous pourrons peut-être comprendre certains mécanismes de protection. L'étude des réponses immunitaires induites par la « Heparin-Binding-Hemagglutinin » (HBHA) s'est faite dans cet objectif. La HBHA est une adhésine exprimée par le complexe M. tuberculosis. Elle est impliquée dans la dissémination extrapulmonaire du bacille et constitue donc un facteur de virulence. Par ailleurs, une vaccination de souris par seulement 3 doses de 5 µg de HBHA suffit à protéger de l'infection avec une efficacité comparable à celle du vaccin BCG. Chez l'homme, les sujets sains mais infectés développent d'importantes sécrétions d'interféron-gamma (IFN-γ) en réponse à cet antigène, alors que la majorité des patients tuberculeux ne le font pas. Cette différence est importante pour comprendre une des raisons d'échappement de M. tuberculosis au contrôle immunitaire. La HBHA est une protéine méthylée et la méthylation s’avère essentielle pour ses propriétés immunoprotectrices. <p>Nos travaux présentés ici se sont axés sur deux éléments de la réponse immunitaire à la HBHA chez l'homme :d'une part, l'exploitation de la réponse périphérique d'IFN-γ à la HBHA comme outil de dépistage de l'infection latente et, d'autre part, l'étude des raisons de la faible sécrétion d'IFN-γ spécifique de la HBHA lors de la maladie active.<p> <p>L'évaluation de la sécrétion périphérique d'IFN-γ en réponse à la HBHA a permis de démontrer rétrospectivement que celle-ci permet de détecter plus de 90 % des sujets réagissant positivement à l'injection intradermique de tuberculine. De manière intéressante, l'utilisation d'un test commercial, le QuantiFERON TB Gold IT (QFT-IT) n'a permis de détecter que la moitié des sujets infectés sains. De notre point de vue, le QFT-IT ne peut être recommandé seul pour le dépistage systématique de l'infection latente par M. tuberculosis. De manière parallèle, un test de stimulation basé uniquement sur la sécrétion d’IFN-γ suite à une stimulation à l'ESAT-6, composant du QFT-IT, n'a pas permis d'augmenter la sensibilité, ni d'ajouter une plus-value au test basé sur la HBHA. A l'instar de l'intradermoréaction à la tuberculine, le dépistage de la maladie active reste décevant que ce soit par l'utilisation de la HBHA ou de l'ESAT-6.<p>La TB active est caractérisée par une basse sécrétion périphérique d'IFN-γ en réponse à la stimulation par la HBHA. Cette faible sécrétion est cependant réversible, puisque un traitement efficace permet d'atteindre des taux d'IFN-γ significativement plus élevés. Ceci nous démontre qu'il s'agit d'une suppression associée à la phase active de l'infection. Nous avons d'abord évalué l'importance de la modulation de la sécrétion d'IFN-γ en réponse à la HBHA par 2 cytokines immunomodulatrices, l'interleukine-10 (IL-10) et le Transforming-Growth-Factor-Beta (TGF-ß). De manière intéressante, alors que ces 2 cytokines sont associées à l'infection par M. tuberculosis, la HBHA n'est inductrice ni d'IL-10, ni de TGF-ß. Les lymphocytes T régulateurs (Treg) expriment 2 marqueurs d'intérêt :le CD25, composant du récepteur à l'IL-2, et Foxp3, un gène régulateur majeur des cellules Treg. Ces cellules sont décrites comme suppressives de réponses immunitaires déclenchées par des antigènes du Soi et du non-Soi. Nous avons montré que la proportion de lymphocytes Treg périphériques est augmentée en cas de TB active. Par ailleurs, nous avons également démontré que ces cellules suppriment la sécrétion d'IFN-γ et la prolifération induite par la HBHA après stimulation des cellules mononucléées sanguines périphériques de patients tuberculeux in vitro. Cependant, la réponse anti-HBHA des patients tuberculeux, qui est démasquée par la déplétion des lymphocytes Treg, n'est pas dirigée contre des épitopes protecteurs. En effet, la méthylation n'influence pas leur sécrétion d'IFN-γ. De ce point de vue, les lymphocytes Treg sont impliqués dans la maladie tuberculeuse et influencent négativement les réponses dirigées contre un antigène protecteur. Cependant, il semble que la TB active soit également associée à une ignorance d'épitopes protecteurs.<p>Enfin, nous avons également démontré qu'il était possible d'induire des lymphocytes Treg au départ de cellules sanguines périphériques de sujets infectés sains. En effet, la stimulation in vitro des cellules sanguines périphériques en présence de BCG et de TGF-ß est un moyen rapide pour induire l'apparition de lymphocytes Treg fonctionnels in vitro. Ceci nous interroge quant aux rôles des lymphocytes Treg dans la pathogenèse de la maladie. En effet, un excès de TGF-ß circulant est observé dans certaines conditions cliniques à haut-risque de TB post-primaire. De ce point de vue, les lymphocytes Treg pourraient être des acteurs déterminant dans la perte du contrôle à long terme de l'infection et, par là, pourraient être des cibles thérapeutiques d'intérêts lors de l'infection par M. tuberculosis. /Mycobacterium tuberculosis is the causative agent of tuberculosis (TB). It is estimated approximately one third of the World’s population is infected with M. tuberculosis. Fortunately, only 5 to 10 % of the infected individuals will develop the disease throughout their life. However, the other healthy infected individuals remain infected for life: this is the latent TB infection (LTBI). Every year, 8 to 10 million new cases of TB are recorded globally, and about 2 to 3 million of people die from the disease. During the last several decades the co-infection of M. tuberculosis and the human immunodeficiency virus have worsened the picture. This dreadful association currently affects mostly the poorest people of the World. Unfortunately, bad news never stands alone. We now witness increasing emergence of multi-drug-resistant and even of extensively-multi-drug-resistant M. tuberculosis strains. Against these strains current therapeutics are virtually useless. <p>The development of new tools for prevention (vaccines), diagnostics and treatment is crucial. In order to fulfill these objectives, detailed studies on the immune responses is one of the main tracks to explore. Indeed, the comparison of immune responses in LTBI subjects with those in TB patients may provide some clues to understand immune mechanisms of protection. Studies of the immune responses that are specific to Heparin-Binding-Hemagglutinin (HBHA) may be one of these clues. HBHA is an adhesin, which is expressed by the micro-organisms of the M. tuberculosis complex. It largely contributes to the extrapulmonary dissemination of the tubercle bacilli. Hence, HBHA may be qualified as an important virulence factor. Furthermore, vaccination of mice with three doses of only 5 µg HBHA each affords the same level of protection as vaccination with BCG. In humans, peripheral blood mononuclear cells (PBMC) from LTBI subjects secrete significant levels of IFN-γ in response to HBHA, whereas PBMC from TB patients do not. This discrepancy may be a cornerstone in the understanding of some of the mechanisms underlying the immune escape mediated by M. tuberculosis. HBHA is a methylated protein, and the methylation is crucial for its immuno-protective properties. <p>This work focused on 2 major issues of the HBHA-specific immune response in humans: the use of the peripheral IFN-γ secretion in response to HBHA as a diagnostic tool for LTBI and the analysis of the underlying mechanisms to the low IFN-γ secretion during active TB.<p> <p>In our study, the measurement of HBHA-specific IFN-γ secretion resulted in the detection of more than 90 % of the tuberculin-skin-test (TST) positive LTBI. Strikingly, the QuantiFERON TB Gold IT (QFT-IT), a commercial test, failed to identify those LTBI subjects in more than 50 % of the cases. Therefore, we cannot recommend the use of QFT-IT alone instead of the TST for the detection of LTBI. Similarly, a test relying on the detection of IFN-γ secretion upon ESAT-6 stimulation, one of the antigens used in the QFT-IT, was not sufficiently sensitive for the LTBI detection, nor did it improve the sensitivity or the specificity of the HBHA-based test. In contrast to the diagnosis of LTBI, the tests based on HBHA- or ESAT-6-induced IFN-γ secretions displayed poor sensitivity for the diagnosis of active TB.<p>During active TB, the HBHA-specific IFN-γ secretion in the periphery is low. However, this weak secretion is reversible upon effective treatment, as the IFN-γ response to HBHA is increased after completion of chemotherapy. This is strongly suggestive of an immune suppression during active disease. Therefore, we have first evaluated the role of two immunomodulatory cytokines, interleukin-10 (IL-10) and Transforming-Growth-Factor-Beta (TGF-ß), in the suppression of the HBHA-specific IFN-γ secretion. We found that neutralization of neither IL-10 nor TGF-ß with specific antibodies induced HBHA-specific IFN-γ secretion by PBMC of TB patients in vitro. In contrast, depletion of regulatory T cells (Treg) that express 2 major markers, CD25, a constituent of the IL-2 receptor, and Foxp3, a master regulatory gene, resulted in increased HBHA-specific IFN-γ secretion by the PBMC of TB patients. These cells are known to be involved in the suppression of immune responses to both Self and non-Self antigens. We further show that the size of the peripheral Treg cell population increases during active disease. In addition to suppressing the HBHA-specific IFN-γ secretion these cells suppress T cell proliferation in response to HBHA in vitro. However, even after depletion of the Treg cells, the uncovered HBHA-specific immune responses are not directed to the methylated epitopes during TB disease. <p>Finally, we show that Treg cells can be induced (or expanded) from the PBMC of LTBI subjects. Stimulation of those PBMC with BCG in the presence of TGF-ß resulted in a quick appearance of functional Treg cells in vitro. This observation strongly suggests a role of Treg cells in the pathogenesis of TB, in particular in the progression of latency to reactivation. Interestingly, excessive concentration of TGF-ß, associated with various clinical conditions, is high risk factor for post-primary TB. Thus, Treg cells may result in the loss of immune control against latent M. tuberculosis infection. Therefore, Treg cells may represent potential therapeutic targets during M. tuberculosis infection. / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished
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Lip Y, The PE Family Triacylglycerol Hydrolase From Mycobacterium Tuberculosis : Functional Role Of The PE Domain And ImmunogenicityMishra, Kanhu Charan 03 1900 (has links)
More human lives have been lost to tuberculosis than to any other disease and despite the availability of effective short course chemotherapy (DOTS) as well as the Bacilli Calmette Guerin (BCG) vaccine, tuberculosis continues to claim more than a million lives annually. Mycobacterium tuberculosis (M. tuberculosis), the causative agent of tuberculosis, is one of the most successful and scientifically challenging pathogens of all time. However in the last two decades, the ability to perform molecular genetic analysis of M. tuberculosis has resulted in powerful new research tools, while the availability of the complete genome sequence has provided us with a wealth of new information and understanding of the biology of this major pathogen. One of the major challenges, however, is to analyze the properties and functions of those genes that are unique to M. tuberculosis genome. The identification and characterization of such genes which impart various survival strategies employed by M. tuberculosis for successful infection will be of particular significance.
One of the important outcomes from the complete genome sequence of M. tuberculosis is the discovery of two multigene families designated PE (99 members) and PPE (69 members) named respectively for the Pro-Glu (PE) and Pro-Pro-Glu (PPE) motifs near the N-terminus of their gene products. In addition to these motifs, proteins of the PE family possess highly homologous N-terminal domains of approximately 100 amino acids (PE domain), whereas the PPE proteins possess a highly homologous N-terminal domain of about 180 amino acids (PPE domain). Although the PE and PPE families of mycobacterial proteins are the focus of intense research, no precise function has so far been unraveled for any member of these families. The current study focuses on Rv3097c gene of M. tuberculosis, a PE family gene that was bioinformatically predicted to be a triacylglycerol hydrolase (lipase). In order to decipher the role of the PE domain, we have carried out functional characterization of the Rv3097c gene (also named lipY) as it was, initially, the only known PE protein for which an enzymatic function (i.e. lipase activity) had been predicted. Further, to understand the function of PE family proteins, an important question that needs to be answered is; whether the PE domain of different PE family proteins has similar or different functions? In this context, our studies were focused on studying the functional role of the PE domain in LipY, as outlined below.
In general, the in vivo function and subcellular localization of any protein are integrally connected. PE domain has been reported to be essential for cell wall localization of PE_PGRS33, another PE family protein. Therefore we investigated the subcellular localization of LipY and the influence of the PE domain on subcellular localization of LipY. LipY and a truncated form of LipY lacking the PE domain [LipY(ΔPE)] were expressed in mycobacteria(M. smegmatis and M. bovis BCG). Subcellular fractionation and western blot demonstrated that both LipY and LipY(ΔPE) were predominantly detected in the cell wall fraction, indicating that LipY is localized to the cell wall and the PE domain of LipY was not required for translocation of LipY to cell wall. This result is in contrast to the findings for PE_PGRS33, where the absence of the PE domain caused the cell wall associated protein to localize to the cytosol. Furthermore, immuno-electron microscopy of M. bovis BCG expressing LipY(ΔPE) clearly showed a cell surface localization of LipY(ΔPE). These results signify that the function of the PE domain might not always be similar amongst different PE family proteins.
In order to further investigate the role of the PE domain in LipY, we studied the lipase activity of LipY and the influence of the PE domain on lipase activity. Bioinformatic analysis confirmed the presence of a lipase domain containing a GDSAG active site motif characteristic of lipases. Overexpression of LipY in mycobacteria (M. smegmatis and M. bovis BCG) resulted in a significant reduction in the pool of triacylglycerols (TAG), consistent with the lipase activity of this enzyme. Interestingly, this reduction was more pronounced in mycobacteria overexpressing LipY(ΔPE), suggesting that the presence of the PE domain diminishes the lipase activity of LipY. In vitro lipase assays also confirmed LipY(ΔPE) as a more efficient lipase compared to the wild-type LipY. Together these results suggest that the PE domain of LipY might be involved in the modulation of lipase activity. Surprisingly, M. marinum, another pathogenic mycobacteria, possesses a protein homologous to LipY, termed LipYmar, in which the PE domain is substituted by a PPE domain. The overexpression of LipYmar in M. smegmatis significantly reduced the TAG pool suggesting that it is a triacylglycerol hydrolase/lipase. Interestingly, similar to the removal of the PE domain of LipY, this reduction in the TAG pool was further pronounced when the PPE domain of LipYmar was removed. This suggests that PE and PPE domains might share similar functional roles in modulating the enzymatic activities of these lipase homologs.
In order to assess the in vivo relevance of LipY expression during M. tuberculosis infection, we examined the humoral immune responses against LipY in sera derived from various clinical categories of tuberculosis patients. The presence of specific antibodies against any protein is suggestive of expression of the protein during infection and could potentially be used to differentiate between healthy individuals and infected patients (serodiagnosis of tuberculosis). The cell wall localization suggested that LipY may be accessible for interaction with the host immune system during infection. Moreover, humoral responses were observed against LipY in mice immunized with DNA constructs expressing LipY, indicating that LipY could be an effective B-cell antigen. Accordingly, a strong humoral response against LipY and LipY(ΔPE) was observed in tuberculosis patients compared to healthy individuals, suggesting that LipY is expressed during infection by clinical strains of M. tuberculosis and might represent an immunodominant antigen of M. tuberculosis with potential use in serodiagnosis of tuberculosis.
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