Mycobacterium smegmatis recombinante expressando a proteína CMX induz resposta imune contra Mycobacterium tuberculosis em camundongos BALB/c / Recombinant Mycobacterium smegmatis expressing CMX pretein induces immune response against Mycobacterium tuberculosis in BALB/c mice

Oliveira, Fábio Muniz de

28 February 2014

Submitted by Jaqueline Silva (jtas29@gmail.com) on 2014-10-23T20:48:04Z No. of bitstreams: 2 Dissertação - Fábio Muniz de Oliveira - 2014.pdf: 12287155 bytes, checksum: 58eb4d1e227a17283f27cf610577402a (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Approved for entry into archive by Jaqueline Silva (jtas29@gmail.com) on 2014-10-23T20:49:02Z (GMT) No. of bitstreams: 2 Dissertação - Fábio Muniz de Oliveira - 2014.pdf: 12287155 bytes, checksum: 58eb4d1e227a17283f27cf610577402a (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Made available in DSpace on 2014-10-23T20:49:02Z (GMT). No. of bitstreams: 2 Dissertação - Fábio Muniz de Oliveira - 2014.pdf: 12287155 bytes, checksum: 58eb4d1e227a17283f27cf610577402a (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Previous issue date: 2014-02-28 / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / For hundreds years tuberculosis (TB), a contagious disease caused by Mycobacterium tuberculosis (Mtb), has been a global public health problem. Even after the development of the vaccine BCG, in 1921, tuberculosis control continues on slow pace. This comes to be as a result of the variable efficacy (from 0 to 80%) presented by the vaccine in the protection against TB in adults. Therefore, the development of a new vaccine against TB is necessary. In this study, it was evaluated a recombinant vaccine composed of Mycobacterium smegmatis expressing the CMX fusion protein (mc2- CMX), formed from three antigen epitopes of Mtb: Ag85C, MPT51 and HspX. M. smegmatis mc2 155 was transformed with pLA71-CMX by electroporation, and the presence of the CMX protein was confirmed by imuno blotting. BALB/c mice were distributed in four groups: saline, infection, BCG and mc2-CMX. The groups were immunized with their respective vaccines in two moments with an interval of fifteen days and the animal blood was collected fifteen days after the last immunization. Thirty days after the last immunization, the animals were challenged with Mtb H37Rv (intravenously) and thirty days after the challenge, the blood was collected to perform ELISA test. Seventy days after the challenge, the lungs from all mice were collected to obtain cells for flow-cytometry, histological analysis and also to determine the bacillary burden. The immunization with mc2-CMX induced higher levels of antibodies of IgG1 (1,910±0,70) and IgG2a (0,139±0,020) class anti-CMX when compared with BCG group (0,646±0,19 and 0,413±0,24; respectively, p<0,05). These results demonstrated the relevance of CMX antigen in the immunogenicity of the recombinant vaccine. Seventy days after the challenge, the amount of T CD4 cells in the lung producing Th1- type cytokines was assessed. It was observed a significant increase in the percentage of T CD4 cells positive for IFN-γ and TNF-α in the immunized mice with mc2-CMX vaccine, when compared with the group immunized with BCG. Mice challenged with Mtb presented significant higher percentage of IL-2 producer cells when compared with the non-immunized group. However, only the mice immunized with the vaccine mc2- CMX presented significant higher percentage when compared with the infection group. The immune response induced by the vaccine was effective in the control of Mtb infection, confirmed by the histological analysis and the bacillar burden determined. The groups vaccinated with mc2-CMX and BCG presented a significant reduction of the lung lesion induced by the Mtb infection, and also lung bacterial load, when compared with the infection group. Thus, the recombinant vaccine mc2-CMX presents potential characteristics to be used in the prevention of TB. / Há séculos a tuberculose (TB), doença infectocontagiosa causada por Mycobacterium tuberculosis (Mtb), vem sendo um problema de saúde pública mundial. Mesmo após o surgimento da vacina BCG em 1921, o controle da tuberculose continua a passos lentos. Isso se deve à eficácia variável de 0 a 80% apresentada pela vacina na proteção contra TB em indivíduos adultos. Deste modo, o desenvolvimento de uma nova vacina contra a TB é necessário. Neste estudo, avaliou-se uma vacina recombinante composta por Mycobacterium smegmatis expressando a proteína de fusão CMX (mc2-CMX), formada por três antígenos do Mtb: Ag85C, MPT51 e HspX. M. smegmatis mc2 155 foi transformado com pLA71-CMX por eletroporação, sendo a expressão da proteína CMX confirmada por imunoblot. Camundongos BALB/c foram distribuídos em quatro grupos: salina, infecção, BCG e mc2-CMX. Os grupos foram imunizados com suas respectivas vacinas em dois momentos com intervalos de 15 dias, e o sangue de todos os animais coletado quinze dias após a última imunização. Trinta dias após a imunização, os animais foram desafiados com Mtb H37Rv (via endovenosa) e trinta dias após o desafio, o sangue foi coletado para realização de ELISA. Setenta dias após desafio, o pulmão e o baço de todos os camundongos foi coletado para obtenção de células para realização de citometria, histopatológico e determinação da carga bacilar. A imunização com o mc2-CMX induziu níveis maiores de anticorpos da classe IgG1 (1,910±0,70) e IgG2a (0,139±0,020) anti-CMX quando comparado com o grupo BCG (0,646±0,19 e 0,413±0,24, respectivamente, p<0,05). Estes resultados demonstram a relevância do antígeno CMX na imunogenicidade da vacina recombinante. Após setenta dias do desafio, a quantidade de células T CD4 produtoras de citocinas do tipo Th1 foi analisada no pulmão. Foi observado um aumento significativo na porcentagem de células T CD4 positivas para IFN-γ e TNF-α nos camundongos imunizados com vacina mc2-CMX, quando comparado com o grupo BCG. Camundongos desafiados com Mtb apresentaram porcentagens maiores de células produtoras de IL-2, quando comparado com o grupo não desafiado. Todavia, somente os camundongos imunizados com a vacina mc2-CMX apresentaram porcentagens significativamente maiores em comparação ao grupo infecção. A resposta imune observada foi efetiva no controle da infecção por Mtb, sendo isto confirmado quando os pulmões dos camundongos foram analisados histologicamente e a carga bacilar determinada. Os grupos vacinados com as vacinas mc2-CMX e BCG apresentaram uma redução significativa da lesão pulmonar induzida pela infecção por Mtb, e também da carga bacilar no pulmão, quando comparados com o grupo infecção. Conclui-se que mc2-CMX tem um bom potencial para ser explorado como vacina contra a TB.

Proteína CMX e BCG

Tuberculose

Mycobacterium tuberculosis

Mycobacterium smegmatis

CMX protein and BCG

Tuberculosis

Planejamento, síntese e avaliação farmacológica de novas antraquinonas, tetraidropirimidinas e N-acilidrazonas

Costa, Cristiane França da

04 November 2011

Submitted by Renata Lopes (renatasil82@gmail.com) on 2017-04-27T18:14:40Z No. of bitstreams: 1 cristianefrançadacosta.pdf: 11417348 bytes, checksum: 7d95d18b07033104e1eabd0a410f000c (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2017-05-13T13:03:30Z (GMT) No. of bitstreams: 1 cristianefrançadacosta.pdf: 11417348 bytes, checksum: 7d95d18b07033104e1eabd0a410f000c (MD5) / Made available in DSpace on 2017-05-13T13:03:30Z (GMT). No. of bitstreams: 1 cristianefrançadacosta.pdf: 11417348 bytes, checksum: 7d95d18b07033104e1eabd0a410f000c (MD5) Previous issue date: 2011-11-04 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O presente trabalho explorou, num primeiro momento, a síntese de novas antraquinonas e tetraidropirimidinas, potenciais agentes imunossupressores. Em um segundo capítulo foi realizado a síntese de N-acilidrazonas derivadas de aminoácidos, com potencial atividade antituberculose. A primeira parte do capítulo 1 consistiu na síntese e avaliação imunossupressora de derivados da 1,4-diaminoantraquinona e 1,4-diidroxiantraquinona. Para tal foram sintetizados 10 substâncias, sendo 9 inéditas, a saber: 2 derivados da 1,4-diaminoantraquinona e 7 derivados da 1,4-diidroxiantraquinona em rendimentos moderados a satisfatórios (31-90%). As substâncias 12, 13, 15, 16, 19 e 22-26 foram submetidas à avaliação in vitro de inibição de produção de NO no Laboratório de Imunologia da UFJF. Os resultados mostraram que a diamina 12 apresentou melhor atividade imunossupressora conseguindo inibir 92,6% da produção de NO. As substâncias 13 e 22 foram avaliadas no modelo de encefalomielite auto-imune experimental (EAE), no qual foi observado melhora nos sinais clínicos da doença nos camundongos tratados com estas substâncias. A segunda parte do capítulo 1 consistiu na síntese e avaliação imunossupressora de 5 derivados tetraidropirimidínicos inéditos, que foram obtidos por reação de etionamida com diaminas N-alquiladas. Os resultados do teste de inibição de produção de NO das substâncias 31a, 31d e 31e não foram significativos devido a citotoxicidade apresentada nos testes de viabilidade celular. Como parte do estágio de doutorando realizado em Farmanguinhos/Fiocruz, o capítulo 2 deste trabalho consistiu na síntese e avaliação antituberculosa de novas N-acilidrazonas (48a-q) derivadas de aminoácidos, obtidas em rendimentos moderados a satisfatórios (25-84%). Estas substâncias foram testadas quanto a sua atividade antibacteriana frente ao M. tuberculosis no IPEC-FioCruz-RJ. Os resultados da avaliação mostraram a importância dos grupos 5-nitrofuranila e Cbz para a atividade, sendo o derivado da fenilalanina 48c o mais ativo com CIM de 12,5 µg/mL. / The present work explored, in a first part, the synthesis of novel anthraquinones and tetrahydropirimidines, potential imunossupressive agents. In a second chapter was realized a synthesis of the N-acylhidrazones amino acids derivatives. The first part of chapter 1 consisted of synthesis and imunosupressive evaluation of the 1,4-diamineanthraquinone and 1,4-dihydroxyanthraquinone derivatives. For this, ten substances were synthesized; two derivatives of 1,4-diamineanthraquinone and 7 derivatives of 1,4-dihydroxyanthraquinone, in moderate to satisfactory yields (31-90%). Substances 12, 13, 15, 16, 19 and 22-26 were submitted to in vitro evaluation of inhibition of NO production in the Laboratory of Immunology from UFJF. The results showed that diamine 12 had better imunosupressive activity, being able to inhibit 92.6% of NO production. Substances 13 and 22 were evaluated under the model of experimental autoimmune encephalomyelitis (EAE), in which was observed improvement in clinical signs of the mice disease that were treated with these substances. The second part of chapter 1 consisted of the synthesis and immunosuppressive evaluation of 5 tetrahydropirimidines that were unpublished, they were obtained by reaction of ethionamide with N-alkyl diamines. The test results of inhibition of NO production of substances 31a, 31d and 31e were not significant due to cytotoxicity presented in cell viability tests. As part of the doctor stage held in Farmanguinhos/Fiocruz, chapter 2 of this work consisted of the synthesis and antituberculous evaluation of new N-acylhydrazones (48a-q), amino acid derivatives, obtained in moderate to satisfactory yields (25-84%). These substances were tested for antibacterial activity against M. tuberculosis in IPEC-Fiocruz/RJ. The evaluation results showed the importance of the 5- nitrofuranyl and Cbz for the activity, and the phenylalanine derivative 48c is the most active with MIC of 12.5 mg / mL.

Antraquinona

Tetraidropirimidina

N-acilidrazona

Imunossupressor

Óxido nítrico

Esclerose múltipla

Tuberculose

Mycobacterium tuberculosis

Biochemical and drug targeting studies of Mycobacterium tuberculosis cholesterol oxidase P450 enzymes

Amadi, Cecilia Nwadiuto

January 2016

Mycobacterium tuberculosis (Mtb), a deadly pathogen, has scourged mankind for many centuries and has remained a major threat to global world health. Tuberculosis, the disease caused by this bacterium, is a major cause of death in developing nations and there is potential for its re-emergence in developed countries. An alarming rise in cases of multidrug-resistant and extremely-drug resistant tuberculosis (MDR-TB and XDR-TB) that do not respond to the customary first-line antibiotics necessitates the urgent need for development of new anti-TB drugs. Mtb becomes engulfed in human macrophages post infection of the host, but persists in the harsh environment of the human lungs by utilization of host cholesterol as a carbon source. The P450s CYP125A1, CYP142A1 and CYP124A1 are responsible for catalysing the side-chain degradation of cholesterol, which is critical for cholesterol to be used in the Mtb β-oxidation pathway for energy production. This PhD thesis focuses on understanding the structure/mechanism of the Mtb cholesterol 27-oxidases with the aim of facilitating the development of novel inhibitors of these P450s, which are crucial for Mtb to infect the host and to sustain infection. CYP142A1 and CYP124A1 were purified through three chromatographic steps with contaminating proteins successfully removed to give highly pure forms of these enzymes following the final purification step. Spectrophotometric titrations indicate that CYP142A1 and CYP124A1 bind tightly to cholesterol and cholestenone (and also to branched-chain methyl lipids for CYP124A1), highlighting their physiological roles in sterol and fatty acid metabolism, respectively. Binding analyses with a range of azole antibiotics revealed tight binding to bifonazole, clotrimazole, miconazole and econazole, and weak binding to fluconazole. Studies with compounds from a fragment screening library revealed weak binding to fragment hits for the cholesterol oxidases, but much tighter binding to these enzymes was found for ‘elaborated’ hits from a previous fragment screen on the Mtb cyclodipeptide oxidase CYP121A1, indicative of improved ligand potency achieved via ‘fragment merging’ strategies, and of structural similarities between these diverse Mtb P450s. Light scattering data indicate that CYP142A1 exists in dimeric form in solution, but becomes monomeric when treated with DTT; while CYP124A1 is completely monomeric. Crystal structures of CYP142A1 and CYP124A1 in complex with cholestenone, econazole and fragment library hits were determined. CYP142A1 crystal structures with econazole and fragment hits revealed heme coordination via the heterocyclic nitrogen in an azole group, and provide important data towards design of superior inhibitor drugs. The binding of cholestenone within the active site channels of CYP124A1 and CYP142A1 revealed an alignment favourable for C27 hydroxylation of the cholestenone side chain, which supports the physiological roles of CYP142A1 and CYP124A1 (as well as CYP125A1) in host cholesterol catabolism.

615.1

Preliminary validation of Mycobacterium tuberculosis complex-specific PCR tests for the detection of M. bovis and M. tuberculosis in formalin-fixed, paraffin-embedded tissues of captive and free-ranging wildlife

Govender, Kerushini

January 2013

Bovine tuberculosis is a global cause for concern in livestock, free-ranging wildlife, zoological collections and the human population. Large amount of time, effort and resources are spent on its diagnosis and control methods. This study was aimed at determining the sensitivity and specificity of the IS6110 specific PCR test on formalin fixed, paraffin embedded (FFPE) tissue blocks, compared to that of the gold standard method culture and to differentiate M. bovis from other members of the M. tuberculosis complex using the RD4 region of difference specific PCR test. A total of 141 FFPE tissue blocks of wild animals from game reserves, the National Zoological Gardens and routine tuberculosis (TB) surveys in Kruger National Park were tested. Among the 50 known TB positive samples (35 M. bovis culture positive, twelve M. tuberculosis culture positive and three diagnosed tuberculosis positive on histopathology examination) the IS6110 PCR had an overall sensitivity of 22%. The positive predictive value of the IS6110 test (91.67%) was quite high implying that although sensitivity was low, one can be highly confident that a positive test result is a true reflection of the positive disease status. The overall sensitivity of the RD4 PCR was 20%. The positive predictive value of the RD4 test (41.67%) was low, implying that a positive test result may be unreliable. The sensitivities of the M. tuberculosis and M. bovis culture positive samples were compared and a significant difference was noted. Sensitivities of the IS6110 and RD4 assays in M. tuberculosis culture positive samples were 66.67% and 33.33%, respectively; sensitivities of the IS6110 and RD4 assays in M. bovis culture positive samples were 8.57% and 17.14%, respectively. Difference in bacterial load in tissues infected with the two mycobacterial species may account for this finding (i.e. M. bovis infections have a lower bacteria load). Of the 91 known TB negative samples, the specificity of the IS6110 (98.90%) and RD4 (84.62%) PCR tests were high, but the negative predictive values of 69.67% and 65.81%, respectively, suggest that the probability of negative test results being incorrect still exists. The resultant sensitivity was increased when parallel interpretation was applied to histopathology examination and the IS6110 or RD4 PCR tests and when applied to the IS6110 and RD4 PCR tests. Both histopathology examination and PCR tests produce rapid results and their combination can be used in routine diagnostics. The RD4 PCR assay was unable to distinguish M. bovis from other members of the MTB complex and based on the findings of this study the RD4 PCR cannot add value to the diagnosis of suspect tuberculosis samples at this stage, but successful troubleshooting relating to 1) extraction method, 2) DNA inhibitors, 3) contamination and 4) multisampling protocol, may enable its use in future. / Dissertation (MSc)--University of Pretoria, 2013. / gm2014 / Veterinary Tropical Diseases / Unrestricted

Mycobacterium tuberculosis

Livestock

Free-ranging wildlife

Specific PCR test

Complex-specific PCR tests

Paraffin embedded tissue blocks

UCTD

The measurement of genetic diversity in mycobacterium tuberculosis using random amplified polymorphic DNA profiling

Richner, Sharon M

January 2000

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.

Tuberculosis -- History -- 20th century

Tuberculosis -- Africa, Southern

Tuberculosis -- Treatment

Tuberculosis -- Africa

Tuberculosis -- Prevention

Tuberculosis -- Pathogenesis

Mycobacterium tuberculosis

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

Insights Into The Mechanistic Details Of The M.Tuberculosis Pantothenate Kinase : The Key Regulatory Enzyme Of CoA Biosynthesis

Parimal Kumar, *

07 1900

Tuberculosis (TB), caused by Mycobacterium tuberculosis, has long been the scourge of humanity, claiming millions of lives. It is the most devastating infectious disease of the world in terms of mortality as well as morbidity (WHO, 2009). The lack of a uniformly effective vaccine against TB, the development of resistance in the Mycobacterium tuberculosis against the present antitubercular drugs and its synergy with AIDS has made the situation very alarming. This therefore necessitates a search for new antitubercular drugs as well as the identification of new and unexplored drug targets (Broun et aI., 1992). Coenzyme A is an essential cofactor for all organisms and is synthesized in organisms from pantothenate by a universally conserved pathway (Spry et al., 2008; Sassetti and Rubin, 2003). The first enzyme of the pathway, pantothenate kinase catalyzes the most important step of the biosynthetic process, being the first committed step of CoA biosynthesis and the one at which all the regulation takes place (Gerdes et aI., 2002) This thesis describes the successful cloning of PanK from Mycobacterium tuberculosis, its expression in E. coli, single step affinity purification, and complete biochemical and biophysical characterization. In this work, pantothenol, a widely believed inhibitor of pantothenate kinase, has been shown to act as a substrate for the mycobacterial pantothenate kinase. Further it was shown that the product, 4'phosphopantothenol, thus formed, inhibited the next step of the CoA biosynthesis pathway in vitro. The study was extended to find outthe fate of pantothenol inside the cell and it was demonstrated that the CoA biosynthetic enzymes metabolized the latter into the pantothenol derivative of CoA which then gets incorporated into acyl carrier protein. Lastly, it was decisively shown that pantothenate kinase is not only regulated by feedback inhibition by CoA but, also regulated through feed forward stimulation by Fructose 1, 6 biphosphate (FBP), a glycolytic intermediate. The binding site of FBP was determined by docking and mutational studies of MtPanK. Chapter 1 presents a brief survey of the literature related to Coenzyme A biosynthesis pathway and describes the objective of the thesis. It also presents a history of TB and briefly reviews literature describing TB as well as the life cycle, biology, survival strategy, mode of infection and the metabolic pathways operational in the TB parasite, Mycobacterium tuberculosis. The chapter details the enzymes involved in CoA biosynthesis pathway from various organims. Chapter 2 In this chapter, cloning of the ORF (Rv1092c), annotated as pantothenate kinase in the Tuberculist database (http://genolist.pasteur.frfTubercuList), its expression in E. coli and purification using affinity chromatography has been described. Protein identity was confirmed by MALDI-TOF and by its ability to complement the pantothenate kinase temperature sensitive mutant, DV70. This chapter also illustrates the oligomeric status of MtPanK in solution and describes the biochemical characterization of MtPanK by means of two different methods, spectrophotometrically by a coupled assay and calorimetrically by using Isothermal Titration Calorimetry. Feedback inhibition of MtPanK by CoA is also discussed in this chapter. Chapter 3 describes the biophysical characterization of MtPanK. It discusses the enthalpy (~H) and free energy change (~G) accompanying the binding of a non-hydrolysable analogue of ATP; CoA; acetyl CoA and malonyl-CoA to MtPanK. The chapter details the energetics observed upon ATP binding to pantothenate-saturated MtPanK further elucidating the order of the reaction. This chapter also describes the various strategies which were designed and tested to remove CoA from the enzyme as the latter is always purified from the cell in conjunction with CoA. Validation of these strategies for complete CoA removal (by studying the n value from ITC studies) is further described. Chapter 4 discusses the interaction of the well-studied inhibitor of pantothenate kinases from other sources (e.g. the malarial parasite), pantothenol, with the mycobacterial enzyme. In order to investigate the interaction of this compound with MtPanK, its effect on the kinetic reaction carried out by the enzyme was studied by several methods. Surprisingly, a new band corresponding to 4'phosphopantothenol appeared when the reaction mix of MtPanK with pantothenol and ATP was separated on TLC. The identity of the new spot was confirmed by mass spectrometry analyses of the MtPanK reaction mixture.. These findings established the fact that pantothenol is a substrate of pantothenate kinase. To delve deeper into the mechanism of interaction of this compound with the enzymes of the coenzyme A biosynthesis pathway, the ability of pantothenol to serve as a substrate for the next step of the pathway, MtCoaBC was studied. Using various approaches it was established that pantothenol is actually a substrate for the MtPanK and the inhibition observed earlier (Saliba et aI., 2005) is actually due to the inability of CoaBC to utilize 4' -phosphopantothenol as substrate. Chapter 5 takes the story from Chapter 4 further detailing the effects of pantothenol on cultures of E. coli and M. smegmatis. I observed that pantothenol does not inhibit the culture of E. coli or M. smegmatis. So, further studies were carried out to know the fate of pantothenol once it is converted into 4'phosphopantothenoi. Since, the next enzyme of the pathway does not utilize 4'phosphopantothenol, I checked the further downstream enzyme of the pathway, CoaD, and found that it converts 4'-phosphopantothenol to thepantothenol derivative of dephospho-CoA. The next enzyme of the pathway, CoaE, took up this pantothenol derivative of dephospho-CoA as a substrate and converted it to the pantothenol derivative of CoA which was then transferred to apo-ACP by holo-ACP synthase. The holo-ACP thus synthesized enters into the dedicated pathway of fatty acid synthesis. Extensive investigations have been carried out on the regulation of pantothenate kinases, by the product of the pathway, Coenzyme A and its thioesters, xx establishing the latter as the feedback regulators of these enzymes. In order to determine if the cell employs mechanisms to sense available carbon sources and consequently modulate its coenzyme A levels by regulating activity of the enzymes involvedin CoA biosynthesis, glycolytic intermediates were tested against MtPanK for their possible role in the regulation of MtPanK activity. Chapter 6 details my identification of a novel regulator of MtPanK activity, fructose-I, 6-bisphosphate (FBP), a glycolytic intermediate, which enhances the MtPanK catalyzed phosphorylation of pantothenate by three fold. Further, the possible mechanisms through which FBP mediates MtPanK activation are also discussed. This chapter also describes the experiments carried out to identify the binding site of FBP on MtPariK.Interestingly, docking of FBP on MtPanK revealed that FBP binds close to the ATP binding site on the enzyme with one of its phosphates overlapping with the 3'~phosphate of CoA thereby validating its competitive binding relative to CoA on MtPanK. Based on these observations I propose that the binding of FBP to MtPanK lowers the activation energy of pantothenate phosphorylation by PanK. Chapter 7 presents a summary of the findings of this work. Coenzyme A biosynthesis pathway harbors immense potential in the development of drug against many communicable diseases, thanks to its essentiality for the pathogens and the differences between the pathogen and host CoA biosynthetic enzymes. The work done in this thesis extensively characterizes the first committed enzyme of the CoA biosynthetic pathway, pantothenate kinase, from Mycobacterium tuberculosis (MtPanK). The thesis also deals with the fate of a known inhibitor of PanK and proves it as a substrate for MtPanK. Finally this thesis describes a new link between glycolysis and CoA biosynthesis. Biotin, like coenzyme A, is another essential cofactor required by several enzymes in critical metabolic pathways. De novo synthesis of this critical metabolite has been reported only in plants and microorganisms. Therefore targeting the synthesis of biotin in the tubercular pathogen is another effective means of handicapping the tubercle pathogen. During the course of my studies, I also investigated the mycobacterial biotin biosynthesis pathway, studying the first enzyme of the pathway, 7-keto-8-aminopelargonic acid (KAPA) synthase (bioF) in extensive detail. Appendix 1 elucidates the kinetic properties of 7-keto-8aminopelargonic acid synthase (bioF) from Mycobacterium tuberculosis and proves beyond doubt that D-alanine which has previously been reported to act as a competitive inhibitor for the B. sphaericus enzyme (Ploux et al., 1999), is actually a substrate for the mycobacterial bioF.

Tuberculosis

Micobacterial Pantothenate Kinase

Enzymes - Synthesis

Coenzyme A - Biosynthesis

Enzymes - Regulation

M. tuberculosis

Pantothenate Kinase

Mycobacterium tuberculosis

Pantothenol

Microbiology

Further Structural Studies on Jacalin and Genomics Search for Mycobacterial and Archeal Lectins

Abhinav, K V

January 2016

This thesis consists of two parts. The first part is concerned with further structural and related studies of jacalin, one of the two lectins found in jack fruit seeds. The second part deals with the search of mycobacterial and archeal genomes for lectins. The β-prism I fold was identified as a lectin fold through the X-ray analysis of jacalin way back in 1996. Subsequent structural studies on jacalin are described in the first chapter in context of the overall efforts on lectins with particular reference to those on lectins with β-prism I fold. The structure of jacalin has been thoroughly characterized through the analysis of several crystals. The extended binding site of the lectin, made up of the primary binding site and secondary sites A and B, has also been characterized through studies on different jacalin-sugar complexes. However, nuances of jacalin-carbohydrate interactions remain underexplored with respect to two specific issues. The first issue is concerned with the structural basis for the lower affinity of jacalin for β-substituted sugars. The second has to do with the influence of the anomeric nature of the glycosidic linkage on the location of the reducing and non-reducing sugars in disaccharides when interacting with jacalin. Part of the work described in the thesis addresses these two issues. It was surmised that the lower affinity of β-galactosides to jacalin as compared to α-galactosides, is caused by steric interactions of the substituents in the former with the protein. This issue is explored both energetically and structurally in Chapter 2 using appropriately derivatized monosaccharide complexes of jacalin. It turns out that the earlier surmise is not correct. The interactions of the substituent with the binding site remain essentially the same irrespective of the anomeric nature of the substitution. This is achieved through a distortion of the sugar ring in β-galactosides. The difference in energy, and therefore affinity, is caused by the distortion of the sugar ring in β-galactosides. The elucidation of this unprecedented distortion of the ligand as a strategy for modulating affinity is of general interest. The crystal structures also provide a rationale for the relative affinities of the different carbohydrate ligands to jacalin. The crystal structures of jacalin complexed with α-linked oligosaccharides Gal α-(1,4) Gal and Gal α-(1,3) Gal β-(1,4) Gal, as described in Chapter 3, have been determined with the primary objective of exploring the effect of linkage on the location of reducing and non-reducing sugars in the extended binding site of the lectin, an issue which has not been studied thoroughly. Contrary to the earlier surmise based on simple steric considerations, the two structures demonstrate that α-linked sugars can bind to jacalin with non-reducing sugar at the primary binding site. This is made possible substantially on account of the hitherto underestimated plasticity of a non-polar region of the extended binding site. Modelling studies involving conformational search and energy minimization, along with available crystallographic and thermodynamic data, indicate a strong preference for complexation with Gal β-(1,3) Gal with the reducing Gal at the primary site, followed by that with Gal α-(1,3) Gal, with the reducing or non-reducing Gal located at the primary binding site. This observation is in consonance with the facility of jacalin to bind mucin type O-glycans containing T-antigen core. Crystal structures of jacalin in complex with GlcNAc β-(1,3) Gal-β-OMe and Gal β-(1,3) Gal-β-OMe have also been described in Chapter 4. The binding of the ligands to jacalin is similar to that of analogous α-substituted disaccharides. However, the β-substituted β-(1,3) linked disaccharides get distorted at the anomeric centre and the glycosidic linkage. The distortion results in higher internal energies of the ligands leading to lower affinity to the lectin. This confirms the possibility of using ligand distortion as a strategy for modulating binding affinity. Unlike in the case of β-substituted monosaccharides bound to jacalin, where a larger distortion at the anomeric centre was observed, smaller distortions are distributed among two centres in the structures of the two β-substituted β-(1,3) linked disaccharides presented here. These disaccharides, like the unsubstituted and α-substituted counterparts, bind jacalin with the reducing Gal at the primary binding site, indicating that the lower binding affinity of β-substituted disaccharides is not enough to overcome the intrinsic propensity of Gal β-(1,3) Gal based disaccharides to bind jacalin with the reducing sugar at the primary site. Although originally isolated from plants, lectins were also found subsequently in all forms of life, including bacteria. Studies on microbial lectins have not been as extensive as on those from plants and animals, although there have been some outstanding individual investigations on bacterial toxins like ADP-ribosylating toxins and neurotoxins. In addition to bacterial toxins, adhesins, β-trefoil lectins and cyanobacterial lectins form other important subgroups which have been explored using crystallography. Features pertaining to their three dimensional folds, carbohydrate specificity and biological properties are described in Chapter 5, to set the stage for the work discussed in the second part of the thesis. Studies on mycobacterial lectins were unexplored until work was initiated in the area in this laboratory some years ago. One of the lectins, identified on the basis of a bioinformatics search of M. tuberculosis H37Rv genome was cloned, expressed and crystallized. Also cloned, expressed and crystallized is another lectin from M. smegmatis. Biophysical and modelling studies were carried out on the full length protein containing this lectin. However, systematic efforts on mycobacterial lectins were conspicuous by their absence. The first chapter (Chapter 6) in the second part of the thesis is concerned with a genomic search for lectins in mycobacterial genomes. It was also realized that hardly anything is known about archeal lectins. Therefore, as discussed in the final chapter, a genomic search for archeal lectins was undertaken. Sixty-four sequences containing lectin domains with homologs of known three-dimensional structure were identified through a search of mycobacterial genomes and are described in detail in Chapter 6. They appear to belong to the β-prism II, the C-type, the Microcystis virdis (MV), and the β-trefoil lectin folds. The first three always occur in conjunction with the LysM, the PI-PLC, and the β-grasp domains, respectively while mycobacterial β-trefoil lectins are unaccompanied by any other domain. Thirty heparin binding hemagglutinins (HBHA), already annotated, have also been included in the study although they have no homologs of known three-dimensional structure. The biological role of HBHA has been well characterized. A comparison between the sequences of the lectin from pathogenic and non-pathogenic mycobacteria provides insights into the carbohydrate binding region of the molecule, but the structure of the molecule is yet to be determined. A reasonable picture of the structural features of other mycobacterial proteins containing one of the four lectin domains can be gleaned through the examination of homologous proteins, although the structure of none of them is available. Their biological role is yet to be elucidated. The work presented here is among the first steps towards exploring the almost unexplored area of the structural biology of mycobacterial lectins. As mentioned in Chapter 7, forty six lectin domains, which have homologues among well established eukaryotic and bacterial lectins of known three dimensional structure, have been identified through a search of 165 archeal genomes using a multi-pronged approach involving domain recognition, sequence search and analysis of binding sites. Twenty one of them have the 7-bladed β-propeller lectin fold while 16 have the β-trefoil fold and 7 the legume lectin fold. The remainder assumes the C-type lectin, the β-prism I and the tachylectin folds. Acceptable models for almost all of them could be generated using the appropriate lectins of known three dimensional structure as templates, with binding sites at one or more expected locations. The work represents the first comprehensive bioinformatics study of archeal lectins. The presence of lectins with the same fold in all domains of life indicates their ancient origin well before the divergence of the three branches. Further work is necessary to identify archeal lectins which have no homologues among eukaryotic and bacterial species.

Mycobacterial Lectins

Archeal Lectins

Jacalin

Prokaryotic Lectins

Bacterial Lectins

Jacalin-carbohydrate Interactions

Lectins

Molecular Biology

Régulation transcriptomique et génétique de la réponse des microARN aux infections (myco)bactériennes / A genome‐wide perspective of the genetic regulation of the microRNA response to (myco)bacterial infection

Siddle, Katherine Joyce

27 June 2014

Les microARN sont des petits ARN non-codant impliqués dans la régulation de multiples fonctions biologiques dont la réponse immunitaire. L'infection par un pathogène induit un changement transcriptomique fort chez l'hôte. Cependant, la variabilité de ces dérégulations reste encore mal décrite. Cette thèse avait pour principaux objectifs de mieux comprendre la spécificité et la variabilité de la réponse des microARN chez l'homme ainsi que mettre en évidence les bases génétiques de cette diversité en utilisant comme modèle l'infection des cellules dendritiques par Mycobacterium tuberculosis (MTB). Nous avons utilisé une approche ex vivo et des techniques à haut débit dans le but de décrire la réponse des microARN suite à l'infection par MTB dans la population générale, et de la comparer à celle induite par d'autres mycobactéries et bactéries intracellulaires. Nous montons que l'infection modifie profondément l'expression des microARN ainsi que la diversité de leurs isoformes, dont un certain nombre de microARN sont impliqués dans une réponse très conservée. Nos résultats soulignent aussi l'effet de l'infection sur les réseaux de régulation de l'expression des gènes impliquant les microARN et montrent que l'expression de 3% de ces transcrits peut-être corrélée à un marqueur génétique. Grâce à l'intégration de ces différentes analyses, nous proposons certains microARN candidats qui pourraient jouer un rôle dans la variabilité de la réponse immunitaire. L'ensemble de nos résultats constitue la première tentative de compréhension de l'architecture génétique de la réponse des microARN et apporte un nouvel éclairage sur le rôle de ces transcrits dans la réponse antibactérienne. / MicroRNAs (miRNAs) are important epigenetic regulators of gene expression that play a key role in many biological processes, including the immune response. Although infection is accompanied by marked changes in the transcriptional profiles of host cells, little is known about the variability of host miRNA responses to infection. In this thesis, we aimed to define the extent and specificity of pathogen-induced miRNA transcriptional responses of host cells, and to characterise the genetic basis of miRNA variability upon infection, using the model of Mycobacterium tuberculosis (MTB) infection of human dendritic cells. To this end, we have combined ex vivo approaches with a range of high-throughput genomic techniques to profile miRNA responses to MTB at the population-level and to compare this response with other mycobacterial and non-mycobacterial infections. We show that miRNAs display marked changes in expression and in isomiR distribution upon infection that are highly consistent across diverse bacteria, demonstrating the presence of a strong core miRNA response to bacterial infection. Our results highlight the impact of infection on miRNA-mediated gene regulatory networks and show that the expression of 3% of miRNAs are controlled by proximate expression quantitative trait loci (eQTLs) and identify a number of candidate miRNAs that may play a role in variability in the immune response to infection. Together, these results provide the first assessment of the impact of genotype-environment interactions on the regulation of miRNA expression, as well as offering novel insights into the specificity of these miRNAs in the response to mycobacterial infections.

MicroARN

Réponse immunitaire

Mycobacterium tuberculosis

Séquençage des ARN

Genotype-by-environment interactions

EQTLs

Immune response

RNA sequencing

576.5

The DNA Translocase of Mycobacteria Is an Essential Protein Required for Growth and Division

Czuchra, Alexander

30 August 2021

Mycobacterium tuberculosis (Mtb) is one of the most virulent and prevalent bacterial pathogens across the world. As Mtb infects millions of people a year, it remains essential to study its physiology with the goal of developing new therapeutic interventions. A critical part of the bacteria’s ability to propagate is through successful cell division. Although the process of bacterial cell division and the key proteins therein are well understood in Escherichia coli, much remains to be understood about division in mycobacteria. Genetic and cell biological approaches have recently begun to identify key divisome components in Mycobacterium smegmatis. However, questions remain regarding the role and function of one divisome protein in particular, the DNA translocase FtsK. In this dissertation, I investigated the necessity of FtsK for the growth of mycobacteria. Using an inducible knockdown of FtsK, I present evidence that complete loss of FtsK is required to inhibit growth in both Mtb and M. smegmatis, and that these orthologs share a homologous function. Additional work suggests extended loss of FtsK may be lethal to bacteria. These observations support that FtsK is an essential member of the divisome in mycobacteria, facilitating the processes of growth and division.

Mycobacteria

Mycobacterium tuberculosis

Mycobacterium smegmatis

cell division

bacterial cell division

divisome

FtsK

Bacteriology

Microbial Physiology

Organismal Biological Physiology

Pathogenic Microbiology