Comparative proteome analysis of culture supernatant proteins of Mycobacterium tuberculosis H37Rv and H37Ra

To examine the virulence factors of Mycobacterium tuberculosis H37Rv, the proteome was used to characterize the differences in protein expression between virulent M. tuberculosis H37Rv and attenuated M. tuberculosis H37Ra. Two-dimensional gel electrophoresis was performed to separate culture supernatant proteins extracted from M. tuberculosis H37Rv and M. tuberculosis H37Ra. The protein spots of interest were identified by mass spectrometry, and then the genes encoding the identified proteins were cloned and sequenced. Comparison of silver-stained gels showed that three well-resolved protein spots were present in M. tuberculosis H37Rv but absent from M. tuberculosis H37Ra. Protein spot no. 1 was identified as Rv2346c. Protein spot no. 2 was identified as Rv2347c, Rv1197, Rv1038c, and Rv3620c, which shared significant homology and had the same peptide fingerprinting using tryptic digestion. No M. tuberculosis protein matched protein spot no. 3. Rv2346c, Rv2347c, Rv1038c, and Rv3620c of M. tuberculosis H37Rv were located on the M. tuberculosis H37Ra chromosome, and multiple mutations were observed in the corresponding areas of M. tuberculosis H37Ra. Codon 59 (CAG, Gln) of Rv2347c and Rv3620c was replaced by termination codon (TAG) in M. tuberculosis H37Ra, which probably terminated the polypeptide elongation. These results demonstrate the importance of studying the gene products of M. tuberculosis and show that subtle differences in isogenic mutant strains might play an important role in identifying the attenuating mutations.     

差显技术分析结核杆菌H37Rv与H37Ra差异表达的基因

采用差异显示技术比较了结核分支杆菌强毒株H37Rv和弱毒株H37Ra在体外培养条件下的基因表达差异。通过20种引物组合进行mRNA差异显示,克隆到了两菌株间的20余个差异表达基因,经序列分析及杂交鉴定发现其中2个基因仅在H37Rv中表达。其中Rv1894c基因编码的可能是H37Rv中的一个新蛋白。而在H37Ra的基因组中含有这2个基因的编码序列,但均未检测到基因的表达。     

结核分枝杆菌H37有毒株与无毒株的代谢相关基因pabB和lpdA启动子活性分析

【目的】通过分析结核分枝杆菌无毒株H37Ra的全基因组序列,并与H37Rv基因组序列比较,发现pabB和lpdA预测的启动子区发生了突变。我们利用报告基因,确认启动子突变与其基因转录水平的关系,探索结核分枝杆菌H37Ra毒力丧失的内在原因。【方法】利用生物信息学方法预测这两对基因的启动子区,采用PCR技术克隆这两对基因的启动子,与分枝杆菌启动子探针载体pMC210相连,DNA测序证实连接片段正确后,用电穿孔法将重组质粒转化至耻垢分枝杆菌mc2155。利用Quantitative Real-Time RT-PCR检测报告基因lacZ转录水平的差异,进一步验证这两对基因启动子的突变对相应基因转录水平的影响。【结果】Quantitative Real Time PCR检测结果显示H37RapabB启动子活性是H37Rv pabB启动子活性的6倍(p0.05),而H37Rv lpdA启动子的活性是H37RalpdA启动子的2倍(p0.05)。【结论】pabB,lpdA的启动子在H37Ra中的突变对其启动子的活性产生了影响,其中lpdA启动子的突变可能与结核分枝杆菌H37Ra的毒力丧失有关。     

结核分枝杆菌H37Rv新基因Rv2742克隆表达及纯化

Rv2742是本课题组前期基于蛋白质基因组学策略从结核分枝杆菌Mycobacteriumtuberculosis H37Rv中发现、鉴定的遗漏注释基因。文中旨在建立结核分枝杆菌H37Rv漏注释蛋白Rv2742的可溶性诱导表达、纯化体系,为进一步探索Rv2742基因参与的生物学功能奠定基础。前期实验发现构建的pGEX-4T-2-Rv2742、pET-28a-Rv2742、pET-32a-Rv2742及pMAL-c2X-Rv2742原核表达载体均无法实现目的蛋白的诱导表达。但经密码子优化后,仅有pMAL-c2X-Rv2742载体能够实现目的蛋白的可溶性诱导表达。此外,通过比较不同宿主菌、温度及IPTG浓度对目的蛋白表达量的影响,发现目的蛋白在Rosetta (DE3)中,16℃及0.5mmol/LIPTG诱导条件下表达量最高。直链淀粉树脂(Amyloseresin)亲和层析柱纯化获得较纯的产物,经LC-MS/MS验证确认是Rv2742融合蛋白肽段序列。成功获得结核分枝杆菌H37Rv新基因Rv2742的重组蛋白,可进一步开展其潜在相互作用及免疫原性研究工作。     

Mining genomic patterns in Mycobacterium tuberculosis H37Rv using a web server Tuber-Gene

Mycobacterium tuberculosis (MTB), causative agent of tuberculosis, is one of the most dreaded diseases of the century. It has long been studied by researchers throughout the world using various wet-lab and dry-lab techniques. In this study, we focus on mining useful patterns at genomic level that can be applied for in silico functional characterization of genes from the MTB complex. The model developed on the basis of the patterns found in this study can correctly identify 99.77% of the input genes from the genome of MTB strain H37Rv. The model was tested against four other MTB strains and the homologue M. bovis to further evaluate its generalization capability. The mean prediction accuracy was 85.76%. It was also observed that the GC content remained fairly constant throughout the genome, implicating the absence of any pathogenicity island transferred from other organisms. This study reveals that dinucleotide composition is an efficient functional class discriminator for MTB complex. To facilitate the application of this model, a web server Tuber-Gene has been developed, which can be freely accessed at http://www.bifmanit.org/tb2/.     

Genes of Mycobacterium tuberculosis H37Rv downregulated in the attenuated strain H37Ra are restricted to M. tuberculosis complex species

By comparing gene expression of virulent Mycobacterium tuberculosis H37Rv and attenuated strain H37Ra, we previously detected six genes that appear to be markedly downregulated in the attenuated strain compared with the virulent one. Three of these genes, i.e. Rv1345, Rv2770c, and Rv0288, code for proteins that can be predictively associated to immunological or pathogenetic aspects of M. tuberculosis infection; the other genes, i.e. Rv2336, Rv1320c, and Rv2819c, code for proteins with unknown functions (Rindi et al., 1999). In this paper we searched for the above mentioned genes in Pvu II-digested genomic DNA of a number of mycobacterial species by southern blot analysis employing PCR-generated probes in high-stringency conditions. Hybridization signals were only found in species belonging to the M. tuberculosis complex, i.e., M. tuberculosis, M. bovis, including the BCG strain, and M. microti, but not in other mycobacterial species, including M. avium, M. intracellulare, M. malmoense, M. xenopi, M. kansasii, M. simiae, M. marinum, M. scrofulaceum, M. gordonae, M. fortuitum, and M. smegmantis. These results indicate that genes Rv1345, Rv2770c, Rv0288, Rv2336, Rv1320c, and Rv2819c are associated with the most virulent mycobacteria and further support their potential role in M. tuberculosis virulence.     

利用抑制消减杂交技术研究结核分支杆菌强毒株H37Rv和弱毒株H37Ra的基因差异

为了解结核病的致病分子机理和筛选结核病致病菌的毒力基因,利用抑制消减杂交（SSH）技术分析了结核分支杆菌强毒株H37Rv和弱毒株H37Ra间的基因组DNA间差异。通过Southern杂交验证及序列分析得到仅在强毒株H37Rv基因组中有的DNA片段8个,其中一个编码已知的毒力因子mce蛋白,1个编码PE家族蛋白,1个编码purC合成酶,和4个潜在蛋白,另一个为非编码区片段。其中有2个基因经PCR方法已证实在强毒株H37Rv和临床分离的强毒株中存在,而在H37Ra和临床弱毒株中无;仅在弱毒株H37Ra基因组中的DNA片段3个,其中2个为新基因片段,已被GenBank收录。     

Characterization of culture filtrate proteins Rv1197 and Rv1198 of ESAT-6 family from Mycobacterium tuberculosis H37Rv

BackgroundWe have characterized two immunogenic proteins, Rv1197 and Rv1198, of the Esx-5 system of the ESAT-6 family of Mycobacterium tuberculosis H37Rv.MethodsThe complex formation between Rv1197 and Rv1198 was characterized by biophysical techniques. The reactivity of serum from TB patients towards these proteins was characterized by ELISA. Lymphocyte proliferation and cytokine induction were followed in restimulated splenocytes from immunized mice by using MTT assay and CBA flowcytometry, respectively.ResultsRv1197 and Rv1198 strongly interact to form a heterodimeric complex under reducing conditions, which is characterized by a dissociation constant of 97 × 10^− 9 M and melting temperature, Tm, of 50.5 °C. Strong humoral responses to Rv1197, Rv1198, CFP-10 and MoaC1 (Rv3111) antigens were found in Indian patients with active pulmonary tuberculosis (n = 44), in comparison to non-infected healthy individuals (n = 20). The seroreactivity to Rv1198 was characterized by a sensitivity of 75% and specificity of 90%. In BALB/c mice, immunization with Rv1198-FIA induced a pro-inflammatory response with elevated levels of TNF and IL-6, along with low induction of IFN-γ, IL-2 and IL-10, but no induction of IL-4.ConclusionRv1197 and Rv1198 form a stable complex, which is regulated by the redox state of Rv1198. Rv1198 is immunogenic with highly specific seroreactivity towards TB patients' serum. Rv1198 elicits a pro-inflammatory recall response in immunized mice.General SignificanceThis study characterizes the interaction of Rv1197 and Rv1198, and establishes the immunogenic nature of Rv1198.     

Ins and outs of Mycobacterium tuberculosis PPE family in pathogenesis and implications for novel measures against tuberculosis

Mycobacterium tuberculosis is the most successful pathogen with multiple mechanisms to subvert host immune response, resulting in insidious disease. A unique Mycobacterium antigen family termed PPE (Pro-Pro-Glu) has long been widely speculated as "molecular mantra" to escape host immunity. Members of this family are characterized by a conserved N terminal and a variable C terminal. This family associated closely with ESAT-6(ESX) secretion system and largely located in cell wall or cell membrane. The expression of PPE protein is temporally regulated, and highly expressed during M. tuberculosis persistence. Importantly, the distribution of PPE family is so far limited to Mycobacterium genus, prevalent among pathogenic Mycobacterium species. It is tempting to explore this family due to its potential in the latency and reactivation of M. tuberculosis. The evolution, structure, and functions of most PPE proteins remain elusive. The understanding of these questions will deepen our appreciation of the pathogenesis of M. tuberculosis and accelerate novel anti-TB measures discovery.     

Rv1915 and Rv1916 from Mycobacterium tuberculosis H37Rv form in vitro protein-protein complex

BackgroundMycobacterium tuberculosis (Mtb) isocitrate lyase (ICL) is an established drug target that facilitates Mtb persistence. Unlike other mycobacterial strains, where ICL2 is a single gene product, H37Rv has a split event, resulting in two tandemly coded icls - rv1915 and rv1916. Our recent report on functionality of individual Rv1915 and Rv1916, led to postulate the cooperative role of these proteins in pathogen's survival under nutrient-limiting conditions. This study investigates the possibility of Rv1915 and Rv1916 interacting and forming a complex.MethodsPull down assay, activity assay, mass spectrometry and site directed mutagenesis was employed to investigate and validate Rv1915-Rv1916 complex formation.ResultsRv1915 and Rv1916 form a stable complex in vitro, with enhanced ICL/MICL activities as opposed to individual proteins. Further, activities monitored in the presence of acetyl-CoA show significant increase for Rv1916 and the complex but not of Rv0467 and Rv1915Δ90CT. Both full length and truncated Rv1915Δ90CT can form complex, implying the absence of its C-terminal disordered region in complex formation. Further, in silico analysis and site-directed mutagenesis studies reveal Y64 and Y65 to be crucial residues for Rv1915-Rv1916 complex formation.ConclusionsThis study uncovers the association between Rv1915 and Rv1916 and supports the role of acetyl-CoA in escalating the ICL/MICL activities of Rv1916 and Rv1915Δ90CT-Rv1916 complex.General significancePartitioning of ICL2 into Rv1915 and Rv1916 that associates to form a complex in Mtb H37Rv, suggests its importance in signaling and regulation of metabolic pathway particularly in carbon assimilation.     

Frequent homologous recombination events in Mycobacterium tuberculosis PE/PPE multigene families: potential role in antigenic variability

The PE and PPE (PE/PPE) multigene families of Mycobacterium tuberculosis are particularly GC-rich and share extensive homologous repetitive sequences. We hypothesized that they may undergo homologous recombination events, a mechanism rarely described in the natural evolution of mycobacteria. To test our hypothesis, we developed a specific oligonucleotide-based microarray targeting nearly all of the PE/PPE genes, aimed at detecting signals for homologous recombination. Such a microarray has never before been reported due to the multiplicity and highly repetitive and homologous nature of these sequences. Application of the microarray to a collection of M. tuberculosis clinical isolates (n = 33) representing prevalent spoligotype strain families in Tunisia allowed successful detection of six deleted genomic regions involving a total of two PE and seven PPE genes. Some of these deleted genes are known to be immunodominant or involved in virulence. The four precisely determined deletions were flanked by 400- to 500-bp stretches of nearly identical sequences lying mainly at the conserved N-terminal region of the PE/PPE genes. These highly homologous sequences thus serve as substrates to mediate both intergenic and intragenic homologous recombination events, indicating an important function in generating strain variation. Importantly, all recombination events yielded a new in-frame fusion chimeric gene. Hence, homologous recombination within and between PE/PPE genes likely increased their antigenic variability, which may have profound implications in pathogenicity and/or host adaptation. The finding of high prevalence (approximately 45% and approximately 58%) for at least two of the genomic deletions suggests that they likely confer advantageous biological attributes.     

Biosynthesis of nucleic acid purines in Mycobacterium tuberculosis H37Rv

1. The biosynthesis of nucleic acid purine in Mycobacterium tuberculosis H(37)R(v) has been studied by using (14)C-labelled precursors. 2. The results indicate that C-2 and C-8 of the purine ring are derived most efficiently from serine and glycine and not from formate. 3. [(14)C]Methionine is not incorporated into the ureide carbon atoms of the purine ring.     

Matrix-assisted refolding and redox properties of WhiB3/Rv3416 of Mycobacterium tuberculosis H37Rv

Redox stress is one of the major challenges faced by Mycobacterium tuberculosis during early infection and latency. The mechanism of sensing and adaptation to altered redox conditions is poorly understood. whiB family of Mtb is emerging as an important class of stress responsive genes. WhiB3/Rv3416 has been shown to be important for pathogenesis in animal model and was recently shown to co-ordinate a Fe-S cluster. Here, we report a simple, rapid and efficient matrix-assisted refolding method and important redox properties of WhiB3. Similar to other WhiB proteins, WhiB3 also has four conserved cysteine residues, where two of them are present in a CXXC motif. The Fe-S cluster of WhiB3 remained bound in the presence of strong protein denaturant. Upon cluster removal due to oxidation, the four cysteine residues which are ligands of Fe-S cluster, formed two intra-molecular disulfide bridges where one of them is possibly between the cysteines of CXXC motif, an important feature of several thiol-disulfide oxido-reductases. Far-UV CD spectroscopy revealed the presence of both alpha-helices and beta-strands in apo WhiB3. The secondary structural elements of apo WhiB3 were found resistant for thermal denaturation. The results demonstrated that apo WhiB3 functions as a protein disulfide reductase similar to thioredoxins. The importance of WhiB3 in redox sensing and its possible role in mycobacterial physiology has been discussed.     

The mycosins of Mycobacterium tuberculosis H37Rv: a family of subtilisin-like serine proteases

There is little information regarding the role of proteolysis in Mycobacterium tuberculosis and no studies on the potential involvement of proteases in the pathogenesis of tuberculosis. We identified five M. tuberculosis genes (mycP1-5) that encode a family of serine proteases (mycosins-1 to 5), ranging from 36 to 47% identity. Each protein contains a catalytic triad (Asp, His, Ser) within highly conserved sequences, typical of proteases of the subtilisin family. These genes are also present in M. bovis BCG and other virulent mycobacteria, but only one homologue (mycP3) was detected in M. smegmatis. The mycosins have N-terminal signal sequences and C-terminal transmembrane anchors, and the localisation of the mycosins to the membrane/cell wall was verified by Western blot analysis of heterologously expressed proteins in cellular fractions of M. smegmatis. In M. tuberculosis, all the mycosins were expressed constitutively during growth in broth. Mycosins-2 and 3 were also expressed constitutively in M. bovis BCG, but no expression of mycosin-1 was detected. Mycosin-2 was modified by cleavage in all three mycobacterial species. The multiplicity and constitutive expression of these proteins suggests that they have an important role in the biology of M. tuberculosis.