A Novel Method of Identifying Mycobacterium tuberculosis Beijing Strains by Detecting SNPs in Rv0444c and Rv2629

A particular genotype of tuberculosis, named Beijing strain, is strongly associated with drug resistance and high virulence. Therefore, rapid prospective identification of Mycobacterium tuberculosis Beijing strains is very important for identifying and controlling tuberculosis of Beijing genotype. In the present study, we found that the co-mutation, A191C in Rv2629 and G243C in Rv0444c, is closely related to Beijing genotype. Gene Rv2629 and Rv0444c of 139 clinical isolates of M. tuberculosis were analyzed by PCR amplification and sequencing. Among 99 Beijing strains, 86 % (n = 85) isolates had the mutation G243C in Rv0444c and 92.93 % (n = 92) isolates had the mutation A191C in Rv2629. Among 40 non-Beijing isolates, only six isolates carried the mutation G243C in Rv0444c and eight isolates carried the mutation A191C in Rv2629. The co-mutation existed in 84.85 % (n = 84) of 99 clinical genome samples of W-Beijing strains and in only 12.5 % (n = 5) of the 40 non-Beijing strains, and the positive predictive value of 94.38 %, obtained in our experiment with a designed ratio of Beijing isolates, is similar to that in China at present. This result suggested that the detection method of the co-mutation, A191C in Rv2629 and G243C in Rv0444c, proposed in this study was a rapid, reliable, and sensitive one for identifying tuberculosis with Beijing genotype.     

Detection of rifampin resistance patterns in Mycobacterium tuberculosis strains isolated in Iran by polymerase chain reaction-single-strand conformation polymorphism and direct sequencing methods

Mutations in the rpoB locus confer conformational changes leading to defective binding of rifampin (RIF) to rpoB and consequently resistance in Mycobacterium tuberculosis. Polymerase chain reaction-single-strand conformation polymorphism (PCR-SSCP) was established as a rapid screening test for the detection of mutations in the rpoB gene, and direct sequencing has been unambiguously applied to characterize mutations. A total of 37 of Iranian isolates of M. tuberculosis, 16 sensitive and 21 resistant to RIF, were used in this study. A 193-bp region of the rpoB gene was amplified and PCR-SSCP patterns were determined by electrophoresis in 10% acrylamide gel and silver staining. Also, 21 samples of 193-bp rpoB amplicons with different PCR-SSCP patterns from RIFr and 10 from RIFs were sequenced. Seven distinguishable PCR-SSCP patterns were recognized in the 21 Iranian RIFr strains, while 15 out of 16 RIFs isolates demonstrated PCR-SSCP banding patterns similar to that of sensitive standard strain H37Rv. However one of the sensitive isolates demonstrated a different pattern. There were seen six different mutations in the amplified region of rpoB gene: codon 516(GAC/GTC), 523(GGG/GGT), 526(CAC/TAC), 531(TCG/TTG), 511(CTG/TTG), and 512(AGC/TCG). This study demonstrated the high specificity (93.8%) and sensitivity (95.2%) of PCR-SSCP method for detection of mutation in rpoB gene; 85.7% of RIFr strains showed a single mutation and 14.3% had no mutations. Three strains showed mutations caused polymorphism. Our data support the common notion that rifampin resistance genotypes are generally present mutations in codons 531 and 526, most frequently found in M. tuberculosis populations regardless of geographic origin.     

Characterization of rpoB mutations associated with rifampin resistance in Mycobacterium tuberculosis from eastern China

Aims:  The aim of this study was to investigate the features of rpoB gene mutations associated with Rifampin (RIF) resistance in Mycobacterium tuberculosis ( M. tuberculosis ) in eastern China.
Methods and Results:  The mutations of rpoB gene in 56 clinical isolates of M. tuberculosis resisted to one to four first-line drugs (rifampin, isonicotinyl hydrazide, ethambutol and streptomycin) were analysed by polymerase chain reaction single strand conformation polymorphism analysis (PCR-SSCP) and DNA sequencing. The results of PCR-SSCP showed 52 isolates were positive (existing rpoB mutation) including 47 isolates resisted to RIF. Subsequent results of DNA sequencing showed that 54 isolates had rpoB gene mutation including 49 isolates resisted to RIF. The most frequently mutated sites were at codons 526 (73·2%), 513 (10·7%) and 531 (3·5%).
Conclusions:  The rpoB codon 526 was the most frequently mutated site of RIF-resistant M. tuberculosis strains in eastern China and its frequency is significantly higher ( P  < 0·0001) compared with that in other areas of China and in other geographic regions worldwide.
Significance and Impact of the Study:  Our results reveal that geographic variation is responsible for rpoB mutations in M. tuberculosis and the resulting information will be helpful to improve a novel rapid molecular drug resistance screening approach for MDR TB.     

Identification of unique genetic markers in Rv0927c among Mycobacterium tuberculosis W-Beijing strains

Fifty-six clinical isolates of Mycobacterium tuberculosis were analyzed by spoligotyping to determine the prevalence of W-Beijing strains. Forty-nine of the 56 isolates belonged to W-Beijing strains and 7 isolates were non-Beijing strains. Comparative two-dimensional gel electrophoresis analysis of protein patterns between the W-Beijing and non-Beijing strains identified a unique protein Rv0927c that is absent in the former but present in the latter and the reference strain M. tuberculosis H37Rv. Compared with 7 non-Beijing clinical isolates and H37Rv, all 49 W-Beijing strains had two characteristic mutations, a deletion of AGC at nucleotide position 421 of Rv0927c gene encoding a putative short dehydrogenase/reductase, causing deletion of serine codon at amino acid position 141 and a -127 G-->A mutation in Rv0927c-pstS3 intergenic region, resulting in failure to express Rv0927c. Western blot analysis indicated that polyclonal antibody raised against H37Rv Rv0927c overexpressed in Escherichia coli reacted with non-Beijing strains and H37Rv but not W-Beijing strains. Characteristic mutations of Rv0927c that are present in W-Beijing strains can be used as a novel genetic marker for rapid molecular typing of M. tuberculosis W-Beijing strains.     

结核分枝杆菌katG基因突变的研究

探讨编码过氧化氢-过氧化物酶的katG基因突变与结核分枝杆菌异烟肼(INH)耐药性的相关关系。根据结核分枝杆菌GenBank中的katG序列,自行设计特异性寡聚核苷酸引物,采用聚合酶链反应-单链构象多态性(PCR-SSCP)分析和直接测序法(DS)分析结核分枝杆菌中katG基因突变情况。以HR37Rv标准株为对照。所有23株敏感菌均未有SSCP结果异常;35株耐药菌中,有2株(5．7％)katG基因扩增阴性,且发生在高度耐药菌中。进一步分析发现,SSCP法突变检出23株(65．7％),测序法突变检出24株(68．6％),符合率为95．8％(23／24)。参照测序法对耐药菌突变序列的分析结果,PCR—SSCP敏感、特异,可快速检测结核分枝杆菌katG耐药基因突变,有利于耐药结核分枝杆菌耐药性的快速检测。     

相对定量分析异烟肼、链霉素单耐药与多耐药结核分枝杆菌临床分离株的蛋白质组差异

【目的】探讨异烟肼(isoniazid,INH)、链霉素(streptomycin,SM)单耐药结核分枝杆菌(Mycobacterium tuberculosis,MTB)与INH/SM多耐药MTB蛋白质组差异。【方法】应用i TRAQ结合Nano LC-MS/MS定量蛋白质组学技术,分析临床分离INH、SM或INH/SM耐药MTB与H37Rv标准株间均表达差异蛋白;并以INH/SM耐药MTB与H37Rv比值为对照,相对定量分析单耐药与多耐药MTB蛋白表达差异倍数;运用DAVID 6.7分析差异蛋白生物功能;STITCH 5.0分析差异蛋白与INH和SM相互作用。【结果】与H37Rv标准株比较,58个蛋白在INH、SM耐药与INH/SM耐药MTB间均有表达差异,共同差异蛋白生物功能主要为氧化还原酶活性和转移酶活性;主要参与丙酸代谢信号通路。共同差异蛋白中,与INH/SM耐药MTB比较,Rv2986c和Rv1908c在INH、SM耐药MTB均表达上调1.25倍;Rv3133c和Rv0577则均表达下调0.7倍;生物信息学预测发现以上4种蛋白可直接或间接与INH、SM进行相互作用。【结论】INH、SM单耐药和INH/SM多耐药MTB蛋白表达谱有较大差异,蛋白Rv2986c、Rv1908c、Rv3133c和Rv0577表达水平及相互作用可能与INH和SM耐药有关。     

In Vitro Activity of Rifampicin and Verapamil Combination in Multidrug-Resistant Mycobacterium tuberculosis

The aim of the present study was to evaluate the effect of the combination of rifampicin (RIF) and verapamil (VP) against the Mycobacterium tuberculosis H₃₇Rv reference strain and six multidrug-resistant (MDR) M. tuberculosis clinical isolates by determining Time-Kill Curves and the ability to efflux drug by fluorometry. The RIF+VP combination showed synergism in one MDR clinical isolate. For the other five MDR clinical isolates, the drug combination showed no interaction. The MDR clinical isolate had lower ethidium bromide (EtBr) accumulation when exposed to the RIF+VP combination, compared with RIF and VP exposure alone. The other MDR clinical isolates showed no significant difference in EtBr accumulation. These results suggest greater efflux action in one of the MDR clinical isolates compared with the M. tuberculosis H₃₇Rv reference strain. The other five MDR isolates may have additional mechanisms of drug resistance to RIF. The use of the RIF+VP combination made one MDR bacillus more susceptible to RIF probably by inhibiting efflux pumps, and this combination therapy, in some cases, may contribute to a reduction of resistance to RIF in M. tuberculosis.     

Mutations in Mycobacterium tuberculosis Rv0444c, the gene encoding anti-SigK, explain high level expression of MPB70 and MPB83 in Mycobacterium bovis

It has recently been advanced that Mycobacterium tuberculosis sigma factor K (SigK) positively regulates expression of the antigenic proteins MPB70 and MPB83. As expression of these proteins differs between M. tuberculosis (low) and Mycobacterium bovis (high), this study set out to determine whether M. bovis lacks a functional SigK repressor (anti-SigK). By comparing genes near sigK in M. tuberculosis H37Rv and M. bovis AF2122/97, we observed that Rv0444c, annotated as unknown function, had variable sequence in M. bovis. Analysis of in vitro mpt70/mpt83 expression and Rv0444c sequencing across M. tuberculosis complex (MTC) members revealed that high-level expression was associated with a mutated Rv0444c. Complementation of M. bovis bacillus Calmette-Guerin Russia, a high producer of MPB70/MPB83, with wild-type Rv0444c resulted in a significant decrease in mpb70/mpb83 expression. Conversely, a M. tuberculosis H37Rv mutant which expressed sigK but not Rv0444c manifested the M. bovis phenotype of high-level MPB70/MPB83 expression. Further support that Rv0444c encodes the anti-SigK was obtained by yeast two-hybrid studies, where the N-terminal region of Rv0444c-encoded protein interacted with SigK. Together these findings indicate that Rv0444c encodes the regulator of SigK (RskA) and mutations in this gene explain high-level MPT70/MPT83 expression by certain MTC members.     

Synthesis of new verapamil analogues and their evaluation in combination with rifampicin against Mycobacterium tuberculosis and molecular docking studies in the binding site of efflux protein Rv1258c

New verapamil analogues were synthesized and their inhibitory activities against Mycobacterium tuberculosis H37Rv determined in vitro alone and in combination with rifampicin (RIF). Some analogues showed comparable activity to verapamil and exhibited better synergies with RIF. Molecular docking studies of the binding sites of Rv1258c, a M. tuberculosis efflux protein previously implicated in intrinsic resistance to RIF, suggested a potential rationale for the superior synergistic interactions observed with some analogues.     

Boerhaavia diffusa Extract Acts as a Specific Antituberculosis Agent in Vitro Against Mycobacterium tuberculosis H37Rv Infection

Doklady Biochemistry and Biophysics - The present study investigated Boerhaavia diffusa extract against Mycobacterium tuberculosis H37Rv (M.tb) infection in vitro and explored the underlying...     

tRNA genes in mycobacteria: organization and molecular cloning.

DNAs from nine mycobacteria cleaved with restriction endonucleases were hybridized with cDNA probes synthesized to tRNAs from Mycobacterium tuberculosis and Mycobacterium smegmatis. The tRNA genes are conserved, but their gross genomic organization has diverged in six of the nine species examined. Organisms of the M. tuberculosis H37Ra and H37Rv-M. bovis BCG complex appeared to have identical tRNA gene organization and were indistinguishable from each other. M. tuberculosis and M. smegmatis tRNA-derived cDNA probes hybridized differentially to tRNA-coding DNA segments in five of the species examined, suggesting the existence of qualitatively different tRNA pools in these slow- and fast-growing species. Mycobacterial DNAs hybridized with cDNA synthesized to 23S plus 16S rRNAs from Escherichia coli, and the data suggested that the tRNA genes map close to the rRNA genes. A gene bank of M. tuberculosis H37Rv DNA was constructed, and a recombinant plasmid, pSB2, coding for tRNA(s) and rRNA(s) was partially characterized. Plasmid pSB2 recognized a SalI restriction fragment length polymorphism (RFLP) in M. tuberculosis H37Rv and H37Ra; however, the RFLP is not linked to the tRNA-coding region. To the best of our knowledge, this is the first report of an RFLP which distinguishes the pathogenic strain M. tuberculosis H37Rv from its avirulent derivative H37Ra.     

Screening and comparison of differentially expressed genes between one MDR-TB strain and the virulent M. tuberculosis H37Rv

To screen and compare the differentially expressed genes between one MDR-TB strain separated from one child patient and the virulent Mycobacterium tuberculosis H37Rv, suppression subtractive hybridization (SSH) technology was used to build a library of cDNAs that were differentially expressed in the MDR and H37Rv. From this cDNA library, genes that were expressed in the MDR-TB but not in the H37Rv were selected for gene sequencing and homology analysis; 113 positive clones were obtained, their cDNA fragments were sequenced, and homology analysis was performed. Four novel sequences were identified. The results provide a partial list of genes differentially expressed in MDR-TB and four novel genes were found. Identification of these genes may contribute to our understanding of MDR-TB development.     

Prevalence of mutations at codon 463 of katG gene in MDR and XDR clinical isolates of Mycobacterium tuberculosis in Belarus and application of the method in rapid diagnosis

Isoniazid (INH) is a central component of drug regimens used worldwide to treat tuberculosis. In respect to high GC content of Mycobacterium tuberculosis, nonsynonymous mutations are dominant in this group. In this study a collection of 145 M. tuberculosis isolates was used to evaluate the conferring mutations in nucleotide 1388 of katG gene (KatG463) in resistance to isoniazid. A PCR-RFLP method was applied in comparison with DNA sequencing and anti-mycobacterial susceptibility testing. From all studied patients, 98 (67.6%) were men, 47 (32.4%) were women, 3% were <15 and 9% were >65 years old; male to female ratio was 1:2.4. PCR result of katG for a 620-bp amplicon was successful for all purified M. tuberculosis isolates and there was no positive M. tuberculosis culture with PCR negative results (100% specificity). Subsequent PCR RFLP of the katG identified mutation at KatG463 in 33.3%, 57.8% and 59.2% of our clinically susceptible, multidrug resistant TB (MDR) and extensively drug resistant (XDR) isolates, respectively. Strains of H37Rv and Academic had no any mutations in this codon. M. bovis was used as a positive control for mutation in KatG463. Automated DNA sequencing of the katG amplicon from randomly selected INH-susceptible and resistant isolates verified 100% sequence accuracy of the point mutations detected by PCR-RFLP. We concluded that codon 463 was a polymorphic site that is associated to INH resistance (a missense or "quiet" mutation). RFLP results of katG amplicons were identical to those of sequence method. Our PCR-RFLP method has a potential application for rapid diagnosis of M. tuberculosis with a high specificity.     

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.     

Efflux Pump Gene Expression in Multidrug-Resistant Mycobacterium tuberculosis Clinical Isolates

Isoniazid (INH) and rifampicin (RIF) are the two most effective drugs in tuberculosis therapy. Understanding the molecular mechanisms of resistance to these two drugs is essential to quickly diagnose multidrug-resistant (MDR) tuberculosis and extensive drug-resistant tuberculosis. Nine clinical Mycobacterium tuberculosis isolates resistant to only INH and RIF and 10 clinical pan-sensitive isolates were included to evaluate the expression of 20 putative drug efflux pump genes and sequence mutations in rpoB (RIF), katG (INH), the inhA promoter (INH), and oxyR-ahpC (INH). Nine and three MDR isolates were induced to overexpress efflux pump genes by INH and RIF, respectively. Eight and two efflux pump genes were induced to overexpress by INH and RIF in MDR isolates, respectively. drrA, drrB, efpA, jefA (Rv2459), mmr, Rv0849, Rv1634, and Rv1250 were overexpressed under INH or RIF stress. Most efflux pump genes were overexpressed under INH stress in a MDR isolates that carried the wild-type katG, inhA, and oxyR-ahpC associated with INH resistance than in those that carried mutations. The expression levels of 11 genes (efpA, Rv0849, Rv1250, P55 (Rv1410c), Rv1634, Rv2994, stp, Rv2459, pstB, drrA, and drrB) without drug inducement were significantly higher (P < 0.05) in nine MDR isolates than in 10 pan-sensitive isolates. In conclusion, efflux pumps may play an important role in INH acquired resistance in MDR M. tuberculosis, especially in those strains having no mutations in genes associated with INH resistance; basal expression levels of some efflux pump genes are higher in MDR isolates than in pan-sensitive isolates and the basal expressional differences may be helpful to diagnose and treat resistant tuberculosis.