Direct detection of isoniazid-resistant Mycobacterium tuberculosis in respiratory specimens by multiplex allele-specific polymerase chain reaction

This study evaluated the feasibility of using 2 multiplex allele-specific polymerase chain reaction (MAS-PCR) assays targeting 2 mutations (codon 315 of the katG gene and the 15th nucleotide preceding the mabA-inhA operon) to directly detect isoniazid (INH)-resistant Mycobacterium tuberculosis in cultured isolates and respiratory specimens. A total of 203 M. tuberculosis isolates and 487 respiratory specimens were investigated. The MAS-PCR assays successfully amplified all M. tuberculosis isolates and acid-fast bacilli smear-positive specimens while only 49.2% of the smear-negative specimens exhibited positive MAS-PCR results. The MAS-PCR assays identified 83.4% and 79.2% of the resistant strains in the culture isolates and respiratory specimens, respectively. All the inferred genotypes were in complete accordance with subsequent DNA sequence analyses. This study suggested the application of our improved MAS-PCR protocols to provide the rapid identification of INH-resistant M. tuberculosis directly in respiratory specimens. The technical simplicity, short turnaround time, and low cost of this molecular strategy should facilitate routine diagnostic services in developing areas with a high prevalence of drug-resistant tuberculosis.     

Molecular characterization of isoniazid-resistant Mycobacterium tuberculosis isolates collected in Australia

Elucidation of the molecular basis of isoniazid (INH) resistance in Mycobacterium tuberculosis has led to the development of different genotypic approaches for the rapid detection of INH resistance in clinical isolates. Mutations in katG, in particular the S315T substitution, are responsible for INH resistance in a large proportion of tuberculosis cases. However, the frequency of the katG S315T substitution varies with population samples. In this study, 52 epidemiologically unrelated clinical INH-resistant M. tuberculosis isolates collected in Australia were screened for mutations at katG codon 315 and the fabG1-inhA regulatory region. Importantly, 52 INH-sensitive isolates, selected to reflect the geographic and genotypic diversity of the isolates, were also included for comparison. The katG S315T substitution and fabG1-inhA -15 C-to-T mutation were identified in 34 and 13 of the 52 INH-resistant isolates, respectively, and none of the INH-sensitive isolates. Three novel katG mutations, D117A, M257I, and G491C, were identified in three INH-resistant strains with a wild-type katG codon 315, fabG1-inhA regulatory region, and inhA structural gene. When analyzed for possible associations between resistance mechanisms, resistance phenotype, and genotypic groups, it was found that neither the katG S315T nor fabG1-inhA -15 C-to-T mutation clustered with any one genotypic group, but that the -15 C-to-T substitution was associated with isolates with intermediate INH resistance and isolates coresistant to ethionamide. In total, 90.4% of unrelated INH-resistant isolates could be identified by analysis of just two loci: katG315 and the fabG1-inhA regulatory region.     

应用多重PCR-单链构象多态性分析同时检测耐异烟肼和利福平的结核分枝杆菌

目的 探讨应用多重PCR-单链构象多态性分析(multiplexpulymerase chain reaction-single strand conformation polymorphism,multi-PCR-SSCP)方法快速、特异地同时快速检测结核分枝杆菌对异烟肼和利福平耐药性的效能.方法 根据结核分枝杆菌的inhA序列、katG序列、rpoB序列,分别设计出3对特异性寡聚核苷酸引物.采用multi-PCR-SSCP技术,一次性检出耐异烟肼和利福平的结核分枝杆菌.新方法的有效性通过116株临床分离株(70株耐异烟肼,66株耐利福平)的验证.结果 名 Multi-PCR-SSCP方法检测临床分离株基因突变的有效性,以细菌培养和药敏试验结果为金标准.116株临床分离株和H37Rv标准株中除了4株katG缺失突变,其余菌株3个基因katG、inhA和rpoB在单基因PCR中都扩增成功.与H37Rv标准株相比,46株katG基因突变,14株inhA基因突变,58株rpoB基因突变.38株katG和rpoB,4株inhA和rpoB,4株inhA和katG同时突变,还有2株3个基因都有突变.multi-PCR-SSCP对于耐异烟肼和利福平的结核分枝杆菌检出的敏感度分别为80%、82%,特异度分别为100%和92%.结论 multi-PCR-SSCP方法敏感、特异,能同时快速有效地检测耐多药结核分枝杆菌,有望成为临床指导用药的好方法,为深入研究耐药基凶检测奠定了良好的基础.     

Rapid detection of specific gene mutations associated with isoniazid or rifampicin resistance in Mycobacterium tuberculosis clinical isolates using non-fluorescent low-density DNA microarrays

BACKGROUND: A new, fast 'low cost and density' DNA microarray (LCD array), designed for the detection of mutations that confer isoniazid or rifampicin resistance in Mycobacterium tuberculosis isolates, has been developed and was evaluated using 46 resistant clinical isolates from Barcelona. METHODS: LCD chips are pre-structured polymer supports using a non-fluorescent detection principle based on the precipitation of a clearly visible dark substrate. One LCD chip consists of eight identical microarrays, designed to detect mutations within the 90 bp rpoB region, codon 315 in the katG gene and the mabA-inhA regulatory region. A total of 22 strains with a katG 315 mutation, 19 strains with alterations in the mabA-inhA regulatory region and 16 strains with mutations in the rpoB region, characterized previously, were studied. RESULTS: The identification of S315T and S315N mutations using the LCD was 100% concordant with the sequencing data. A strain with the S315R mutation, which is not tiled on the LCD array, was detected by the absence of hybridization using the wild-type probe. Of 19 strains with low-level isoniazid resistance related to the mabA-inhA regulatory region, 18 were identified correctly. The detection of mutations in the rpoB region was 93.8% concordant with the sequencing data. One mabA-inhA and rpoB mutated strain showed a cross-hybridization. CONCLUSIONS: The LCD array protocol takes 45 min (15 min 'hands-on' time) after prior PCR amplification. Only minimal laboratory equipment is required. LCD arrays provide a rapid and economical method to characterize mutations in codon 315 of the katG gene, in the mabA-inhA regulatory region and in the rpoB gene.     

Molecular characterization of isoniazid-resistant Mycobacterium tuberculosis clinical isolates in Lithuania

Mutations at codon 315 of the katG gene were detected in 312 of 364 (85.7%) isoniazid-resistant Mycobacterium tuberculosis isolates. Seven of 52 (13.5%) isoniazid-resistant isolates with the wild-type Ser315 codon and 10 of 52 (19.2%) isoniazid-resistant isolates with a mutated katG allele had mutation -15C-->T in the promoter of the mabA-inhA operon.     

Single nucleotide polymorphisms in genes associated with isoniazid resistance in Mycobacterium tuberculosis

Isoniazid (INH) is a central component of drug regimens used worldwide to treat tuberculosis. Previous studies have identified resistance-associated mutations in katG, inhA, kasA, ndh, and the oxyR-ahpC intergenic region. DNA microarray-based experiments have shown that INH induces several genes in Mycobacterium tuberculosis that encode proteins physiologically relevant to the drug's mode of action. To gain further insight into the molecular genetic basis of INH resistance, 20 genes implicated in INH resistance were sequenced for INH resistance-associated mutations. Thirty-eight INH-monoresistant clinical isolates and 86 INH-susceptible isolates of M. tuberculosis were obtained from the Texas Department of Health and the Houston Tuberculosis Initiative. Epidemiologic independence was established for all isolates by IS6110 restriction fragment length polymorphism analysis. Susceptible isolates were matched with resistant isolates by molecular genetic group and IS6110 profiles. Spoligotyping was done with isolates with five or fewer IS6110 copies. A major genetic group was established on the basis of the polymorphisms in katG codon 463 and gyrA codon 95. MICs were determined by the E-test. Semiquantitative catalase assays were performed with isolates with mutations in the katG gene. When the 20 genes were sequenced, it was found that 17 (44.7%) INH-resistant isolates had a single-locus, resistance-associated mutation in the katG, mabA, or Rv1772 gene. Seventeen (44.7%) INH-resistant isolates had resistance-associated mutations in two or more genes, and 76% of all INH-resistant isolates had a mutation in the katG gene. Mutations were also identified in the fadE24, Rv1592c, Rv1772, Rv0340, and iniBAC genes, recently shown by DNA-based microarray experiments to be upregulated in response to INH. In general, the MICs were higher for isolates with mutations in katG and the isolates had reduced catalase activities. The results show that a variety of single nucleotide polymorphisms in multiple genes are found exclusively in INH-resistant clinical isolates. These genes either are involved in mycolic acid biosynthesis or are overexpressed as a response to the buildup or cellular toxicity of INH.     

Mutations in katG gene sequences in isoniazid-resistant clinical isolates of Mycobacterium tuberculosis are rare.

In this study, a battery of oligonucleotides was directed toward the katG gene and PCR-single-stranded conformation polymorphism (SSCP) analysis was used to search for katG gene deviations in clinical isolates of Mycobacterium tuberculosis from different geographical regions. Since a complete deletion of the katG gene was not found, it is suggested that deletion is not a major mechanism of isoniazid (isonicotinic acid hydrazide; INH) resistance in these isolates. However, 7 of 39 isolates (4 of 25 from South Africa and 3 of 14 from other geographical regions) showed mobility shifts by SSCP analysis, suggesting aberrations in the katG gene. Direct sequence analysis confirmed that the mobility shifts were due to Thr-275-->Ala (Thr275Ala), Arg409Ala, Arg463Leu, and Asp695Ala mutations and a 12-bp deletion in the 5' region of the katG gene. Mutations at codons 275, 463, and 695 created altered restriction sites for HhaI, MspI, and HaeIII, respectively, and sequence results, supported by restriction fragment length polymorphism analysis, suggested that the PCR-SSCP procedure is a good indicator of mutations in PCR-amplified fragments. Identical mutations at codons 463 and 275 were found in isolates from different geographical regions. This may suggest a common evolutionary event, but one of the control isolates (susceptible to INH [3%; n = 30]) also had a mutation at codon 463. The results suggest that variations in the katG coding gene sequences of INH-resistant isolates of M. tuberculosis are infrequent and that defects in other regions of the M. tuberculosis genome are of equal or greater importance in contributing to the acquisition of resistance to INH.     

结核分枝杆菌katG、inhA、ahpC等突变与异烟肼耐药关系的研究

目的：了解结核分枝杆菌katG、inhA、ahpC、fabG1、sodA及sodC基因突变的特征及其与耐异烟肼的关系。方法对127例活动性肺结核患者痰标本进行菌型鉴定及结核分枝杆菌药敏试验,提取结核分枝杆菌菌株DNA,应用PCR扩增katG、inhA及ahpC、fabG1、sodA及sodC基因片段,并进行DNA序列分析。结果结核分枝杆菌药物敏感试验显示127株结核分枝杆菌中,其中47株耐异烟肼,80株对异烟肼敏感,耐异烟肼率为37.01%。47株耐异烟肼中,29株存在katG和（或）inhA基因突变,其中22株（46.81%,22/47）存在katG基因单位点突变,3株（6.38%,3/47）存在inhA基因单位点突变,4株（8.51%,4/47）存在katG及inhA基因联合位点突变。22株katG基因单位点突变中,20株为AGC315ACC、AGC315AAC （42.55%,20/47）突变,2株（2.13%,1/47）分别为CTG378CCG（Leu378Pro）、ACG394ATG（Thr394Met）突变,该突变位点及突变形式尚未见文献报道。18株katG及inhA未突变结核分枝杆菌均未检测到ahpC、fabG1、sodA及sodC基因突变。结论结核分枝杆菌对异烟肼耐药主要与katG和inhA基因突变有关。耐异烟肼结核分枝杆菌临床分离株378和394新突变位点的发现为进一步研究耐药机制以及耐药结核病的快速检测提供了依据。     

Molecular characteristics of rifampicin- and isoniazid-resistant Mycobacterium tuberculosis isolates from the Russian Federation

OBJECTIVES: Three Mycobacterium tuberculosis genetic loci--rpoB and katG genes and the fabG1(mabA)-inhA operon promoter region--were studied to reveal the mutations associated with rifampicin and isoniazid resistance. METHODS: Four hundred and twelve isolates of M. tuberculosis from different regions of the Russian Federation were collected during 1997-2005. A matrix-assisted laser-desorption ionization-time-of-flight mass spectrometry (MALDI-TOF MS)-based minisequencing method was used for the detection of mutations. RESULTS: Thirteen different variants of single mutations in codons 533, 531, 526, 516, 513 and 511 of the rifampicin resistance-determining region of the rpoB gene as well as the TTG insertion in the 514a position were found among the rifampicin-resistant isolates. Single nucleotide substitutions in codons 531, 526 and 516 (64.8%, 10.3% and 7.7%, respectively) were the most prevalent mutations. Codon 526 was shown to be the most variable of all. No mutations were detected in rpoB genes for 29 (10.7%) of the rifampicin-resistant isolates. 76.9% of the isoniazid-resistant isolates carried single mutations in codon 315 of the katG gene. For another 12.9% of them, double mutations in the katG gene and the fabG1(mabA)-inhA promoter region were revealed. No mutations were detected in 8.2% of the isoniazid-resistant isolates. CONCLUSIONS: Molecular analysis of the loci of rpoB and katG genes and the inhA promoter region of 412 M. tuberculosis clinical isolates from various parts of the Russian Federation was carried out. The new MALDI-TOF MS-based method may be used for rapid and accurate monitoring of the spread of drug resistance.     

katG基因二个不同区域基因变异与结核分枝杆菌异烟肼耐药的相关性研究

目的 分析结核分枝杆菌katG基因2个不同区域的基因变异,并确定与INH耐药的相关性.方法 从痰液分离并鉴定结核分枝杆菌耐INH菌株53株,用PCR扩增katG基因的2个区域:区域1为第1位密码子至150位密码子,区域2为第227位密码子至470位密码子,并分别测序.结果 3株对INH耐药但2个区域都不发生突变.14株区域1存在突变,其中5株只在区域1存在突变,5株在区域1出现缺失突变,并呈现高度耐药.点突变是区域2的主要特点,特别是S315位密码子,60.4%(32/53)S315发生突变,最常见的是S315N(AGC→AAC)(18株);katG S315在高度INH耐药和低度INH耐药的结核分枝杆菌中突变率分别是84.4%(27/32)、15.6%(5/32),两组间差异有统计学意义(x2=30.25,P＜0.01).27株S315突变呈高度耐药,占S315突变菌株总数的84.4%,其余18株至少有一个非S315点突变的耐药株中高度耐药只有5株,占27.7%,两组间差异有统计学意义(x2=16.02,P＜0.01).对INH耐药的结核分枝杆菌区域2的突变发生率为84.9%.5株只在区域1存在突变,通过检测基因突变诊断INH耐药的检出率上升至94.3%.结论 S315突变发生率最高,突变类型和位置与耐药程度密切相关,分析区域1能使检出率提高9.4%.

Abstract：

Objective To analyze and compare the mutations in two different regions of the katG gene and study the relevance of Mycobacterium tuberculosis isoniazid-resistance and mutations in two different regions of the katG gene. Methods Fifty-three INH-resistant Mycobacterium tuberculosis strains isolated in cultures of sputum samples obtained from Zhejiang province were analyzed. PCR was used to amplify two regions of the katG gene (GenBank accession no. U06258) region 1 (from codon 1 to codon 150) and region 2 ( from codon 227 to codon 470) which were then sequenced in order to identify mutations. Results Three strains resistant to INH did not contain mutations in either region. Fourteen strains carried mutations in region 1. Among them 5 strains barbered deletions, and showed high-level resistance to isoniazid. Five strains had mutations only in region 1. Region 2 carried multiple point mutations, especially at codon 315, and there were S315 N ( AGC→AAC ) substitution in 18 of those cases. The frequency of mutations in the katG S315 of high-level INH-resistance isolates ( 84. 4%, 27/32) was significantly higher than those of low-level INH-resistance isolates( 15.6%, 5/32 ), there was statistically significant difference (x2 = 30. 25, P ＜ 0. 01 ).katG S315 mutations in high-level INH-resistance frequency (84. 4%, 27/32) was significantly higher than the other mutations of katG gene of high-level INH-resistance frequency (27. 7%, 5/18 ), there was significant difference (x2 = 16.02, P ＜ 0. 01 ). The analysis of region 2 allowed INH resistance to be diagnosed in 84. 9% of the strains. Five strains had mutations only in region 1 ,which allowed the proportion of INH-resistant strains identified to be increased to 94. 3%. Conclusions The number of mutations at codon 315 was high. Mutation type and location closely related with drug resistance and the analysis of region 1 resulted in a 9. 4% increase in the rate at which mutations were identified.     

Characterization of the katG and inhA genes of isoniazid-resistant clinical isolates of Mycobacterium tuberculosis.

Resistance to isoniazid in Mycobacterium tuberculosis has been associated with mutations in genes encoding the mycobacterial catalase-peroxidase (katG) and the InhA protein (inhA). Among the 26 isoniazid-resistant clinical isolates evaluated in this study, mutations in putative inhA regulatory sequences were identified in 2 catalase-positive isolates, katG gene alterations were detected in 20 strains, and 4 isolates had wild-type katG and inhA genes. Mutations in the katG gene were detected in all 11 catalase-negative isolates: one frameshift insertion, two partial gene deletions, and nine different missense mutations were identified. An arginine-to-leucine substitution at position 463 was detected in nine catalase-positive isolates. However, site-directed mutagenesis experiments demonstrated that the presence of a leucine at codon 463 did not alter the activity of the M. tuberculosis catalase-peroxidase and did not affect the capacity of this enzyme to restore isoniazid susceptibility to isoniazid-resistant, KatG-defective Mycobacterium smegmatis BH1 cells. These studies further support the association between katG and inhA gene mutations and isoniazid resistance in M. tuberculosis, while also suggesting that other undefined mechanisms of isoniazid resistance exist.     

Isoniazid induces its own resistance in nonreplicating Mycobacterium tuberculosis

Isoniazid (INH) resistance is most frequent among drug-resistant Mycobacterium tuberculosis clinical isolates. This study was conducted to investigate whether INH could induce its own resistance. During INH susceptibility testing in BACTEC 12B and MGIT 960 media, weekly subcultures were made from the drug-containing media into fresh medium without drug and susceptibility testing was performed. Rifampin (RIF) was used as a control drug. M. tuberculosis H37Rv and three clinical isolates were tested in this study. INH-resistant subcultures were analyzed for catalase activity, INH susceptibility, and mutations associated with INH resistance. With inoculum size (10(4) bacilli) smaller than a size that contains spontaneously INH-resistant mutants, INH was found to induce resistance to itself in INH-tolerant persisters but not to other drugs. The minimum time required for induction of INH resistance was 5 to 6 days. In contrast, RIF did not induce RIF resistance. Eight subcultures with INH-induced resistance were analyzed, and two had a MIC of 0.4 microg/ml INH and six had MICs of over 2 microg/ml INH. Four of the eight subcultures with INH-induced resistance had lost catalase activity, with three having katG mutations. Despite being a powerful frontline tuberculosis drug, INH has the potential drawback of inducing its own stable genetic resistance in INH-tolerant persisters. This finding helps to explain the higher frequency and prevalence of INH-resistant isolates than isolates with resistance to other drugs in patients.     

Molecular characterization of multidrug-resistant Mycobacterium tuberculosis isolated in Nepal

Despite the fact that Nepal is one of the first countries globally to introduce multidrug-resistant tuberculosis (MDR-TB) case management, the number of MDR-TB cases is continuing to rise in Nepal. Rapid molecular tests applicable in this setting to identify resistant organisms would be an effective tool in reversing this trend. To develop such tools, information about the frequency and distribution of mutations that are associated with phenotypic drug resistance in Mycobacterium tuberculosis is required. In the present study, we investigated the prevalence of mutations in rpoB and katG genes and the inhA promoter region in 158 M. tuberculosis isolates (109 phenotypically MDR and 49 non-MDR isolates collected in Nepal) by DNA sequencing. Mutations affecting the 81-bp rifampin (RIF) resistance-determining region (RRDR) of rpoB were identified in 106 of 109 (97.3%) RIF-resistant isolates. Codons 531, 526, and 516 were the most commonly affected, at percentages of 58.7, 15.6, and 15.6%, respectively. Of 113 isoniazid (INH)-resistant isolates, 99 (87.6%) had mutations in the katG gene, with Ser315Thr being the most prevalent (81.4%) substitution. Mutations in the inhA promoter region were detected in 14 (12.4%) INH-resistant isolates. The results from this study provide an overview of the current situation of RIF and INH resistance in M. tuberculosis in Nepal and can serve as a basis for developing or improving rapid molecular tests to monitor drug-resistant strains in this country.     

核酸薄膜技术快速检测结核分枝杆菌katG突变的研究

目的研制一种新的核苷酸薄膜,通过导流杂交技术检测结核分枝杆菌katG基因突变类型,以快速判断结核分枝杆菌对异烟肼的耐受性,寻找一种快速简便检测耐异烟肼结核病的方法。方法根据结核分枝杆菌katG基因序列设计1个野生型及2个常见突变型寡核苷酸特异探针,探针5’末端连接亚甲基(-CH2)。同时设计1个人类基因组探针以及1个生物素探针。制作低密度核苷酸薄膜微阵距列,通过导流杂交技术进行杂交,将杂交结果与DNA测序法对照。结果核酸测序显示,突变位点分别出现在包括315位点在内的7个位点,315位点突变占75.0%(18/24),最常见突变形式为AGC315ACC所致Ser315Thr氨基酸改变。杂交结果与测序结果符合率为93.9%(31/33),与DNA测序相比,其阳性预测值、阴性预测值、敏感度、特异度分别为90.0%、100%、100%、86.7%。结论核酸薄膜导流杂交技术能快速、简便、高效地检测临床标本中有无结核分枝杆菌,并可提示结核分枝杆菌有无异烟肼耐药性,指导临床用药。     

基因芯片技术在结核分支杆菌耐药突变基因检测中的应用

目的通过基因芯片检测系统，快速检测临床样品中结核分支杆菌耐药突变情况。方法根据结核分支杆菌标准株H37Rv序列，设计了覆盖rpoB、katG，inhA基因突变区的系列寡核苷酸探针，制作膜芯片，检测临床样品中结核分支杆菌基因突变情况，以此判断耐药结果。结果在305例临床病例中，共检出阳性病例125例，其中阳性敏感病例64例，阳性突变病例61例，阳性率为40．98％，在125例阳性样品中，共发现有8种突变类型，其中10例531L，占7．94％，19例315M，占阳性样品中总数的15．08％。结论PCR与膜芯片杂交技术可临床检测结核分支杆菌对利福平和异烟肼的耐药性，并具有快速、简便、敏感的特点。     

Genetic and phenotypic characterization of drug-resistant Mycobacterium tuberculosis isolates in Hong Kong

OBJECTIVES: To characterize 250 drug-resistant Mycobacterium tuberculosis (MTB) isolates in Hong Kong with respect to their drug susceptibility phenotypes to five common anti-tuberculosis drugs (ofloxacin, rifampicin, ethambutol, isoniazid and pyrazinamide) and the relationship between such phenotypes and the patterns of genetic mutations in the corresponding resistance genes (gyrA, rpoB, embB, katG, inhA, ahpC and pncA). METHODS: The MIC values of the aforementioned anti-tuberculosis drugs were determined for each of the 250 drug-resistant MTB clinical isolates by the absolute concentration method. Genetic mutations in the corresponding resistance genes in these MTB isolates were identified by PCR-single-stranded conformation polymorphism/multiplex PCR amplimer conformation analysis (SSCP/MPAC), followed by DNA sequencing of the purified PCR products. RESULTS: Resistance to four or five drugs was commonly observed in these MTB isolates; such phenotypes accounted for over 34% of the 250 isolates. The most frequently observed phenotypes were those involving both rifampicin and isoniazid, with or without additional resistance to the other drugs. A total of 102 novel mutations, which accounted for 80% of all mutation types detected in the 7 resistance genes, were recovered. Correlation between phenotypic and mutational data showed that genetic changes in the gyrA, rpoB and katG genes were more consistently associated with a significant resistance phenotype. Despite this, however, a considerable proportion of resistant MTB isolates were found to harbour no detectable mutations in the corresponding gene loci. CONCLUSIONS: These findings expand the spectrum of potential resistance-related mutations in MTB clinical isolates and help consolidate the framework for the development of molecular methods for delineating the drug susceptibility profiles of MTB isolates in clinical laboratories.     

聚合酶链反应-测序技术快速检测耐异烟肼结核分枝杆菌KatG基因突变的研究

目的应用PCR-DNA测序技术快速检测耐异烟肼结核分枝杆菌分离株KatG基因突变,评价其在检测结核分枝杆菌异烟肼耐药性方面的应用价值。方法47株耐异烟肼结核分枝杆菌临床分离株及30株结核分枝杆菌敏感分离株用PCR-DNA测序技术检测KatG基因突变。结果47株耐异烟肼结核分枝杆菌分离株中,有31株KatG基因检出有突变,突变检出率为66.0%(31/47);30株结核分枝杆菌敏感株检出1株KatG基因突变。结论PCR-DNA测序技术方法敏感、准确、特异,可快速检测结核分枝杆菌KatG耐药基因突变,有利于耐异烟肼结核分枝杆菌耐药性的快速检测。     

探针熔解分析法检测结核分枝杆菌异烟肼耐药突变的应用和评价

目的 评价PMA技术检测MTB对INH耐药突变的价值,调查INH耐药突变发生特征.方法 MTB标准株H37Rv来自国家结核病参比实验室,1株INH敏感株和1株katG S315TACC突变株来自厦门市疾病预防控制中心,7株含有已知INH耐药突变的结核耐药株来自深圳慢性病防治中心、河南省疾病预防控制中心、中国人民解放军第309医院和厦门市疾病预防控制中心.707份MTB临床分离株来自厦门市疾病预防控制中心、厦门市第一医院和漳州市疾病预防控制中心,126份MTB涂阳痰标本来自厦门市同安区疾病预防控制中心.MTB标准株H37Rv、7株MTB INH耐药株和833份临床标本均采用厦门致善结核分枝杆菌异烟肼耐药突变检测试剂盒热裂解法提取基因组DNA,1株INH敏感株和1株katG S315T ACC突变株采用AxyPrepTM细菌基因组DNA提取试剂盒提取基因组DNA.熔解曲线分析所检标本与野生型对照在katG315位密码子、inhA启动子区(- 17～-8位点)、ahpC启动子区(-44～-30以及-15 ～3位点)及inhA94位密码子的熔解温度(Tm值)差异判断标本是否发生INH耐药突变.3×105拷贝/反应的野生株和katG S315T ACC突变株以10倍梯度稀释至300拷贝/反应,分析PMA技术的灵敏度.用PMA技术检测7株含有已知INH耐药突变的结核耐药株,评价特异性,并就其中5种耐药突变进行重复性检验.测序验证PMA技术对833份标本INH耐药性的临床检测效能.结果 PMA技术从核酸提取到结果判断可在3小时内完成,在标准96孔实时PCR仪器上可同时检测46份标本.对野生株和katG S315T ACC突变株的灵敏度均为300拷贝/反应,能够同时区分9种INH耐药相关点突变或缺失,5种耐药突变的Tm值标准偏差均在0.5℃之内.检出的162份突变标本与测序验证结果均一致.临床标本验证突变率为19.4％( 162/833),在所检出的14种INH耐药突变katGS315T( AGC →ACC)、inhA启动子区- 15C→T和katG S315N (AGC→AAC)这3种突变占INH耐药突变标本的83.3％(135/162).结论 PMA技术可快速、灵敏、特异检测结核INH耐药突变.     

临床分离的结核分枝杆菌的耐药性分析

目的了解海盐县分离自肺结核病人的结核分枝杆菌耐药基因突变率及耐药情况,以利抗结核治疗中抗菌药物的合理选用。方法对痰涂片阳性的新发初治和复治肺结核病人进行痰结核分枝杆菌培养,阳性菌株采用高、低两种药物浓度,四种抗结核药物耐药性测试,同时用实时PCR法对结核分枝杆菌的耐药基因rpoB和katG突变进行检测。结果131例痰培养阳性菌株总耐药率为14.5%,其中初治耐药率7.8%,复治耐药率38.2%,对四种抗结核药物的耐药率依次为异烟肼9.2%,利福平4.6%,链霉素4.6%,乙胺丁醇0.8%。耐药基因检测结果,在初治组中rpoB和katG的突变率为12.7%(13/102)和10.8%(11/102)。复治组中rpoB和katG的突变率为31.0%(9/29)和20.7%(6/29)。结论本地区分离自结核病人的结核分枝杆菌在初始治疗时已存在耐药性,而药物治疗有可能使其耐药性增加。结果表明抗结核治疗前及在治疗过程中对结核分枝杆菌进行耐药性及耐药基因检测很有意义。     

Improved real-time PCR for rapid detection of rifampin and isoniazid resistance in Mycobacterium tuberculosis clinical isolates

In this study we designed two pairs of probes for the detection of rifampin and isoniazid resistance in Mycobacterium tuberculosis with real-time PCR procedures. One pair of probes spans the region between codon 510 and 528 of the rpoB gene, and the other one screens for mutation at the regulatory region of the inhA gene. We have evaluated these probes in combination with two other pairs of probes previously described to detect mutations in 20 susceptible and 53 unique resistant M. tuberculosis clinical isolates. We were able to detect nine different mutations affecting five codons of the rpoB gene, two different mutations at codon 315 of the katG gene and a nucleotide substitution (C209T) in the regulatory region of the inhA gene within two hours turnaround.