Evaluation of the CombiChip Mycobacteria Drug-Resistance detection DNA chip for identifying mutations associated with resistance to isoniazid and rifampin in Mycobacterium tuberculosis

The CombiChip Mycobacteriatrade mark Drug-Resistance Detection DNA chip, recently developed by GeneIn (Pusan, South Korea), is an oligonucleotide microchip coupled with polymerase chain reaction for the detection of mutations associated with resistance to isoniazid (INH) and rifampin (RIF). This oligonucleotide chip was compared with DNA sequencing and phenotypic drug susceptibility testing with 69 INH- and/or RIF-resistant and 27 all tested drug-susceptible Mycobacterium tuberculosis isolates. Two selected codons (the katG codon 315 and inhA15) allowed identification of 84.1% of INH-resistant isolates and 100% of RIF resistance were detected by screening for 7 codons: rpoB511, rpoB513, rpoB516, rpoB522, rpoB526, rpoB531, and rpoB533. The overall specificity of this oligonucleotide chip for detecting INH and RIF resistance were 100 and 95.3%, respectively. This level of sensitivity and specificity is concordant with that from the determination of M. tuberculosis drug resistance by DNA sequencing. This oligonucleotide chip is a rapid and reliable genotypic method capable of detecting multiple mutations associated with INH and RIF resistance simultaneously in a single microchip slide.     

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.     

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。     

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.     

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.     

基因芯片诊断耐多药结核病的临床多中心研究

目的 评估基因芯片法检测耐多药结核临床分离株的临床意义。方法采取分层抽样的方法分别从北京胸科医院、同济大学附属上海市肺科医院和广州市胸科医院保存的临床菌株库的耐药组和敏感组中,随机抽取利福平耐药株800株,异烟肼耐药株797株,耐多药株791株,利福平/异烟肼双敏感380株。用基因芯片法检测包括rpoB基因的511(T→C)、513(A→C,C→A)、516( G→T,A→T,A→G)、526( C→T,C→G,A→T,A→G)、531( C→T,C→G)、533( T→C)位点、katG的315(G→C,G→A)位点和inhA的-15(C→T)位点的耐药突变。以绝对浓度法药敏结果为金标准,计算基因芯片法的符合率、敏感度和特异度。同时对基因芯片法的核酸扩增产物进行测序,以验证基因芯片对核酸序列检测的准确性。结果以绝对浓度法药敏结果作为标准,基因芯片法检测利福平、异烟肼耐药和耐多药的符合率分别是93.7％(1 108/1 183)、83.8％ (994/1 186)、82.4％ (975/1 183)。检测利福平耐药的敏感度为92.0％ (733/797),特异度为97.2％( 375/386);检测异烟肼的敏感度为77.4％ (617/797),特异度为96.9％ (377/389);检测耐多药的敏感度为74.6％( 588/788),特异度为98.0％(387/395)。在利福平基因芯片检测为突变的菌株中,突变频率最高的位点是531( TCG),突变率为64.5％(480/744);在katG/ inhA突变菌株中,基因芯片检测为katG 315( AGC)单突变的为77.4％(487/629);且与测序结果基本一致,仅有5例菌株中不完全相符。其中1株异烟肼耐药菌基因芯片法检测为katG 315(G→C)突变,而测序结果为野生型,其余4株为基因芯片法未包含的突变类型。结论基因芯片法可快速可靠地检测结核临床分离株利福平和异烟肼的耐药性,有望在临床诊断中广泛应用。     

Molecular detection of mutations associated with first- and second-line drug resistance compared with conventional drug susceptibility testing of Mycobacterium tuberculosis

The emergence of multi- and extensively drug-resistant tuberculosis is a significant impediment to the control of this disease because treatment becomes more complex and costly. Reliable and timely drug susceptibility testing is critical to ensure that patients receive effective treatment and become noninfectious. Molecular methods can provide accurate and rapid drug susceptibility results. We used DNA sequencing to detect resistance to the first-line antituberculosis drugs isoniazid (INH), rifampin (RIF), pyrazinamide (PZA), and ethambutol (EMB) and the second-line drugs amikacin (AMK), capreomycin (CAP), kanamycin (KAN), ciprofloxacin (CIP), and ofloxacin (OFX). Nine loci were sequenced: rpoB (for resistance to RIF), katG and inhA (INH), pncA (PZA), embB (EMB), gyrA (CIP and OFX), and rrs, eis, and tlyA (KAN, AMK, and CAP). A total of 314 clinical Mycobacterium tuberculosis complex isolates representing a variety of antibiotic resistance patterns, genotypes, and geographical origins were analyzed. The molecular data were compared to the phenotypic data and the accuracy values were calculated. Sensitivity and specificity values for the first-line drug loci were 97.1% and 93.6% for rpoB, 85.4% and 100% for katG, 16.5% and 100% for inhA, 90.6% and 100% for katG and inhA together, 84.6% and 85.8% for pncA, and 78.6% and 93.1% for embB. The values for the second-line drugs were also calculated. The size and scope of this study, in numbers of loci and isolates examined, and the phenotypic diversity of those isolates support the use of DNA sequencing to detect drug resistance in the M. tuberculosis complex. Further, the results can be used to design diagnostic tests utilizing other mutation detection technologies.     

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.     

耐多药结核分枝杆菌耐药相关基因突变特征分析

目的了解中国耐多药结核分枝杆菌耐药相关基因的分子特征。方法对138株耐多药结核分枝杆菌和45株敏感菌的耐药相关基因inhA、katG和oxyR-ahpC间隔区(异烟肼)、rpob(利福平)、gyrA(氧氟沙星)和rrs(卡那霉素)进行序列测定,分析其基因突变特点。结果 138株耐多药结核分枝杆菌中,14.4%的菌株inhA基因发生突变,72.5%菌株的katG基因发生突变,15.9%菌株的oxyR-ahpC基因发生突变,同时考虑这3种基因,异烟肼耐药相关基因突变检出率可达90.6%;94.2%菌株的rpoB基因发生突变,74.5%菌株的gyrA基因发生突变,61.1%菌株的rrs基因发生突变,主要的突变位点为katG315(66.7%),inhA-15(9.4%),oxyR-ahpC-10(5.1%),rpoB516(13.8%),526(26.1%)和531(49.3%),gyrA90(21.6%)和94(51%),rrs1401(61.1%)。结论我国耐多药结核菌异烟肼、利福平、氧氟沙星和卡那霉素耐药相关基因最常见突变为katG315、inhA-15,rpoB531、526和516,gyrA94和90,rrs1401。     

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.     

Analysis of drug resistance and mutation profiles in Mycobacterium tuberculosis isolates in a surveillance site in Beijing,China

ObjectiveThis study analyzed drug resistance and mutations profiles in Mycobacterium tuberculosis isolates in a surveillance site in Huairou District, Beijing, China.MethodsThe proportion method was used to assess drug resistance profiles for four first-line and seven second-line anti-tuberculosis (TB) drugs. Molecular line probe assays were used for the rapid detection of resistance to rifampicin (RIF) and isoniazid (INH).ResultsAmong 235 strains of M. tuberculosis, 79 (33.6%) isolates were resistant to one or more drugs. The isolates included 18 monoresistant (7.7%), 19 polyresistant (8.1%), 28 RIF-resistant (11.9%), 24 multidrug-resistant (MDR) (10.2%), 7 pre-extensively drug-resistant (XDR, 3.0%), and 2 XDR strains (0.9%). A higher rate of MDR-TB was detected among previously treated patients than among patients with newly diagnosed TB (34.5% vs. 6.8%). The majority (62.5%) of RIF-resistant isolates exhibited a mutation at S531L in the DNA-dependent RNA polymerase gene. Meanwhile, 62.9% of INH-resistant isolates carried a mutation at S315T1 in the katG gene.ConclusionOur results confirmed the high rate of drug-resistant TB, especially MDR-TB, in Huairou District, Beijing, China. Therefore, detailed drug testing is crucial in the evaluation of MDR-TB treatment.     

广西壮族自治区结核分枝杆菌异烟肼与利福平耐药基因联合突变特征分析

  目的   了解广西壮族自治区（广西）结核分枝杆菌异烟肼与利福平耐药基因联合突变特征，为耐多药结核病的分子诊断和治疗提供依据。  方法   2017—2018年从广西30个结核病防治定点机构收集的结核分枝杆菌中选取49株耐多药菌株和459株全敏感菌株进行全基因组测序。  结果   耐多药表型与基因联合突变的符合率为71.43%。 单基因突变率和基因联合突变率在耐多药菌株中均高于全敏感菌株（χ2=5.753，P=0.016; χ2=284.034，P<0.001）。 katG和rpoB的单基因突变率在耐多药菌株中高于全敏感菌株（χ2=7.524，P=0.006; χ2=4.353，P=0.037）。 katG＋rpoB基因联合突变在耐多药菌株中高于全敏感菌株（χ2=279.956，P<0.001）。 在基因联合突变的位点分布中，以katG315＋rpoB450和katG315＋rpoB445位点突变为主，占40.82%（20/49），2种形式的基因位点联合突变率在耐多药菌株中均高于全敏感菌株（χ2=144.232，P<0.001; χ2=19.014，P<0.001）。  结论   对异烟肼和利福平耐药基因联合突变的检测可作为广西耐多药筛查的重要指标。 广西结核分枝杆菌异烟肼和利福平耐药基因突变以katG315、rpoB450和rpoB445位点突变为主，基因联合突变以katG＋rpoB形式为主。 katG315＋rpoB450和katG315＋rpoB445位点突变是广西地区耐多药产生的主要分子机制。     

四川德阳地区结核分枝杆菌耐药基因突变位点的分布特点及基因型耐药的分析

目的探讨四川德阳地区结核分枝杆菌耐药基因突变位点的分布特点及基因型耐药的分析。方法收集在2010年2月-2013年3月检出的257例肺结核病患者结核分枝杆菌DNA阳性的痰液标本,采用聚合酶链式反应（PCR）和反向点杂交（RDB）相结合的基因芯片技术对结核分枝杆菌耐药基因突变位点进行检测和分析。结果 257例肺结核患者中检测出49例存在结核分枝杆菌耐药基因位点突变,其中发生katG 315、rpsL43、embB 306和rpoB 531丝氨酸（S531L）位点突变的分别为30例（11.67%）、18例（7.00%）、11例（4.28%）和10例（3.89%）。234例初治肺结核患者对异烟肼、利福平、乙胺丁醇及链霉素的基因型耐药率分别为9.83%、4.27%、3.42%和5.13%,耐多药率为2.99%;23例复治肺结核患者对上述药物的基因型耐药率分别为52.17%、26.09%、13.04%和43.48%,耐多药率为13.04%。初治患者的基因型耐药率及耐多药率均明显低于复治患者。结论四川德阳地区结核分枝杆菌常见耐药基因突变位点分别为katG 315、rpsL 43、embB 306和rpoB 531丝氨酸（S531L）突变位点;肺结核初治患者的基因型耐药率及耐多药率均明显低于复治患者;该地区肺结核的耐多药率相对较低。     

Disequilibrium in distribution of resistance mutations among Mycobacterium tuberculosis Beijing and non-Beijing strains isolated from patients in Germany

Genotypic analysis of 103 multidrug-resistant Mycobacterium tuberculosis strains isolated in Germany in 2001 revealed that mutations in codon 531 (75.7%) of the rpoB gene and codon 315 (88.4%) of the katG gene are most frequent. Beijing genotype strains (60.2% of all isolates) displayed a different distribution of resistance mutations than non-Beijing strains.     

DNA微阵列芯片法在海南地区结核病诊断及耐药性检测中的应用

目的 探讨DNA微阵列芯片法在海南地区结核病诊断及耐药性检测中的应用.方法 采用抗酸杆菌涂片法、罗氏培养法、比例法药敏试验及DNA微阵列芯片法对海南地区的2069例疑似结核病患者痰标本进行检测,并对结核分枝杆菌检出率、耐药性及耐药基因突变特征进行分析.结果 DNA微阵列芯片法检测结核分枝杆菌检出率为明显高于罗氏培养法和...     

Evaluation of the invader assay, a linear signal amplification method, for identification of mutations associated with resistance to rifampin and isoniazid in Mycobacterium tuberculosis

We evaluated a recently described linear signal amplification method for sensitivity and specificity in detecting mutations associated with resistance to rifampin (RIF) and isoniazid (INH) in Mycobacterium tuberculosis. The assay utilizes the thermostable flap endonuclease Cleavase VIII, derived from Archaeoglobus fulgidus, which cleaves a structure formed by the hybridization of two overlapping oligonucleotide probes to a target nucleic acid strand. This method, termed the Invader assay, can discriminate single-base differences. Nine pairs of probes, encompassing five mutations in rpoB and katG that are associated with resistance to either RIF or INH, as well as the corresponding wild-type (drug-susceptible) alleles, were tested using amplified DNA. Fluorescent-labeled cleavage products, ranging from 4 to 13 nucleotides in length, depending on the genotype of the test sample, were separated by denaturing polyacrylamide (20 to 24%) gel electrophoresis and then detected by scanning. All nine alleles could be identified and differentiated on the basis of product size. Multiple mutations at a specific rpoB nucleotide in target PCR products could be identified, as could mutants that were present at > or =0.5% of the total population of target sequences. The Invader assay is a sensitive screen for some mutations associated with antituberculosis drug resistance in amplified gene regions.     

Direct detection in clinical samples of multiple gene mutations causing resistance of Mycobacterium tuberculosis to isoniazid and rifampicin using fluorogenic probes

BACKGROUND: This study evaluates a method based on real-time PCR for direct detection in clinical samples of the common mutations responsible for isoniazid and rifampicin resistance of Mycobacterium tuberculosis. METHODS: Six pairs of fluorogenic 5' exonuclease probes (Taqman), mutated and wild-type, were designed for six targets: codon 315 of katG, substitution C209T in the regulatory region of inhA, and codons 513, 516, 526 and 531 of rpoB. RESULTS: A total of 98 clinical samples harbouring resistant bacilli from 55 patients and 126 samples harbouring susceptible bacilli from 126 patients were processed. The isolates from samples were tested for drug susceptibility with the radiometric method and sequenced for the same genetic targets. Among the samples, 93 harboured isoniazid-resistant bacilli. According to the sequencing results, 30 had mutations in katG, 30 in inhA and 33 (35.4%) had no mutations in these targets. All 27 clinical specimens harbouring rifampicin-resistant bacilli showed mutations in rpoB. The detection threshold of this method in detecting target genes in serial dilutions of artificial samples was 1.5 x 10(3) cfu/mL. In clinical samples, the sensitivity ranged from 30.4 to 35.3% for smear-negative samples and from 95.1 to 99.2% for smear-positive samples, with a specificity of 100%. In this study, the overall sensitivity in detecting patients having the target mutations was 74.3%. CONCLUSIONS: The main advantage of the described method is the possibility of detecting rifampicin and isoniazid resistance within 48-72 h after sample collection, with a sensitivity of nearly 100% in smear-positive samples if the chosen target is responsible for the resistance.     

Molecular characterization of drug-resistant and -susceptible Mycobacterium tuberculosis isolated from patients with tuberculosis in Korea

We investigated the causal relationship between genotype and phenotype of drug-resistant Mycobacterium tuberculosis isolates obtained from patients with pulmonary tuberculosis (TB) in Korea. Of 80 isolates tested, 17, 20, 1, and 7 isolates were mono-resistant to ethambutol (EMB), isoniazid (INH), pyrazinamide (PZA), and rifampicin (RFP), respectively, and 31 isolates (38.8%) were multidrug-resistant (MDR). Sequencing analysis showed that 78% (32/41) of RFP-resistant strains had mutations in the rifampicin resistance-determining region (RRDR) of rpoB, and the mutation at rpoB531 (59.4%) was most abundant. In 52 INH-resistant strains, mutations were found mostly at C-15T (n = 21, 40.4%) in the inhA promoter region as well as at katG315 (n = 12, 23.1%). Mutations at embB306 were mostly found in 26.7% (12/45) of EMB-resistant isolates. New mutations found here in MDR isolates include rpoB523 (Gly523Glu) and embB319 (Tyr319Ser). Consequently, mutations in the rpoB531, C-15T in the inhA promoter region, embB306, and katG315 would be a useful marker for rapid detection of MDR M. tuberculosis isolates in Korea.     

结核分枝杆菌耐利福平和异烟肼相关基因快速检测的应用研究

目的 利用DNA芯片检测技术直接检测痰标本中结核分枝杆菌耐利福平(RFP)、异烟肼(INH)相关的耐药基因(rpoB、katG/inhA),评价DNA芯片检测技术临床应用的可行性.方法 对586份涂阳痰标本使用L-J培养并用终点法确定其耐药性,同时利用DNA芯片检测技术检测痰标觋本中结核分枝杆菌的rpoB、katG/inhA常见基因突变位点的突变情况,比对两种方法的检测结果,对不符合的菌株测定其相应DNA序列,评估上述试验的准确性.结果 (1)586份涂阳痰标本,其中3(+)163份、2(+)204份、1(+)217份,培养阳性584份.耐药结果显示,对INH、RFP敏感的菌株分别为361株和327株,耐药菌株分别为223株和247株,其中低浓度耐药、高浓度敏感菌株分别为93株和59株,低浓度、高浓度均耐药菌株分别为130株和188株.(2)耐药基因特异性片段扩增阳性标本367份(62.8%)、阴性217份(37.2%).对INH耐药相关基因(katG/inhA)突变检出率是28.4%,突发发生位点集中在katG315位密码子(89.8%);对RFP耐药相关基因(rpoB)突变检出率是55.9%(137/247),突变发生位点主要在rpoB 531和rpoB 526位密码子,发生率分别是68.6%和16.1%.(3)对L-J药敏结果与DNA芯片检测结果不符的菌株进行DNA序列分析,发现有漏检现象.结论 DNA芯片技术直接检测样本中结核分枝杆菌的相关耐药基因存在可行性,如直接应用于临床样本检测,关键要解决样本中DNA的提取效率、PCR的扩增效率和试验的质量控制.     

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.