PCR-SSCP法检测结核分枝杆菌耐药性

目的：探讨耐多药结核分枝杆菌耐药基因突变与耐药性的关系以及聚合酶链反应-单链构象多态性分析(poly merase chain reaction-single strand cinfomlation polymorphism，PCR-SSCP)方法的临床应用价值。方法：用PCR-SSCP方法检测58株结核分枝杆菌临床分离株katG，rpoB，rpsL基因突变并与常规药敏试验检测结果进行对比。结果：经常规药敏试验检测，58株结核分枝杆菌临床分离株中共有41株耐药，其中，耐异烟肼(INH)为35株，高耐药株27株；耐利福平(RFP)为31株，高耐药株24株；耐链霉素(SM)有31株，高耐药株26株。同时耐3种药物的有21株(51．2％)，耐2种药物的14株(34．1％)，单耐药株6株(14．6％)．PCR-SSCP方法对58株临床分离株katG，rpoB，rpsL基因突变的检测率为40％(23／58)，45％(26／58)，38％(22／58)，其中检出3个基因同时突变的有13株(32％)，2种基因突变的12株(29％)，1种基因突变的有10株(23．8％)．常规药敏试验与PCR-SSCP法检出结核分枝杆菌同时耐3种药物的符合率为61．9％(13／21)，检出耐2种药物的符合率为85．70k，(12／14)，检出耐1种药物的符合率为50％(3／6)．高耐药株中突变率为80．5％(62／77)，低耐药株中突变率为60％(12／20)．结论：PCR-SS-CP方法对耐2种以上药物的结核杆菌检出率较高，且耐药基因突变率随着耐药浓度增高而增高。将PCR-SSCP法与药敏试验联合应用可互相弥补，已成为临床指导用药的好方法。     

Public health impact of isoniazid-resistant Mycobacterium tuberculosis strains with a mutation at amino-acid position 315 of katG: a decade of experience in The Netherlands

A previous limited study demonstrated that Mycobacterium tuberculosis isolates with a mutation at amino-acid position 315 of katG (Delta315) exhibited high-level resistance to isoniazid and were more frequently resistant to streptomycin. In the present study, isoniazid-resistant M. tuberculosis isolates from 8,332 patients in The Netherlands (1993-2002) were screened for the Delta315 mutation. Isoniazid resistance was found in 592 (7%) isolates, of which 323 (55%) carried Delta315. IS6110 restriction fragment length polymorphism analysis showed that Delta315 isolates occurred in clusters, suggesting recent transmission, at the same frequency as isoniazid-susceptible isolates. In contrast, other isoniazid-resistant isolates clustered significantly less frequently. Delta315 isolates were high-level isoniazid-resistant, streptomycin-resistant and multidrug-resistant significantly more often, and may have a greater impact on public health, than other isoniazid-resistant isolates.     

结核分支杆菌耐多药株katG突变SSCP技术检测的研究

目的 建立并评价ＰＣＲ－ＳＳＣＰ检测结核分支杆菌耐药性基因突变的方法。方法 根据ｋａｔＧ基因易变区设计一对引物,ＰＣＲ扩增,产物经沸点断裂成单链,经ＳＤＳ－ＰＡＧＥ,比较电泳的位置。结果 ＰＣＲ检测结核菌ＤＮＡ的灵敏度达到１００个细菌／ｍｌ,与其它细菌和其他分支杆菌无交叉反应。３０株敏感株和Ｈ３７Ｒｖ的ＰＣＲ产物经ＳＳＣＰ检测正常,２０株耐异烟肼结核菌中,１９株的ＰＣＲ产物ＳＳＣＰ检测游异常电泳带     

耐多药结核分枝杆菌三种基因的快速检测

目的 :探讨耐多药结核分枝杆菌耐药基因突变与耐药性的关系。方法 :采用 PCR和 PCR- DS技术对 5 7例耐多药结核临床分离株进行 kat G、rpo B和 emb B基因检测和序列分析。结果 :耐 INH(kat G)、RFP(rpo B)、EMB(emb B)基因突变率分别为 6 3.8%、90 .7%、37.1% ,其中同时耐 INH(kat G)和 RFP(rpo B)基因突变率为 5 4 .1% ,同时耐三种药的基因突变率为 6 5 .6 %。结论 :PCR- DS法对耐两种或两种以上药物的结核检出率较高 ,与传统药敏试验互相弥补 ,对临床用药有指导意义。     

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。     

TaqMan-MGB荧光定量PCR快速检测结核分枝杆菌katG基因突变

目的 建立一种特异、灵敏、快速检测结核分枝杆菌katG基因突变的TaqMan-MGB荧光定量PCR方法。方法 根据结核分枝杆菌katG基因主要发生315位点突变的特点,设计一对特异性TaqMan-MGB探针和引物,通过反应条件优化,建立荧光定量PCR方法;用克隆到PMD18-T载体上katG基因阳性标准品及不同菌株来评价该方法的特异性、敏感性和重复性。结果 灵敏度高,检测目的基因的最低检测下限10copies/μl,比常规PCR灵敏高100倍;特异性高,检测16株非结核分枝杆菌标准株和7种常见呼吸道感染细菌的标准株均为阴性;与测序法相比,野生型和突变型探针的敏感性和特异性均为100%。重复性好,批内批间CT值变异系数均小于1%。结论：TaqMan-MGB荧光定量PCR的方法能特异、灵敏、快速检测结核杆菌菌株katG 315位点突变。     

结核分枝杆菌异烟肼耐药与kat G基因突变的相关性研究

目的 INH异烟肼耐药性的方法.方法 应用聚合酶链反应-限制性片段长度多态性(PCR-RFLP)技术检测50株结核分枝杆菌临床分离株的katG基因.运用DNA测序和生物信息分析比对进行验证结果.以H37Rv标准株为对照,5株药物敏感株的RFLP分析结果 均与标准株一致,不存在突变;45株耐INH分离株中,31株(68.88%)RFLP分析存在基因异常.结论 西安地区结核杆菌临床分离株对INH耐药与katG基因(尤其是315位密码子)突变有关,PCR-RFLP技术可快速、准确地检测结核分枝杆菌对INH的耐药性.     

Detecting katG Drug Resistant Genetic Mutation among pneumoconiosis patients complicated with tuberculosis in Mycobacterium tuberculosis L-forms by PCR-SSCP

Objective：To study the relationship between mutation in the katG gene and drug resistance of INH in Mycobacterium tuberculosis L-forms among patients of pneumoconiosis complicated with pulmonary tuberculosis, and to explore the clinical application of PCR-SSCP. Methods： A total of 52 clinical isolated strains of Mycobacterium tuberculosis L-forms were collected. Mutation in the katG genes was detected by PCR-SSCP and traditional antimicrobial susceptibility test （AST）. Results： The results by AST showed that there were 40 persisters in 52 clinical isolated strains. The drug resistant rate was 76.92%（40/52）, and the gene mutation rate of katG was 57.70%（30/52）by PCR-SSCP, the difference was no quite significance （X^2 = 2.8507, P 〉 0.05）. The coincidence rate of two methods was 75.00% （30/40）. Conclusion： The detectionrate of katG resistant strains in Mycobacterium tuberculosis L-forms was high by PCR-SSCP. The combined application of PCR-SSCP and traditional antimicrobial susceptibility test can improve the detecting rate.     

Detecting drug resistant genetic mutation among pneumoconiosis patients complicated with tuberculosis in Mycobacterium tuberculosis L-forms application of PCR-SSCP technique in Huainan mining district

Objective： To study the relationship between drug resistant genetic mutation and drug resistance in Mycobacterium tuberculosis L-form, discuss the internal relationship between drug resistances and drug-resistant related genes and explore the value of PCR- SSCP to clinical application. Methods： A total of 52 clinically isolated strains of tuberculosis L-form were collected among 97 pneumoconiosis patients complicated with tuberculosis. The gene mutations of katG, rpoB and rpsL were detected by PCR-SSCP, and the results were compared with those analyzed by traditional antimicrobial susceptibility test（AST）. Results： The gene muta- tion rates of katG, rpoB and rpsL by PCR-SSCP were respectively 57.70% （30/52）, 65.38% （32/52） and 40.38% （21/52）. The rate of reversion was 78.85%（41/52） and the result of drag-resistant genes was invariable. The results of AST showed that there were 40 （76.92%） multi-drug resistant strains in 52 clinically isolated strains. The number for three-drug resistant strain was 21 （40.38%） and that of two-drug resistant was 19（36.54%）, but only 12（23.08%） strains were one drug resistant. The rate of total drug-resistance was 100%, but there were 15 strains of allied mutation of three genes, 16 of two mutations and 6 of only one by PCR-SSCP. The coincidences were respectively 71.43%, 84.12% and 50.00%. Then there was no significant difference between the allied mutations of multi-drug resistant gene and the mutations of only one drug resistant gene （P 〉 0.05）. Conclusion： PCR-SSCP technique has a higher sensibility and specificity to detect the genes of katG, rpoB and rpsL in tuberculosis L-form among pneumoconiosis complicated with tuberculosis,and the detecting rate of two drug resistant strains and three drug resistant strains was higher. The combined application of PCR-SSCP and AST has advantages at earlier diagnosis and guidance of clinical medications.     

Rapid screening of rpoB and katG mutations in Mycobacterium tuberculosis isolates by high-resolution melting curve analysis

Background: Early detection of multidrug-resistant tuberculosis (MDR-TB) is essential to prevent its transmission in the community and initiate effective anti-TB treatment regimen. Materials and Methods: High-resolution melting curve (HRM) analysis was evaluated for rapid detection of resistance conferring mutations in rpoB and katG genes. We screened 95 Mycobacterium tuberculosis clinical isolates including 20 rifampin resistant (RIF-R), 21 isoniazid resistant (INH-R) and 54 fully susceptible (S) isolates determined by proportion method of drug susceptibility testing. Nineteen M. tuberculosis isolates with known drug susceptibility genotypes were used as references for the assay validation. The nucleotide sequences of the target regions rpoB and katG genes were determined to investigate the frequency and type of mutations and to confirm HRM results. Results: HRM analysis of a 129-bp fragment of rpoB allowed correct identification of 19 of the 20 phenotypically RIF-R and all RIF-S isolates. All INH-S isolates generated wild-type HRM curves and 18 out of 21 INH-R isolates harboured any mutation in 109-bp fragment of katG exhibited mutant type HRM curves. However, 1 RIF-R and 3 INH-R isolates were falsely identified as susceptible which were confirmed for having no mutation in their target regions by sequencing. The main mutations involved in RIF and INH resistance were found at codons rpoB531 (60% of RIF-R isolates) and katG315 (85.7% of INH-R isolates), respectively. Conclusion: HRM was found to be a reliable, rapid and low cost method to characterise drug susceptibility of clinical TB isolates in resource-limited settings.