结核分枝杆菌的耐药基因及其相关分子机制

结核分枝杆菌原发性和继发性耐药是当前控制和治疗结核病面临的重要问题,随着分子遗传学的发展,已经阐明了结核分枝杆菌耐药的分子基础是染色体的突变,影响了药靶本身或激活了药物前体的细菌酶,造成MTB的耐药。本文主要就MTB对其常用药物的耐药机制展开讨论,以便正确认识MTB对不同药物的耐药机制,建立快速检测耐药结核分枝杆菌基因型的分子生物学方法。     

耐药性结核分枝杆菌研究近况

结核分枝杆菌(简称结核杆菌,MTB)是结核痛的病原体.随着耐药性结核杆菌菌株的产生和播散,尤其是耐多药结核(MDR-TB)和广泛抗性结核菌株(XDR-TB)的出现,结核病的威胁在急速增长.现对结核杆菌的分子生物学、分型、耐药机制、致病机制、疫苗等方面作一概述.     

结核分枝杆菌对异烟肼耐药的分子机制

抗结核一线药物异烟肼是应用最广泛的抗结核药物之一,自1952年应用于临床以来,异烟肼就成了治疗结核和潜在感染的基础药物.有报道,我国异烟肼耐药已排在首位.结核分枝杆菌对异烟肼耐药的分子机制十分复杂,涉及katG、inhA、kasA、ndh、axyR等多种基因,本研究仅就此方面的研究作一综述.     

耐药结核分枝杆菌的适应性代价与补偿性进化

结核病耐药率的攀升是目前全球结核病防控面临的重大挑战。结核分枝杆菌主要通过其基因组中耐药相关基因发生点突变而获得耐药性。由于耐药相关基因通常具有重要的生理功能,其突变往往会导致结核分枝杆菌自身适应性下降,即产生“适应性代价”。然而,耐药结核分枝杆菌可通过进一步积累其他特定突变来回复其适应性,这种能使其适应性上升的突变称为“补偿性突变”。耐药结核分枝杆菌的补偿性进化被认为是耐药结核病广泛传播与流行的生物学基础。近年来,在结核病分子流行病学和基础研究领域,针对耐药结核分枝杆菌的补偿性进化开展了大量研究。本文从结核分枝杆菌的耐药分子机制、耐药突变的适应性代价与补偿性进化,以及补偿性进化如何影响耐药结核病传播等方面,综述耐药结核分枝杆菌补偿性进化的研究进展。     

耐多药结核分枝杆菌的研究进展

耐多药结核分枝杆菌(Mycobacterium tuberculosis,Mtb)的产生和播散,尤其是泛耐药菌株的出现,已成为新世纪结核病控制的三大难题之一。Mtb耐药机制的研究有助于快速分子诊断工具的发展,且能指导抗结核新药的开发。了解耐多药结核分枝杆菌的耐药机制、分子特征及治疗的研究进展,将为耐多药Mtb的防治提供依据。     

结核分枝杆菌耐药机制研究进展

结核分枝杆菌为结核病的病原体.最近几年,由于基因突变导致多耐药及广泛耐药结核菌株的出现,以及抗结核病药近几十年来没有换代,使之前基本得到控制的结核痛死灰复燃,成为世界上病死率最高的传染病.为了遏制其进一步的恶化,必须从根本上透彻了解其耐药分子机制.近年来,各国学者采用先进分子生物学技术对结核杆菌耐药机制进行深入研究,定位了结核分枝杆菌耐药基因的位置和基因突变位点,比如耐异烟肼、利福平、乙胺丁醇、链霉素、吡嗪酰胺、喹诺酮类、外排泵等菌株新的基因突变位点引起新的功能改变有新的发现,特别是gidB基因、外排泵基因等有突破性的发现,对研制新一代抗结核病药提供了理论支持及新的方向,但仍有很多耐药机制未阐明,为后续研究者提供些许查考,故笔者就近几年来从分子水平对耐药机制的研究进展做一概述.     

MTB新疆临床分离株MDR-TB和XDR-TB耐药情况初步调查

目的:分析新疆喀什地区结核分枝杆菌(MTB)临床分离株对4种一线和7种二线抗结核药物的耐药情况,初步探讨本地区耐多药结核病(MDR-TB)和广泛耐药结核病(XDR-TB)的流行情况。方法:收集2008.11.1~2009.10.31日期间新疆喀什地区结核病患者痰液标本,进行分离培养及菌种鉴定,并应用比例法对所分离得到的菌株进行耐药性检测。结果:102株分枝杆菌中,88株(86.3%)属于结核分枝杆菌复合群,7株(6.9%)属于牛型分枝杆菌,7株(6.9%)属于非结核分枝杆菌。对一种以上的抗结核药物具有耐药性的有20株,总耐药率为22.7%(20/88),耐多药率为6.8%(6/88),pre-XDR为33.3%(2/6),无XDR-TB病例。结论:新疆喀什地区结核病患者耐药率较高,在结核病治疗工作中应给予重视,尤其应加强对Pre-XDR的重视,以免发展成XDR-TB。     

结核分枝杆菌耐氟喹诺酮类药物的分子机制研究进展

结核病是由结核分枝杆菌(Mycobacterium tuberculosis)通过空气传播引起人类感染的慢性传染病,耐药结核分枝杆菌的流行是目前结核病防治的世界难题。氟喹诺酮类药物是人工合成药物,应用于耐药结核的临床治疗中,在治疗中起着核心的作用。但近年来,氟喹诺酮类药物的抗性菌株不断出现,愈发增加了结核病治疗的困难与治疗失败风险。在临床中氟喹诺酮药物的靶点比较清楚,是结核分枝杆菌的DNA旋转酶。目前发现结核分枝杆菌耐氟喹诺酮类药物的机制主要包括药物靶点DNA旋转酶的关键氨基酸改变、药物外排泵系统、细菌细胞壁厚度的增加以及喹诺酮抗性蛋白MfpA介导的DNA旋转酶活性调控。其中在氟喹诺酮靶标DNA旋转酶功能活性改变的耐药机制方面,编码DNA旋转酶基因突变一直是研究的热点,但近年来发现DNA旋转酶的调控蛋白MfpA以及DNA旋转酶的修饰在细菌耐药性中起着重要的作用,相关机制还亟待发现。本文综述了当前结核分枝杆菌耐氟喹诺酮类药物的作用机制,旨在为研发精准诊断技术和药物发掘提供科学理论基础和参考。     

耐药结核分枝杆菌潜伏-复发感染动物模型的研究进展

潜伏结核感染(latent tuberculosis infection,LTBI)复发是新发结核病的主要来源,其中耐药结核病所占比例较大,使耐药LTBI复发的防控成为结核病研究的重点。耐药结核分枝杆菌潜伏-复发感染动物模型是开展耐药结核病防控相关机制研究、抗耐药结核分枝杆菌药物和疫苗研究的基础。目前耐药结核分枝杆菌感染动物模型缺乏,而已有的结核分枝杆菌标准株H37Rv潜伏-复发感染模型存在缺陷,如小鼠模型的潜伏期荷菌量偏高、复发期变异大,而猴模型的潜伏期和复发期不可预测。模型的可控性差使其应用困难,且缺乏可用的免疫学评价指标,导致远期复发无法预测。因此,基于现有H37Rv潜伏-复发感染动物模型的制备方法,展望耐药结核分枝杆菌潜伏-复发感染动物模型可能存在的缺陷,通过选用新的抑菌剂和诱导剂,制备有稳定潜伏期、潜伏时长适中、复发起点和复发水平变异小的动物模型,是未来耐药结核分枝杆菌潜伏-复发感染动物模型研究的方向。     

导读与评议（2017年第6期）

精准医疗概念的提出开启了一个医学新时代,其实质包括精准诊断和精准治疗。张文宏课题组围绕结核病治疗中的精准医疗进行了阐述,涉及结核病的精准诊断,包括结核病的临床诊断及结核分枝杆菌的检测(分子检测及耐药检测技术等)、特殊人群的药理学参数与药物代谢相关的分子标记、针对病原体生命周期分子靶点的直接作用药物研发、通过正向调控或负向调控药物的使用实现宿主导向抗结核精准治疗。本期刊登了3篇关于结核病耐药的综述。鉴于耐药结核分枝杆菌的补偿性进化是其传播与流行的基础,高谦课题组从结核分枝杆菌的耐药分子机制、耐药突变的适应性代价与补偿性进化,以及补偿性进化如何影响耐药结核病传播等方面进行了综述。袁莉课题组就近年来结核分枝杆菌“毒素-抗毒素系统”(TAS)与生物膜的研究及抗结核药物对生物膜形成的影响进行综述......     

High-resolution melting analysis for the rapid detection of fluoroquinolone and streptomycin resistance in Mycobacterium tuberculosis

Background

Molecular methods for the detection of drug-resistant tuberculosis are potentially more rapid than conventional culture-based drug susceptibility testing, facilitating the commencement of appropriate treatment for patients with drug resistant tuberculosis. We aimed to develop and evaluate high-resolution melting (HRM) assays for the detection of mutations within gyrA, rpsL, and rrs, for the determination of fluoroquinolone and streptomycin resistance in Mycobacterium tuberculosis (MTB).

Methodology/Principal Findings

A blinded series of DNA samples extracted from a total of 92 clinical isolates of MTB were analyzed by HRM analysis, and the results were verified using DNA sequencing. The sensitivity and specificity of the HRM assays in comparison with drug susceptibility testing were 74.1% and 100.0% for the detection of fluoroquinolone resistance, and 87.5% and 100.0% for streptomycin resistance. Five isolates with low level resistance to ofloxacin had no mutations detected in gyrA, possibly due to the action of efflux pumps, or false negativity due to mixed infections. One fluoroquinolone-resistant isolate had a mutation in a region of gyrA not encompassed by our assay. Six streptomycin-resistant strains had undetectable mutations by HRM and DNA sequencing, which may be explained by the fact that not all streptomycin-resistant isolates have mutations within rpsL and rrs, and suggesting that other targets may be involved.

Conclusion

The HRM assays described here are potentially useful adjunct tests for the efficient determination of fluoroquinolone and streptomycin resistance in MTB, and could facilitate the timely administration of appropriate treatment for patients infected with drug-resistant TB.     

Molecular dynamics simulation studies of the wild-type, I21V, and I16T mutants of isoniazid-resistant Mycobacterium tuberculosis enoyl reductase (InhA) in complex with NADH: toward the understanding of NADH-InhA different affinities

The increasing prevalence of tuberculosis in many areas of the world, associated with the rise in drug-resistant Mycobacterium tuberculosis (MTB) strains, presents a major threat to global health. InhA, the enoyl-ACP reductase from MTB, catalyzes the nicotinamide adenine dinucleotide (NADH)-dependent reduction of long-chain trans-2-enoyl-ACP fatty acids, an intermediate in mycolic acid biosynthesis. Mutations in the structural gene for InhA are associated with isoniazid resistance in vivo due to a reduced affinity for NADH, suggesting that the mechanism of drug resistance may be related to specific interactions between enzyme and cofactor within the NADH binding site. To compare the molecular events underlying ligand affinity in the wild-type, I21V, and I16T mutant enzymes and to identify the molecular aspects related to resistance, molecular dynamics simulations of fully solvated NADH-InhA (wild-type and mutants) were performed. Although very flexible, in the wild-type InhA-NADH complex, the NADH molecule keeps its extended conformation firmly bound to the enzyme's binding site. In the mutant complexes, the NADH pyrophosphate moiety undergoes considerable conformational changes, reducing its interactions with its binding site and probably indicating the initial phase of ligand expulsion from the cavity. This study should contribute to our understanding of specific molecular mechanisms of drug resistance, which is central to the design of more potent antimycobacterial agents for controlling tuberculosis.     

Molecular detection, identification and drug resistance detection in Mycobacterium tuberculosis

This minireview presents recent developments in molecular methods for the diagnosis of tuberculosis, including detection, identification and determination of drug resistance of Mycobacterium tuberculosis . Tuberculosis remains one of the major causes of global death from a single infectious agent. This situation is worsened by the HIV/AIDS pandemic because one-third of HIV/AIDS patients are coinfected with M. tuberculosis . Also of great concern is the emergence of drug-resistant tuberculosis because there are almost no treatment options available for patients affected by highly resistant strains of M. tuberculosis . Advances in molecular biology techniques and a better knowledge of the molecular mechanisms of drug resistance have provided new tools for the rapid diagnosis of tuberculosis. Several nucleic acid amplification technologies have been developed and evaluated. New molecular approaches are being introduced continuously. This minireview will also comment on the future perspectives for the molecular diagnosis of tuberculosis and the feasibility for the implementation of these newer techniques in the clinical diagnostic laboratory.     

结核分枝杆菌乙胺丁醇耐药机制的研究进展

耐多药结核病的出现和流行对结核病的防控造成了严重威胁。乙胺丁醇(Ethambutol, EMB)是一线抗结核药物,常与异烟肼、利福平等联合应用,还可用于耐药结核病的治疗。但近年来EMB耐药形势严峻,我国复治结核病患者中EMB耐药率已达17.2%,并呈上升趋势;耐多药结核病患者中,EMB耐药率约为51.3%~66.7%,情况不容乐观。明确EMB耐药的产生机制对于有效防控EMB耐药率的上升、充分发挥EMB的作用十分重要,因此本文对结核分枝杆菌EMB的耐药现状、EMB的作用机制及其耐药产生机制方面的研究进展进行了综述。     

Use of Xpert MTB/RIF in Decentralized Public Health Settings and Its Effect on Pulmonary TB and DR-TB Case Finding in India

BackgroundXpert MTB/RIF, the first automated molecular test for tuberculosis, is transforming the diagnostic landscape in high-burden settings. This study assessed the impact of up-front Xpert MTB/RIF testing on detection of pulmonary tuberculosis (PTB) and rifampicin-resistant PTB (DR-TB) cases in India.MethodsThis demonstration study was implemented in 18 sub-district level TB programme units (TUs) in India in diverse geographic and demographic settings covering a population of 8.8 million. A baseline phase in 14 TUs captured programmatic baseline data, and an intervention phase in 18 TUs had Xpert MTB/RIF offered to all presumptive TB patients. We estimated changes in detection of TB and DR-TB, the former using binomial regression models to adjust for clustering and covariates.ResultsIn the 14 study TUs, which participated in both phases, 10,675 and 70,556 presumptive TB patients were enrolled in the baseline and intervention phase, respectively, and 1,532 (14.4%) and 14,299 (20.3%) bacteriologically confirmed PTB cases were detected. The implementation of Xpert MTB/RIF was associated with increases in both notification rates of bacteriologically confirmed TB cases (adjusted incidence rate ratio [aIRR] 1.39; CI 1.18-1.64), and proportion of bacteriological confirmed TB cases among presumptive TB cases (adjusted risk ratio (aRR) 1.33; CI 1.6-1.52). Compared with the baseline strategy of selective drug-susceptibility testing only for PTB cases at high risk of drug-resistant TB, Xpert MTB/RIF implementation increased rifampicin resistant TB case detection by over fivefold. Among, 2765 rifampicin resistance cases detected, 1055 were retested with conventional drug susceptibility testing (DST). Positive predictive value (PPV) of rifampicin resistance detected by Xpert MTB/RIF was 94.7% (CI 91.3-98.1), in comparison to conventional DST.ConclusionIntroduction of Xpert MTB/RIF as initial diagnostic test for TB in public health facilities significantly increased case-notification rates of all bacteriologically confirmed TB by 39% and rifampicin-resistant TB case notification by fivefold.     

高通量测序在病原微生物耐药方面的应用进展

高通量测序是一种高效、准确、价廉的新型测序技术,随着近年来的不断推广,逐渐进入不同的研究领域。目前,多重耐药菌的感染给患者和社会增加了巨大负担,耐药机制和抗菌药物的研发是科学研究的热点之一。高通量测序技术也开始在病原微生物耐药方面发挥了巨大作用,尤其是在耐药机制研究方面,解决了一些用现有的技术无法解决的问题。本文从病原菌鉴定、耐药机制、药物新靶标、耐药菌流行病学以及用药指导等方面阐述了高通量测序在病原微生物耐药方面的应用及进展,重点讨论了耐药机制和抗菌药物新靶标进展以及现阶段存在的问题。高通量测序技术不断发展,尤其是进入病原微生物研究领域后延伸出新的研究技术和方法,随着相关的生物信息学的进步,此项技术应用将会更加广泛。     

Screening and molecular dynamics simulation of compounds inhibiting MurB enzyme of drug-resistant Mycobacterium tuberculosis: An in-silico approach

Mycobacterium tuberculosis (MTB) is becoming more and more resistant to drugs and it is a common problem, making current antimicrobials ineffective and highlighting the need for new TB drugs. One of the promising targets for treating MTB is MurB enzymes. This study aimed to identify potential inhibitors of MurB enzymes in M. tuberculosis, as drug resistance among MTB is a significant problem. Attempts are being made to conduct a virtual screening of 30,417 compounds, and thirty-two compounds were chosen for further analysis based on their binding conformations. The selected compounds were assessed for their drug-likeness, pharmacokinetics, and physiochemical characteristics, and seven compounds with binding energy lower than flavin (FAD) were identified. Further, molecular dynamics simulation analysis of these seven compounds found that four of them, namely DB12983, DB15688, ZINC084726167, and ZINC254071113 formed stable complexes with the MurB binding site, exhibiting promising inhibitory activity. These compounds have not been mentioned in any other study, indicating their novelty. The study suggests that these four compounds could be promising candidates for treating MTB, but their effectiveness needs to be validated through in vitro and in vivo experiments. Overall, the findings of this study provide new insight into potential drug targets and candidates for combating drug-resistant MTB.