MmpR5 protein truncation and bedaquiline resistance in Mycobacterium tuberculosis isolates from South Africa: a genomic analysis

IF 20.9 1区生物学 Q1 INFECTIOUS DISEASES Lancet Microbe Pub Date : 2024-08-01 DOI:10.1016/S2666-5247(24)00053-3

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Abstract

Background

The antibiotic bedaquiline is a key component of new WHO regimens for drug-resistant tuberculosis; however, predicting bedaquiline resistance from bacterial genotypes remains challenging. We aimed to understand the genetic mechanisms of bedaquiline resistance by analysing Mycobacterium tuberculosis isolates from South Africa.

Methods

For this genomic analysis, we conducted whole-genome sequencing of Mycobacterium tuberculosis samples collected at two referral laboratories in Cape Town and Johannesburg, covering regions of South Africa with a high prevalence of tuberculosis. We used the tool ARIBA to measure the status of predefined genes that are associated with bedaquiline resistance. To produce a broad genetic landscape of M tuberculosis in South Africa, we extended our analysis to include all publicly available isolates from the European Nucleotide Archive, including isolates obtained by the CRyPTIC consortium, for which minimum inhibitory concentrations of bedaquiline were available.

Findings

Between Jan 10, 2019, and July, 22, 2020, we sequenced 505 M tuberculosis isolates from 461 patients. Of the 64 isolates with mutations within the mmpR5 regulatory gene, we found 53 (83%) had independent acquisition of 31 different mutations, with a particular enrichment of truncated MmpR5 in bedaquiline-resistant isolates resulting from either frameshift mutations or the introduction of an insertion element. Truncation occurred across three M tuberculosis lineages, and were present in 66% of bedaquiline-resistant isolates. Although the distributions overlapped, the median minimum inhibitory concentration of bedaquiline was 0·25 mg/L (IQR 0·12–0·25) in mmpR5-disrupted isolates, compared with 0·06 mg/L (0·03–0·06) in wild-type M tuberculosis.

Interpretation

Reduction in the susceptibility of M tuberculosis to bedaquiline has evolved repeatedly across the phylogeny. In our data, we see no evidence that this reduction has led to the spread of a successful strain in South Africa. Binary phenotyping based on the bedaquiline breakpoint might be inappropriate to monitor resistance to this drug. We recommend the use of minimum inhibitory concentrations in addition to MmpR5 truncation screening to identify moderate increases in resistance to bedaquiline.

Funding

US Centers for Disease Control and Prevention.

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南非结核分枝杆菌分离株的 MmpR5 蛋白截断和贝达喹啉抗药性：基因组分析。

背景：抗生素贝达喹啉是世界卫生组织治疗耐药性结核病的新方案的关键成分；然而，从细菌基因型预测贝达喹啉耐药性仍然具有挑战性。我们旨在通过分析从南非分离的结核分枝杆菌，了解贝达喹啉耐药性的遗传机制：为了进行此次基因组分析，我们对开普敦和约翰内斯堡两家转诊实验室采集的结核分枝杆菌样本进行了全基因组测序，这些样本覆盖了南非结核病高发地区。我们使用 ARIBA 工具来测量与贝达喹啉耐药性相关的预定义基因的状态。为了了解南非结核杆菌的广泛基因状况，我们扩展了分析范围，纳入了欧洲核苷酸档案馆（European Nucleotide Archive）中所有公开的分离株，包括 CRyPTIC 财团获得的分离株，这些分离株的贝达喹啉最小抑菌浓度均可获得：从 2019 年 1 月 10 日到 2020 年 7 月 22 日，我们对来自 461 名患者的 505 个结核杆菌分离株进行了测序。在64个mmpR5调控基因发生突变的分离株中，我们发现53个（83%）分离株独立获得了31种不同的突变，耐贝达喹啉的分离株中截短的MmpR5特别多，这是由于框架移位突变或插入元件的引入造成的。截短发生在三个结核杆菌系中，66%的耐贝达喹分离株中都存在这种情况。虽然分布有所重叠，但在mmpR5截断的分离株中，贝达喹啉最低抑制浓度的中位数为0-25毫克/升（IQR为0-12-0-25），而在野生型结核杆菌中，贝达喹啉最低抑制浓度的中位数为0-06毫克/升（0-03-0-06）：结核杆菌对贝达喹啉的敏感性降低在系统发育过程中反复进化。在我们的数据中，没有证据表明这种敏感性的降低导致了成功菌株在南非的传播。基于贝达喹啉断点的二元表型可能不适合用于监测对该药物的耐药性。我们建议在进行 MmpR5 截断筛选的同时使用最低抑菌浓度，以确定贝达喹啉耐药性的适度增加：美国疾病控制和预防中心。

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来源期刊

Lancet Microbe Multiple-

CiteScore

27.20

自引率

0.80%

发文量

278

审稿时长

6 weeks

期刊介绍： The Lancet Microbe is a gold open access journal committed to publishing content relevant to clinical microbiologists worldwide, with a focus on studies that advance clinical understanding, challenge the status quo, and advocate change in health policy.