在巴布亚新几内亚，结核分枝杆菌高度耐药株的演变和传播。

Evolution and spread of a highly drug resistant strain of Mycobacterium tuberculosis in Papua New Guinea.

机构信息

Queensland Mycobacteria Reference Laboratory, Brisbane, QLD, Australia.

University of Papua New Guinea, Port Moresby, Papua New Guinea.

出版信息

BMC Infect Dis. 2022 May 6;22(1):437. doi: 10.1186/s12879-022-07414-2.

DOI:10.1186/s12879-022-07414-2

PMID:35524232

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9077924/

Abstract

BACKGROUND

Molecular mechanisms determining the transmission and prevalence of drug resistant tuberculosis (DR-TB) in Papua New Guinea (PNG) are poorly understood. We used genomic and drug susceptibility data to explore the evolutionary history, temporal acquisition of resistance and transmission dynamics of DR-TB across PNG.

METHODS

We performed whole genome sequencing on isolates from Central Public Health Laboratory, PNG, collected 2017-2019. Data analysis was done on a composite dataset that also included 100 genomes previously sequenced from Daru, PNG (2012-2015).

RESULTS

Sampled isolates represented 14 of the 22 PNG provinces, the majority (66/94; 70%) came from the National Capital District (NCD). In the composite dataset, 91% of strains were Beijing 2.2.1.1, identified in 13 provinces. Phylogenetic tree of Beijing strains revealed two clades, Daru dominant clade (A) and NCD dominant clade (B). Multi-drug resistance (MDR) was repeatedly and independently acquired, with the first MDR cases in both clades noted to have emerged in the early 1990s, while fluoroquinolone resistance emerged in 2009 (95% highest posterior density 2000-2016). We identified the presence of a frameshift mutation within Rv0678 (p.Asp47fs) which has been suggested to confer resistance to bedaquiline, despite no known exposure to the drug. Overall genomic clustering was significantly associated with rpoC compensatory and inhA promoter mutations (p < 0.001), with high percentage of most genomic clusters (12/14) identified in NCD, reflecting its role as a potential national amplifier.

CONCLUSIONS

The acquisition and evolution of drug resistance among the major clades of Beijing strain threaten the success of DR-TB treatment in PNG. With continued transmission of this strain in PNG, genotypic drug resistance surveillance using whole genome sequencing is essential for improved public health response to outbreaks. With occurrence of resistance to newer drugs such as bedaquiline, knowledge of full drug resistance profiles will be important for optimal treatment selection.

摘要

背景

分子机制决定了耐药结核病（DR-TB）在巴布亚新几内亚（PNG）的传播和流行，但这些机制仍不清楚。我们使用基因组和药敏数据来探索 DR-TB 在 PNG 的进化史、耐药的时间获得以及传播动态。

方法

我们对 2017 年至 2019 年期间收集的来自中央公共卫生实验室（PNG）的分离株进行了全基因组测序。数据分析是在一个综合数据集上进行的，该数据集还包括来自 PNG 达鲁的 100 个先前测序的基因组（2012-2015 年）。

结果

采样的分离株代表了 PNG 的 22 个省中的 14 个，其中大多数（66/94；70%）来自国家首都地区（NCD）。在综合数据集，91%的菌株是北京 2.2.1.1，在 13 个省中均有发现。北京菌株的系统发育树显示了两个分支，达鲁主导分支（A）和 NCD 主导分支（B）。耐多药（MDR）是反复独立获得的，两个分支中最早的 MDR 病例都发生在 20 世纪 90 年代初，而氟喹诺酮耐药性则出现在 2009 年（95%最高后验密度 2000-2016）。我们发现了 Rv0678 内的框移突变（p.Asp47fs），尽管没有已知的药物暴露，但据报道该突变可赋予对贝达喹啉的耐药性。总体基因组聚类与 rpoC 补偿和 inhA 启动子突变显著相关（p<0.001），大多数基因组聚类（12/14）都在 NCD 中发现，反映了其作为潜在国家放大器的作用。

结论

北京菌株主要分支中耐药的获得和进化对 PNG 成功治疗 DR-TB 构成威胁。随着该菌株在 PNG 的持续传播，使用全基因组测序进行基因型药物耐药性监测对于改善公共卫生对疫情的反应至关重要。随着对新型药物（如贝达喹啉）耐药性的出现，了解完整的药物耐药谱对于最佳治疗方案的选择非常重要。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3ec9/9077924/88c1bdc0a772/12879_2022_7414_Fig1_HTML.jpg

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在巴布亚新几内亚，结核分枝杆菌高度耐药株的演变和传播。

Evolution and spread of a highly drug resistant strain of Mycobacterium tuberculosis in Papua New Guinea.

机构信息

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BACKGROUND

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CONCLUSIONS

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