Case Report: Genetic evolution of Burkholderia pseudomallei during treatment leading to antibiotic resistance and disease relapse.

Q1 Medicine

Wellcome Open Research Pub Date : 2025-07-30 eCollection Date: 2025-01-01 DOI:10.12688/wellcomeopenres.24138.2

Terry John Evans, Chantisa Keeratipusana, Anousone Douangnouvong, Vilayouth Phimolsarnnousith, Davanh Sengdatka, Ko Chang, Koukeo Phommasone, Claire Chewapreecha, Elizabeth A Ashley, Elizabeth M Batty

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Abstract

Background: Melioidosis is a significant yet neglected cause of sepsis in tropical regions, particularly in southeast Asia, with poor clinical outcomes. It is a growing threat with an expanding global footprint. The causative organism, Burkholderia pseudomallei, is intrinsically resistant to most first-line empiric antibiotic regimens, but acquired resistance to recommended antibiotics for this infection is uncommon. Nonetheless, the genetic determinants of resistance in this species remain poorly elucidated.

Case presentation: A 60-year-old farmer presented in septic shock to a hospital in Laos, and B. pseudomallei was grown from blood cultures. Following initial antibiotic treatment with meropenem and co-trimoxazole, his infection relapsed. Several subsequent B. pseudomallei isolates from the patient were resistant to multiple antibiotics, and whole genome sequencing demonstrated that this phenotype was associated with a novel 54-kb genomic deletion. This deletion, on chromosome 1, includes the 5' end of amrR - which encodes a regulator of an efflux pump known to be important in conferring meropenem resistance - as well as 46 other genes, some of which have not been characterised. Treatment was targeted to the new antibiogram, requiring a further prolonged intravenous course and second-line oral eradication therapy. The patient made a full recovery.

Conclusions: Mutations in Burkholderia pseudomallei lead to increased virulence and drug resistance. Repeat microbiological sampling of patients who do not make clinical improvement as anticipated is essential, with repeat full antimicrobial susceptibility testing on subsequent isolates. Characterisation of drug-resistant mutants is required to understand mechanisms of resistance and to predict phenotypes from whole genome sequencing.

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病例报告：治疗期间伯克氏菌的遗传进化导致抗生素耐药性和疾病复发。

背景：在热带地区，尤其是东南亚，类鼻疽是一种重要但被忽视的败血症原因，临床结果较差。随着全球足迹的扩大，这是一个日益严重的威胁。致病菌假杆菌伯克霍尔德菌对大多数一线经验性抗生素方案具有内在耐药性，但对这种感染的推荐抗生素获得耐药性并不常见。尽管如此，该物种的抗性遗传决定因素仍不清楚。病例介绍：老挝一名60岁的农民因感染性休克被送往医院，假芽孢杆菌从血液培养物中生长。最初用美罗培南和复方新诺明进行抗生素治疗后，感染复发。随后从患者身上分离出的几株假马利氏杆菌对多种抗生素具有耐药性，全基因组测序表明，这种表型与一个新的54 kb基因组缺失有关。1号染色体上的这种缺失包括amrR的5'端——它编码一种外排泵的调节因子，已知它在赋予美罗培南耐药性中很重要——以及其他46个基因，其中一些尚未被描述。治疗针对新的抗生素谱，需要进一步延长静脉注射疗程和二线口服根除治疗。病人完全康复了。结论：假马利氏伯克氏菌突变导致毒力和耐药性增加。对临床未如预期改善的患者进行重复微生物取样是必要的，并对随后的分离株进行重复全面的抗菌药敏试验。为了了解耐药机制和预测全基因组测序的表型，需要对耐药突变体进行表征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Wellcome Open Research Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)

CiteScore

5.50

自引率

0.00%

发文量

426

审稿时长

1 weeks

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