在 1928 年至 2023 年全球 33 213 个淋病奈瑟菌基因组中进行默片吉泊他星目标挖掘，并对 22 个具有不同 GyrA 和 ParC 取代的淋球菌分离株进行吉泊他星 MIC 测试。

IF 3.9 2区医学 Q1 INFECTIOUS DISEASES Journal of Antimicrobial Chemotherapy Pub Date : 2024-09-03 DOI:10.1093/jac/dkae217

Alexandra David, Daniel Golparian, Susanne Jacobsson, Caleb Stratton, Pham Thi Lan, Ken Shimuta, Pam Sonnenberg, Nigel Field, Makoto Ohnishi, Christopher Davies, Magnus Unemo

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引用次数: 0

摘要

目的：新型双靶点三氮杂萘--格泊他星（gepotidacin）最近在治疗淋病的 III 期随机对照试验中显示出了良好的效果。我们通过对公开的全球基因组（n = 33 213）进行硅学挖掘，研究了淋球菌中开博他星 GyrA 和 ParC 靶点的改变，并确定了 GyrA A92 改变合并其他 GyrA 和/或 ParC 改变的分离株的开博他星 MIC：我们研究了欧洲核苷酸档案中的淋球菌 GyrA 和 ParC 等位基因。采用琼脂稀释法（吉泊他星）或Etest法（四种抗菌药物）测定了MIC。从 AlphaFold 获得了 DNA 回旋酶和拓扑异构酶 IV 的模型，并将其用于在结合位点建立吉泊他星模型：结果：在 0.24% 的基因组中发现了 GyrA A92 的改变：GyrA A92P/S/V + S91F + D95Y/A/N (0.208%)、A92P + S91F (0.024%) 和 A92P (0.003%)，但没有发现 A92T（以前与吉泊他星抗性有关）。在 10.6% 的基因组中发现了 ParC D86 改变：ParC D86N/G（10.5%）、D86N + S87I（0.051%）、D86N + S88P（0.012%）和 D86G + E91G（0.003%）。一个分离株有 GyrA A92P + ParC D86N 改变，但仍对吉莫特星敏感（MIC = 0.125 mg/L）。没有 GyrA 加 ParC 改变导致吉泊他星 MIC > 4 mg/L。吉莫特星与GyrA A92/A92T/A92P的结合模型表明，GyrA A92T导致的吉莫特星抗性可能与DNA形成新的极性接触有关：对全球 33 213 个淋球菌基因组（从 1928 年到 2023 年的分离物）的硅挖掘表明，GyrA 中的 A92 高度保守，而 ParC 的 D86 发生改变的情况很常见。GyrA和ParC的改变都不会导致对吉莫特星产生耐药性。对潜在的抗菌药耐药性决定因素进行 MIC 测定和基因组监测势在必行。

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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In silico gepotidacin target mining among 33 213 global Neisseria gonorrhoeae genomes from 1928 to 2023 combined with gepotidacin MIC testing of 22 gonococcal isolates with different GyrA and ParC substitutions.

Objectives: The novel dual-target triazaacenaphthylene, gepotidacin, recently showed promising results in its Phase III randomized controlled trial for the treatment of gonorrhoea. We investigated alterations in the gepotidacin GyrA and ParC targets in gonococci by in silico mining of publicly available global genomes (n = 33 213) and determined gepotidacin MICs in isolates with GyrA A92 alterations combined with other GyrA and/or ParC alterations.

Methods: We examined gonococcal gyrA and parC alleles available at the European Nucleotide Archive. MICs were determined using the agar dilution method (gepotidacin) or Etest (four antimicrobials). Models of DNA gyrase and topoisomerase IV were obtained from AlphaFold and used to model gepotidacin in the binding site.

Results: GyrA A92 alterations were identified in 0.24% of genomes: GyrA A92P/S/V + S91F + D95Y/A/N (0.208%), A92P + S91F (0.024%) and A92P (0.003%), but no A92T (previously associated with gepotidacin resistance) was found. ParC D86 alterations were found in 10.6% of genomes: ParC D86N/G (10.5%), D86N + S87I (0.051%), D86N + S88P (0.012%) and D86G + E91G (0.003%). One isolate had GyrA A92P + ParC D86N alterations, but remained susceptible to gepotidacin (MIC = 0.125 mg/L). No GyrA plus ParC alterations resulted in a gepotidacin MIC > 4 mg/L. Modelling of gepotidacin binding to GyrA A92/A92T/A92P suggested that gepotidacin resistance due to GyrA A92T might be linked to the formation of a new polar contact with DNA.

Conclusions: In silico mining of 33 213 global gonococcal genomes (isolates from 1928 to 2023) showed that A92 is highly conserved in GyrA, while alterations in D86 of ParC are common. No GyrA plus ParC alterations caused gepotidacin resistance. MIC determination and genomic surveillance of potential antimicrobial resistance determinants are imperative.

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来源期刊

Journal of Antimicrobial Chemotherapy 医学-传染病学

CiteScore

9.20

自引率

5.80%

发文量

423

审稿时长

2-4 weeks

期刊介绍： The Journal publishes articles that further knowledge and advance the science and application of antimicrobial chemotherapy with antibiotics and antifungal, antiviral and antiprotozoal agents. The Journal publishes primarily in human medicine, and articles in veterinary medicine likely to have an impact on global health.