苍白螺旋体长期体外接触亚杀菌多西环素不会产生抗药性：多西环素与梅毒的关系

The Journal of Infectious Diseases Pub Date : 2024-07-27 DOI:10.1093/infdis/jiae381

Lauren C Tantalo, Ann Luetkemeyer, Nicole A P Lieberman, B Ethan Nunley, Carlos Avendaño, Alexander L Greninger, Connie Celum, Lorenzo Giacani

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摘要

多西环素暴露后预防疗法（doxy-PEP）可显著降低梅毒发病率。然而，间歇性使用强力霉素的增加可能会筛选出具有抗药性的苍白螺旋体（T. pallidum）菌株。为了评估这种病原体是否会对强力霉素产生抗药性，我们在体外将SS14菌株间歇性地和持续性地暴露在亚杀菌浓度的强力霉素中，这种浓度的强力霉素仍能产生抗生素压力。在每次暴露实验期间和之后，我们评估了试验和对照三联体中多西环素的最小抑菌浓度，并进行了全基因组测序，结论是没有产生抗药性。这项工作表明，对强力霉素产生抗药性的苍白螺旋体不会对强力霉素-PEP的实施构成直接威胁。

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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Long-term in vitro exposure of Treponema pallidum to sub-bactericidal doxycycline did not induce resistance: Implications for doxy-PEP and syphilis

Doxycycline post-exposure prophylaxis (doxy-PEP) could significantly reduce syphilis incidence. However, the increase in intermittent doxycycline usage might select resistant Treponema pallidum (T. pallidum) strains. To assess whether resistance to doxycycline could be induced in this pathogen, we exposed the SS14 strain in vitro both intermittently and continuously to a sub-bactericidal doxycycline concentration that still exerts antibiotic pressure. During and after each exposure experiment, we assessed the doxycycline minimal inhibitory concentration in test and control treponemes and performed whole genome sequencing, concluding that no resistance developed. This work suggests that doxycycline-resistant T. pallidum is not an immediate threat for doxy-PEP implementation.

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The Journal of Infectious Diseases

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