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多西环素暴露后预防性治疗性传播感染对肠道微生物群和抗菌药物耐药组的影响。

Impact of doxycycline post-exposure prophylaxis for sexually transmitted infections on the gut microbiome and antimicrobial resistome.

作者信息

Chu Victoria T, Glascock Abigail, Donnell Deborah, Grabow Cole, Brown Clare E, Ward Ryan, Love Christina, Kalantar Katrina L, Cohen Stephanie E, Cannon Chase, Woodworth Michael H, Kelley Colleen F, Celum Connie, Luetkemeyer Anne F, Langelier Charles R

机构信息

Department of Pediatrics, Division of Infectious Diseases and Global Health, University of California, San Francisco, San Francisco, CA, USA.

Chan Zuckerberg Biohub, San Francisco, CA, USA.

出版信息

Nat Med. 2025 Jan;31(1):207-217. doi: 10.1038/s41591-024-03274-2. Epub 2024 Oct 3.

DOI:10.1038/s41591-024-03274-2
PMID:39363100
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11750720/
Abstract

Doxycycline post-exposure prophylaxis (doxy-PEP) reduces bacterial sexually transmitted infections among men who have sex with men and transgender women. Although poised for widespread clinical implementation, the impact of doxy-PEP on antimicrobial resistance remains a primary concern as its effects on the gut microbiome and resistome, or the antimicrobial resistance genes (ARGs) present in the gut microbiome, are unknown. To investigate these effects, we studied participants from the DoxyPEP trial, a randomized clinical trial comparing doxy-PEP use, a one-time doxycycline 200-mg dose taken after condomless sex (DP arm, n = 100), to standard of care (SOC arm, n = 50) among men who have sex with men and transgender women. From self-collected rectal swabs at enrollment (day-0) and after 6 months (month-6), we performed metagenomic DNA sequencing (DNA-seq) or metatranscriptomic RNA sequencing (RNA-seq). DNA-seq data were analyzable from 127 samples derived from 89 participants, and RNA-seq data were analyzable from 86 samples derived from 70 participants. We compared the bacterial microbiome and resistome between the two study arms and over time. The median number of doxycycline doses taken since enrollment by participants with DNA-seq data was zero (interquartile range (IQR): 0-7 doses) for the SOC arm and 42 (IQR: 27-64 doses) for the DP arm. Tetracycline ARGs were detected in all day-0 DNA-seq samples and in 85% of day-0 RNA-seq samples. The proportional mass of tetracycline ARGs in the resistome increased between day-0 and month-6 in DP participants from 46% to 51% in the metagenome (P = 2.3 × 10) and from 4% to 15% in the metatranscriptome (P = 4.5 × 10), but no statistically significant increases in other ARG classes were observed. Exposure to a higher number of doxycycline doses correlated with proportional enrichment of tetracycline ARGs in the metagenome (Spearman's ρ = 0.23, P = 9.0 × 10) and metatranscriptome (Spearman's ρ = 0.55, P = 3.7 × 10). Bacterial microbiome alpha diversity, beta diversity and total bacterial mass did not differ between day-0 and month-6 samples from DP participants when assessed by either DNA-seq or RNA-seq. In an abundance-based correlation analysis, we observed an increase over time in the strength of the correlation between tetracycline ARGs and specific bacterial taxa, including some common human pathogens. In sum, doxy-PEP use over a 6-month period was associated with an increase in the proportion of tetracycline ARGs comprising the gut resistome and an increase in the expression of tetracycline ARGs. At 6 months of doxy-PEP use, no residual differences were observed in alpha and beta diversity or taxonomic composition of the gut microbiome. As doxy-PEP is implemented as a public health strategy, further studies and population-level surveillance of doxycycline-resistant pathogens are needed to understand the implications of these findings. ClinicalTrials.gov registration number: NCT03980223 .

摘要

多西环素暴露后预防(多西环素-PEP)可降低男男性行为者和跨性别女性中细菌性性传播感染的发生率。尽管多西环素-PEP有望在临床上广泛应用,但其对抗菌药物耐药性的影响仍是一个主要问题,因为其对肠道微生物群和耐药组(即肠道微生物群中存在的抗菌药物耐药基因(ARGs))的影响尚不清楚。为了研究这些影响,我们对参与多西环素-PEP试验的参与者进行了研究,该试验是一项随机临床试验,比较了多西环素-PEP的使用情况,即在无保护性行为后单次服用200毫克多西环素(DP组,n = 100)与男男性行为者和跨性别女性中的标准治疗(SOC组,n = 50)。我们从入组时(第0天)和6个月后(第6个月)自行采集的直肠拭子中进行了宏基因组DNA测序(DNA-seq)或宏转录组RNA测序(RNA-seq)。从89名参与者的127个样本中可分析DNA-seq数据,从70名参与者的86个样本中可分析RNA-seq数据。我们比较了两个研究组之间以及随时间变化的细菌微生物群和耐药组。有DNA-seq数据的参与者自入组以来服用多西环素的剂量中位数,SOC组为零(四分位间距(IQR):0-7剂),DP组为42剂(IQR:27-64剂)。在所有第0天的DNA-seq样本和85%的第0天RNA-seq样本中检测到四环素ARGs。在DP组参与者中,耐药组中四环素ARGs的比例质量在第0天到第6个月之间,在宏基因组中从46%增加到51%(P = 2.3×10),在宏转录组中从4%增加到15%(P = 4.5×10),但未观察到其他ARG类别有统计学意义的增加。接触更高剂量的多西环素与宏基因组(斯皮尔曼ρ = 0.23,P = 9.0×10)和宏转录组(斯皮尔曼ρ = 0.55,P = 3.7×10)中四环素ARGs的比例富集相关。当通过DNA-seq或RNA-seq评估时,DP组参与者第0天和第6个月样本之间的细菌微生物群α多样性、β多样性和细菌总质量没有差异。在基于丰度的相关性分析中,我们观察到随着时间的推移,四环素ARGs与特定细菌类群(包括一些常见的人类病原体)之间的相关性强度增加。总之,在6个月期间使用多西环素-PEP与肠道耐药组中四环素ARGs比例的增加以及四环素ARGs表达的增加有关。在使用多西环素-PEP 6个月时,未观察到肠道微生物群的α和β多样性或分类组成存在残留差异。由于多西环素-PEP作为一项公共卫生策略实施,需要进一步研究和对耐多西环素病原体进行人群水平监测,以了解这些发现的影响。ClinicalTrials.gov注册号:NCT03980223 。

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