Elexacaftor/Tezacaftor/Ivacaftor 延长疗法对囊性纤维化患者肠道微生物群的影响

Ryan Marsh, Claudio Dos Santos, Alexander Yule, Neele S Dellschaft, Caroline L Hoad, Christabella Ng, Giles Major, Alan R Smyth, Damian Rivett, Christopher van der Gast
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摘要

背景:有关 CF 跨膜传导调节器(CFTR)调节剂疗法对肠道微生物群和相关结果的长期影响的知识还很少。在一项试验性研究中,我们调查了 Elexacaftor/Tezacaftor/Ivacaftor (ETI) 疗法对 CF 患者(pwCF)肠道微生物群、代谢组功能和临床结果的影响。研究设计:在接受 ETI 治疗 3 个月、6 个月和 17 个月后,采集 20 名 CF 患者的粪便样本。对样本进行微生物群测序和靶向代谢组学研究,以分析和量化短链脂肪酸的组成。同时还纳入了十名健康的匹配对照组进行比较。临床数据(包括肠道功能标记物)被整合在一起,以研究两者之间的关系。研究结果延长 ETI 治疗可增加核心微生物群的多样性和组成,从而使整个微生物群的组成逐渐向健康对照组转变。尽管随着时间的推移,CF 微生物群和功能代谢物组成变得更加相似,但与健康对照组相比仍有显著差异。肺部感染的抗生素治疗显著解释了整个微生物群和稀有卫星类群中相对较大的差异。ETI 后的临床结果无明显差异。结论我们发现了健康对照组微生物群的积极变化轨迹。但是,我们认为,肺部抗生素的使用主要阻碍了微生物群的发展。我们建议今后的研究结合长期纵向患者研究和模型实验系统,使用综合的全息方法。这将加深我们对 CFTR 调节剂疗法和呼吸道抗生素干预对 CF 肠道微生物组和胃肠道病理生理学影响的理解。
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Impact of extended Elexacaftor/Tezacaftor/Ivacaftor therapy on the gut microbiome in cystic fibrosis
Background: There is a paucity of knowledge on the longer-term effects of CF transmembrane conductance regulator (CFTR) modulator therapies upon the gut microbiome and associated outcomes. In a pilot study, we investigated longitudinal Elexacaftor/Tezacaftor/Ivacaftor (ETI) therapy on the gut microbiota, metabolomic functioning, and clinical outcomes in people with CF (pwCF). Study design: Faecal samples from 20 pwCF were acquired before and then following 3, 6, and 17+ months of ETI therapy. Samples were subjected to microbiota sequencing and targeted metabolomics to profile and quantify short-chain fatty acid composition. Ten healthy matched controls were included for comparison. Clinical data, including markers of intestinal function were integrated to investigate relationships. Results: Extended ETI therapy increased core microbiota diversity and composition, which translated to gradual shifts in whole microbiota composition towards that observed in healthy controls. Despite becoming more similar over time, CF microbiota and functional metabolite compositions remained significantly different to healthy controls. Antibiotic treatment for pulmonary infection significantly explained a relatively large degree of variation within the whole microbiota and rarer satellite taxa. Clinical outcomes were not significantly different following ETI. Conclusions: A positive trajectory towards the microbiota observed in healthy controls was found. However, we posit that progression was predominately impeded by pulmonary antibiotics administration. We recommend future studies use integrated omics approaches within a combination of long-term longitudinal patient studies and model experimental systems. This will deepen our understanding of the impacts of CFTR modulator therapy and respiratory antibiotic interventions upon the gut microbiome and gastrointestinal pathophysiology in CF.
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