抗生素对原生厌氧菌子囊虫及其周围微生物群存在的影响:案例研究

Jamie M Newton, William JS Edwards, Gary Thompson, Eleni Gentekaki, Anastasios D. Tsaousis
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引用次数: 0

摘要

背景:Blastocystis 是人类最常见的真核肠道微生物,在全球都有分布。研究表明,与不存在这种微生物的人群相比,存在这种微生物的人群的肠道微生物组和代谢组特征截然不同。然而,抗生素对布氏囊尾蚴及其周围肠道微生物组的体内影响仍未得到充分研究。本病例研究旨在探讨服用抗生素如何影响膀胱囊虫的存在以及肠易激综合征(IBS)患者肠道微生物组和代谢组的随之变化:采用针对 SSUrRNA 基因的 RT-PCR 技术检测肠易激综合征患者在不同时间点采集的粪便样本中是否存在 Blastocystis,然后对阳性样本进行测序。Illumina 测序确定了肠道微生物组的组成,一维质子核磁共振光谱分析了代谢组的组成。研究人员进行了统计分析,以确定抗生素用量、细菌多样性、代谢组组成和Blastocystis存在之间的关系:结果:抗生素对肠道微生物组产生了重大影响,多样性在使用抗生素初期下降,随后和用药后恢复。在使用抗生素的早期、晚期和用药后都检测到了囊泡菌,但在用药中期没有检测到,这与细菌多样性的下降相吻合。囊泡菌阳性样本与囊泡菌阴性样本之间没有明显差异。不过,与疗程中期采集的样本相比,抗生素疗程前、早期和后期采集的样本中的细菌组成存在明显差异。包括短链脂肪酸、氨基酸和琥珀酸在内的代谢物组在整个抗生素疗程中都发生了变化,这表明肠道代谢物组成受抗生素消耗的影响。讨论/结论:虽然抗生素对布氏囊虫的定植没有明显影响,但抗生素确实会导致微生物多样性和布氏囊虫存在的中期下降。研究还发现,在整个抗生素疗程中,SCFAs 和氨基酸等重要代谢物发生了显著变化,疗程后观察到代谢组发生了改变。该病例研究强调了抗生素、肠道微生物群和代谢物之间复杂的相互作用,突出了布氏囊虫在肠道生态系统中的恢复能力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The impact of antibiotics on the presence of the protozoan anaerobe Blastocystis and the surrounding microbiome: a case study
Background: Blastocystis, the most prevalent eukaryotic gut microbe in humans, has a global distribution. Studies have linked its presence with distinct gut microbiome and metabolome profiles compared to those where the organism is absent. However, the in vivo effect of antibiotics on Blastocystis and the surrounding gut microbiome remains understudied. This case study aimed to explore how antibiotic consumption influences the presence of Blastocystis and the subsequent changes in the gut microbiome and metabolome of an individual with irritable bowel syndrome (IBS). Methods: Stool samples from an IBS patient, collected at various time points, were tested for Blastocystis presence using RT-PCR targeting the SSUrRNA gene, followed by sequencing of positive samples. Illumina sequencing determined the gut microbiome composition, while one-dimensional proton NMR spectroscopy analysed the metabolome composition. Statistical analyses were conducted to identify relationships between antibiotic consumption, bacterial diversity, metabolome composition, and Blastocystis presence. Results: Antibiotics significantly impacted the gut microbiome, with diversity declining early in the antibiotic course, then recovering later and post-course. Blastocystis was detected early, late, and post-course but not mid-course, coinciding with the decline in bacterial diversity. No significant differences were observed between Blastocystis-positive and Blastocystis-negative samples. However, bacterial composition significantly differed between samples collected before, early, and after the antibiotic course compared to those collected mid-course. Metabolite groups, including short-chain fatty acids, amino acids, and succinate, exhibited changes throughout the antibiotic course, indicating that gut metabolite composition is affected by antibiotic consumption. Discussion/Conclusion: While antibiotics did not significantly impact Blastocystis colonisation, they did cause a mid-course decline in microbial diversity and Blastocystis presence. The study also revealed significant alterations in important metabolites such as SCFAs and amino acids throughout the antibiotic course, with an altered metabolome observed post-course. This case study underscores the complex interactions between antibiotics, gut microbiota, and metabolites, highlighting the resilience of Blastocystis in the gut ecosystem.
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