Varied microbial community assembly and specialization patterns driven by early life microbiome perturbation and modulation in young ruminants.

IF 5.1 Q1 ECOLOGY
ISME communications Pub Date : 2024-04-09 eCollection Date: 2024-01-01 DOI:10.1093/ismeco/ycae044
Zhe Pan, Tao Ma, Michael Steele, Le Luo Guan
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Abstract

Perturbations and modulations during early life are vital to affect gut microbiome assembly and establishment. In this study, we assessed how microbial communities shifted during calf diarrhea and with probiotic yeast supplementation (Saccharomyces cerevisiae var. boulardii, SCB) and determined the key bacterial taxa contributing to the microbial assembly shifts using a total of 393 fecal samples collected from 84 preweaned calves during an 8-week trial. Our results revealed that the microbial assembly patterns differed between healthy and diarrheic calves at 6- and 8-week of the trial, with healthy calves being stochastic-driven and diarrheic calves being deterministic-driven. The two-state Markov model revealed that SCB supplementation had a higher possibility to shift microbial assembly from deterministic- to stochastic-driven in diarrheic calves. Furthermore, a total of 23 and 21 genera were specific ecotypes to assembly patterns in SCB-responsive (SCB-fed calves did not exhibit diarrhea) and nonresponsive (SCB-fed calves occurred diarrhea) calves, respectively. Among these ecotypes, the area under a receiver operating characteristic curve revealed that Blautia and Ruminococcaceae UCG 014, two unidentified genera from the Ruminococcaceae family, had the highest predictiveness for microbial assembly patterns in SCB-responsive calves, while Prevotellaceae, Blautia, and Escherichia-Shigella were the most predictive bacterial taxa for microbial assembly patterns in SCB-nonresponsive calves. Our study suggests that microbiome perturbations and probiotic yeast supplementation serving as deterministic factors influenced assembly patterns during early life with critical genera being predictive for assembly patterns, which sheds light on mechanisms of microbial community establishment in the gut of neonatal calves during early life.

幼年反刍动物生命早期微生物组扰动和调节驱动的各种微生物群落组合和特化模式。
生命早期的干扰和调节对影响肠道微生物群的组装和建立至关重要。在这项研究中,我们评估了犊牛腹泻期间和补充益生菌酵母(布拉氏酵母菌,SCB)后微生物群落的变化情况,并利用在为期 8 周的试验中从 84 头断奶前犊牛身上收集的 393 份粪便样本确定了导致微生物群落变化的主要细菌类群。我们的研究结果表明,在试验的 6 周和 8 周,健康犊牛和腹泻犊牛的微生物组合模式有所不同,健康犊牛是随机驱动型,而腹泻犊牛是确定驱动型。双态马尔可夫模型显示,在腹泻犊牛中,补充 SCB 更有可能使微生物组合从确定性驱动转变为随机驱动。此外,在SCB应答型(饲喂SCB的犊牛未出现腹泻)和非应答型(饲喂SCB的犊牛出现腹泻)犊牛中,分别有23个和21个属是组装模式的特定生态型。在这些生态型中,接收者操作特征曲线下的面积显示,反刍球菌科的两个未确定属 Blautia 和 Ruminococcaceae UCG 014 对 SCB 响应犊牛的微生物组合模式具有最高的预测性,而 Prevotellaceae、Blautia 和 Escherichia-Shigella 是对 SCB 非响应犊牛的微生物组合模式最具预测性的细菌类群。我们的研究表明,微生物组的扰动和益生菌酵母的补充作为决定性因素影响了犊牛生命早期的集结模式,关键菌属对集结模式具有预测作用,这揭示了新生犊牛生命早期肠道微生物群落的建立机制。
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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