Effects of dietary restriction and one-carbon metabolite supplementation during the first 63 days of gestation on the maternal gut, vaginal, and blood microbiota in cattle.

IF 4.9 Q1 MICROBIOLOGY
Sarah M Luecke, Godson Aryee, Devin B Holman, Kaycie N Schmidt, Layla E King, Matthew S Crouse, Alison K Ward, Carl R Dahlen, Joel S Caton, Samat Amat
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引用次数: 0

Abstract

Background: Maternal diet quality and quantity have significant impacts on both maternal and fetal health and development. The composition and function of the maternal gut microbiome is also significantly influenced by diet; however, little is known about the impact of gestational nutrient restriction on the bovine maternal microbiome during early gestation, which is a critical stage for maternal microbiome-mediated fetal programming to take place. The objective of the present study was to evaluate the impacts of diet restriction and one-carbon metabolite (OCM) supplementation during early gestation on maternal ruminal, vaginal, and blood microbiota in cattle. Thirty-three beef heifers (approx. 14 months old) were used in a 2 × 2 factorial experiment with main factors of target gain (control [CON]; targeted 0.45 kg/d gain vs restricted [RES]; targeted - 0.23 kg/d gain), and OCM supplementation (+ OCM vs - OCM; n = 8/treatment; except n = 9 for RES-OCM). Heifers were individually fed, starting treatment at breeding (d 0) and concluding at d 63 of gestation. Ruminal fluid and vaginal swabs were collected on d - 2, d 35, and d 63 (at necropsy) and whole blood was collected on d 63 (necropsy). Bacterial microbiota was assessed using 16S rRNA gene (V3-V4) sequencing.

Results: Overall ruminal microbiota structure was affected by gain, OCM, time, and their interactions. The RES heifers had greater microbial richness (observed ASVs) but neither Shannon nor Inverse Simpson diversity was significantly influenced by gain or OCM supplementation; however, on d 63, 34 bacterial genera showed differential abundance in the ruminal fluid, with 25 genera enriched in RES heifers as compared to CON heifers. In addition, the overall interaction network structure of the ruminal microbiota changed due to diet restriction. The vaginal microbiota community structure was influenced by gain and time. Overall microbial richness and diversity of the vaginal microbiota steadily increased as pregnancy progressed. The vaginal ecological network structure was distinctive between RES and CON heifers with genera-genera interactions being intensified in RES heifers. A relatively diverse bacterial community was detected in blood samples, and the composition of the blood microbiota differed from that of ruminal and vaginal microbiota.

Conclusion: Restricted dietary intake during early gestation induced significant alterations in the ruminal microbiota which also extended to the vaginal microbiota. The composition of these two microbial communities was largely unaffected by OCM supplementation. Blood associated microbiota was largely distinctive from the ruminal and vaginal microbiota.

妊娠期前 63 天限制饮食和补充一碳代谢物对牛母体肠道、阴道和血液微生物群的影响。
背景:母体饮食的质量和数量对母体和胎儿的健康和发育都有重大影响。母体肠道微生物组的组成和功能也受到饮食的显著影响;然而,人们对妊娠早期妊娠营养限制对牛母体微生物组的影响知之甚少,而妊娠早期是母体微生物组介导胎儿编程的关键阶段。本研究旨在评估妊娠早期限制饮食和补充一碳代谢物(OCM)对牛母体瘤胃、阴道和血液微生物群的影响。33 头肉用小母牛(约 14 个月大)被用于 2 × 2 因子实验,主要因素包括目标增重(对照组 [CON];目标增重为 0.45 kg/d;限制组 [RES];目标增重为 - 0.23 kg/d)和单碳代谢物补充(+ 单碳代谢物 vs - 单碳代谢物;n = 8/处理;RES-OCM 的 n = 9 除外)。母牛单独饲喂,从配种(第 0 天)开始治疗,到妊娠期第 63 天结束。在第 2 天、第 35 天和第 63 天(解剖时)采集乳糜和阴道拭子,在第 63 天(解剖时)采集全血。使用 16S rRNA 基因(V3-V4)测序评估细菌微生物群:结果:总体瘤胃微生物群结构受增重、OCM、时间及其相互作用的影响。RES小母牛的微生物丰富度更高(观察到的ASVs),但香农和逆辛普森多样性均未受到增重或OCM补充的显著影响;然而,在第63天,34个细菌属在瘤胃液中的丰度出现差异,与CON小母牛相比,RES小母牛的25个细菌属丰度更高。此外,由于日粮限制,瘤胃微生物群的整体相互作用网络结构也发生了变化。阴道微生物群落结构受增重和时间的影响。随着妊娠的进行,阴道微生物群的整体微生物丰富度和多样性稳步上升。RES和CON小母牛的阴道生态网络结构各不相同,RES小母牛的属与属之间的相互作用更强。在血液样本中检测到了相对多样化的细菌群落,血液微生物群的组成与瘤胃和阴道微生物群的组成不同:结论:妊娠早期限制饮食摄入会导致瘤胃微生物群发生显著变化,这种变化也会延伸到阴道微生物群。这两个微生物群落的组成基本不受 OCM 补充剂的影响。血液相关微生物群在很大程度上与瘤胃和阴道微生物群截然不同。
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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CiteScore
7.20
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