290 Impact of altering maternal gut microbiome via high-forage or high-concentrate diets on offspring microbiome development, methane emissions and animal performance in cattle.

IF 2.9 2区农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Journal of animal science Pub Date : 2025-10-05 DOI:10.1093/jas/skaf300.161

Samat Amat, Godson Aryee, Justine Kilama, Kell Helmuth, Brooklyn M Kuzel, Christy Finck, Devin B Holman, Sarah Underdahl, Joel S Caton, Kevin K K Sedivec, Kendall C Swanson, Carl Robertson Dahlen

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引用次数: 0

Abstract

Maternal gut microbiome has been shown to influence immune, metabolic and neurodevelopmental programming of offspring from the embryonic stage, suggesting a potential role in the Developmental Origins of Health and Disease (DOHaD). Whereas many still support the “sterile-womb hypothesis” that the neonatal microbiome acquisition occurs only during and after birth, very recent studies have provided evidence showing the existence of in utero microbial colonization. Thus, these recent developments in the field of microbiome research of human and vertebrate animals including bovine animals highlight that the maternal gut microbiome during pregnancy should be targeted for harnessing their extended impact on the offspring’s development and health. In this presentation, we will discuss the potential involvement of maternal microbiome and feto-maternal microbial crosstalk in fetal programming, and offspring calf’s health and development. In addition, we will discuss the results from our recently conducted longitudinal study focused on the evaluation of the impact of altering maternal microbiota via high forage or high concentrate diets on offspring microbiome development, energy balance, methane emissions and feedlot performance in beef cattle. For this, 120 beef heifers were assigned to one of two treatments and received a diet based on 75% forage (HF) or 75% concentrate (HC) from 15 days pre-breeding through calving. Heifers were bred using male-sexed semen and fed to target a gain of 0.45kg/d for both groups. Ruminal fluid, fecal and vaginal swabs were collected from both HF (n = 24) and HC (n =22) heifers on pre-breeding (-30, -2), post-breeding (56, 91, 180, and 238 days of gestation) and at calving. Calves born from these heifers were monitored for their animal performance, feed efficiency, gut microbiome development and enteric methane emission (in vitro and in vivo). Body weight measurements, ruminal fluid and fecal samples were collected from the calves at 0, 15, 30, 60, 120, 160, 240, 330 and 340 days old. The 16S rNRA gene sequencing was performed on the dam and calf’s microbiome samples. An in-vitro fermentation assay was performed on the ruminal fluid samples from heifers and their calves for methane and VFA analyses. During finishing stage, a subset of calves born from HF and HC dams (n = 10 each group) were evaluated to examine effects on energy metabolism, nutrient balance and enteric methane emission (using headbox) output between the HF and HC offspring because of the HF or HC diet their dams received during fetal development. The results from this study provide novel insights into the impact of altered maternal gut microbiome during pregnancy on the postnatal animal performance, feed efficiency, microbiome development and enteric methane emission phenotype in cattle.

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290高饲粮或高精料日粮改变母畜肠道微生物组对牛后代微生物组发育、甲烷排放和动物生产性能的影响。

母体肠道微生物组已被证明从胚胎阶段就影响后代的免疫、代谢和神经发育程序，这表明在健康和疾病的发育起源（DOHaD）中有潜在的作用。尽管许多人仍然支持“子宫无菌假说”，即新生儿微生物群的获得只发生在出生期间和之后，但最近的研究提供了证据表明子宫内微生物定植的存在。因此，人类和脊椎动物（包括牛）微生物组研究领域的最新进展突出表明，怀孕期间的母体肠道微生物组应该成为利用它们对后代发育和健康的广泛影响的目标。在本报告中，我们将讨论母体微生物组和胎-母微生物串扰在胎儿编程和后代小牛健康和发育中的潜在参与。此外，我们将讨论我们最近进行的纵向研究的结果，该研究侧重于评估通过高饲料或高精料日粮改变母体微生物群对肉牛后代微生物群发育、能量平衡、甲烷排放和饲养场生产性能的影响。为此，120头肉牛被分配到两种处理中的一种，从孕前15天到产犊，分别饲喂75%饲料（HF）或75%精料（HC）的日粮。用雄性精液饲养小母牛，两组的增重目标均为0.45kg/d。采集HF （n = 24）和HC （n =22）母牛在孕前（妊娠-30、-2天）、孕后（妊娠56、91、180和238天）和产犊时的瘤胃液、粪便和阴道拭子。对这些母牛产下的小牛进行了动物生产性能、饲料效率、肠道微生物群发育和肠道甲烷排放（体外和体内）监测。分别于0、15、30、60、120、160、240、330和340日龄采集犊牛体重、瘤胃液和粪便样本。对大坝和小牛的微生物组样本进行16S rNRA基因测序。对母牛和犊牛瘤胃液样品进行体外发酵试验，分析甲烷和游离脂肪酸。在育肥阶段，对HF和HC犊牛（每组n = 10）进行了评估，以研究胎儿发育期间HF或HC犊牛饲粮对HF和HC犊牛后代能量代谢、营养平衡和肠道甲烷排放（使用头箱）输出的影响。本研究结果为妊娠期间母体肠道微生物组改变对牛产后动物生产性能、饲料效率、微生物组发育和肠道甲烷排放表型的影响提供了新的见解。

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来源期刊

Journal of animal science 农林科学-奶制品与动物科学

CiteScore

4.80

自引率

12.10%

发文量

1589

审稿时长

3 months

期刊介绍： The Journal of Animal Science (JAS) is the premier journal for animal science and serves as the leading source of new knowledge and perspective in this area. JAS publishes more than 500 fully reviewed research articles, invited reviews, technical notes, and letters to the editor each year. Articles published in JAS encompass a broad range of research topics in animal production and fundamental aspects of genetics, nutrition, physiology, and preparation and utilization of animal products. Articles typically report research with beef cattle, companion animals, goats, horses, pigs, and sheep; however, studies involving other farm animals, aquatic and wildlife species, and laboratory animal species that address fundamental questions related to livestock and companion animal biology will be considered for publication.