Mechanistic insights into rumen function promotion through yeast culture (Saccharomyces cerevisiae) metabolites using in vitro and in vivo models

Xue Chen, Jun Xiao, Wanzhu Zhao, Yanan Li, Wei Zhao, Weigang Zhang, Liang Xin, Zhiyi Han, Lanhui Wang, N. D. Aschalew, Xuefeng Zhang, Tao Wang, Guixin Qin, Zhe Sun, Y. Zhen
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Abstract

Yeast culture (YC) enhances ruminant performance, but its functional mechanism remains unclear because of the complex composition of YC and the uncertain substances affecting rumen fermentation. The objective of this study was to determine the composition of effective metabolites in YC by exploring its effects on rumen fermentation in vitro, growth and slaughter performance, serum index, rumen fermentation parameters, rumen microorganisms, and metabolites in lambs.In Trial 1, various YCs were successfully produced, providing raw materials for identifying effective metabolites. The experiment was divided into 5 treatment groups with 5 replicates in each group: the control group (basal diet without additives) and YC groups were supplemented with 0.625‰ of four different yeast cultures, respectively (groups A, B, C, and D). Rumen fermentation parameters were determined at 3, 6, 12, and 24 h in vitro. A univariate regression model multiple factor associative effects index (MFAEI; y) was established to correlate the most influential factors on in vitro rumen fermentation with YC metabolites (x). This identified the metabolites promoting rumen fermentation and optimal YC substance levels. In Trial 2, metabolites in YC not positively correlated with MFAEI were excluded, and effective substances were combined with pure chemicals (M group). This experiment validated the effectiveness of YC metabolites in lamb production based on their impact on growth, slaughter performance, serum indices, rumen parameters, microorganisms, and metabolites. Thirty cross-generation rams (Small tail Han-yang ♀ × Australian white sheep ♂) with good body condition and similar body weight were divided into three treatment groups with 10 replicates in each group: control group, YC group, pure chemicals combination group (M group).Growth performance and serum index were measured on days 30 and 60, and slaughter performance, rumen fermentation parameters, microorganisms, and metabolites were measured on day 60. The M group significantly increased the dressing percentage, and significantly decreased the GR values of lambs (p  < 0.05). The concentration of growth hormone (GH), Cortisol, insulin (INS), and rumen VFA in the M group significantly increased (p < 0.05).These experiments confirmed that YC or its screened effective metabolites positively impact lamb slaughter performance, rumen fermentation, and microbial metabolism.
利用体外和体内模型深入了解酵母培养物(酿酒酵母)代谢物促进瘤胃功能的机理
酵母培养物(YC)可提高反刍动物的生产性能,但由于 YC 成分复杂,影响瘤胃发酵的物质不确定,因此其功能机制仍不清楚。本研究旨在通过探讨酵母培养物对羔羊体外瘤胃发酵、生长和屠宰性能、血清指数、瘤胃发酵参数、瘤胃微生物和代谢物的影响,确定酵母培养物中有效代谢物的组成。试验分为 5 个处理组,每组 5 个重复:对照组(不含添加剂的基础日粮)和分别添加 0.625‰四种不同酵母培养物的 YC 组(A、B、C 和 D 组)。在体外 3、6、12 和 24 小时测定瘤胃发酵参数。建立了单变量回归模型多因素关联效应指数(MFAEI;y),将对体外瘤胃发酵影响最大的因素与 YC 代谢物(x)联系起来。这就确定了促进瘤胃发酵的代谢物和最佳 YC 物质水平。在试验 2 中,剔除了 YC 中与 MFAEI 不呈正相关的代谢物,并将有效物质与纯化学物质结合(M 组)。该试验根据 YC 代谢物对羔羊生长、屠宰性能、血清指数、瘤胃参数、微生物和代谢物的影响,验证了 YC 代谢物在羔羊生产中的有效性。将 30 只体况良好、体重相近的杂交一代公羊(小尾寒羊♀×澳洲白羊♂)分为三个处理组,每组 10 个重复:对照组、YC 组、纯药组合组(M 组)。结果表明,M 组明显提高了羔羊的换料率,明显降低了 GR 值(P < 0.05)。这些实验证实,YC 或其筛选出的有效代谢物对羔羊的屠宰性能、瘤胃发酵和微生物代谢有积极影响。
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