无论是否添加活酵母,结肠粘膜上的细菌定植和与免疫功能相关的基因表达都与新生犊牛的生长有关。

IF 6.3 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Koki Nishihara, Clothilde Villot, Lautaro Cangiano, Le Luo Guan, Michael Steele
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引用次数: 0

摘要

背景:由于荷斯坦犊牛在出生后第一周易患胃肠道疾病,因此了解新生犊牛肠道免疫功能的发育过程对于促进肠道健康非常重要。在生命早期饲喂益生菌可通过促进有益菌定植和发展肠道免疫功能来促进宿主肠道健康。本研究的目的是描述生命早期酵母补充和生长对结肠粘膜附着细菌和宿主免疫功能的影响:结果:20 头荷斯坦公牛犊牛从出生到出生后 5 天内未添加任何辅食(CON)或布拉氏酵母菌(SCB)。在出生后 2 小时内(D0)第一次喂食牛初乳前和出生后 5 天(D5)早上喂食牛初乳后 3 小时内采集结肠组织活检,分析粘膜附着细菌和结肠转录组。元基因组测序结果表明,不同日龄和处理之间粘膜附着细菌的α和β多样性没有差异,但与腹泻有关的细菌在D0日龄的结肠粘膜中比D5日龄更多。此外,qPCR表明,与D0相比,D5结肠粘膜中大肠埃希氏菌(E. coli)的绝对丰度有所下降;但与D0相比,D5结肠粘膜中能竞争性排除大肠埃希氏菌的双歧杆菌、乳酸杆菌和普氏粪杆菌的绝对丰度有所上升。RNA 序列分析表明,CON 和 SCB 之间没有差异表达基因,但表明与 D0 相比,D5 的结肠粘膜中与病毒感染相关的通路(如 "干扰素信号")被激活:结论:奶牛犊牛出生后最初 5 天内的生长会影响结肠粘膜附着细菌和宿主免疫功能,与补充 SCB 无关。在生命早期,有益细菌和/或宿主免疫功能会改变肠道环境,从而减少机会性病原体。预测的免疫功能相关途径的激活可能是宿主免疫功能发展的结果,也可能是生命早期肠道中其他抗原的结果。为了更好地了解肠道免疫功能的发展,需要进一步研究结肠粘膜中的其他抗原和宿主免疫功能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bacteria colonization and gene expression related to immune function in colon mucosa is associated with growth in neonatal calves regardless of live yeast supplementation.

Background: As Holstein calves are susceptible to gastrointestinal disorders during the first week of life, understanding how intestinal immune function develops in neonatal calves is important to promote better intestinal health. Feeding probiotics in early life may contribute to host intestinal health by facilitating beneficial bacteria colonization and developing intestinal immune function. The objective of this study was to characterize the impact of early life yeast supplementation and growth on colon mucosa-attached bacteria and host immune function.

Results: Twenty Holstein bull calves received no supplementation (CON) or Saccharomyces cerevisiae boulardii (SCB) from birth to 5 d of life. Colon tissue biopsies were taken within 2 h of life (D0) before the first colostrum feeding and 3 h after the morning feeding at d 5 of age (D5) to analyze mucosa-attached bacteria and colon transcriptome. Metagenome sequencing showed that there was no difference in α and β diversity of mucosa-attached bacteria between day and treatment, but bacteria related to diarrhea were more abundant in the colon mucosa on D0 compared to D5. In addition, qPCR indicated that the absolute abundance of Escherichia coli (E. coli) decreased in the colon mucosa on D5 compared to D0; however, that of Bifidobacterium, Lactobacillus, and Faecalibacterium prausnitzii, which could competitively exclude E. coli, increased in the colon mucosa on D5 compared to D0. RNA-sequencing showed that there were no differentially expressed genes between CON and SCB, but suggested that pathways related to viral infection such as "Interferon Signaling" were activated in the colon mucosa of D5 compared to D0.

Conclusions: Growth affected mucosa-attached bacteria and host immune function in the colon mucosa during the first 5 d of life in dairy calves independently of SCB supplementation. During early life, opportunistic pathogens may decrease due to intestinal environmental changes by beneficial bacteria and/or host immune function. Predicted activation of immune function-related pathways may be the result of host immune function development or suggest other antigens in the intestine during early life. Further studies focusing on the other antigens and host immune function in the colon mucosa are required to better understand intestinal immune function development.

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