Unit Nutritional Physiology, Department of Biomedical Sciences, University of Veterinary Medicine, Veterinaerplatz 1, 1210 Vienna, Austria.
Christian Doppler Laboratory for Innovative Gut Health Concepts of Livestock, Institute of Animal Nutrition and Functional Plant Compounds, Department for Farm Animals and Veterinary Public Health, University of Veterinary Medicine, Veterinaerplatz 1, 1210 Vienna, Austria.
J Anim Sci. 2022 Nov 1;100(11). doi: 10.1093/jas/skac310.
Weaning often leaves the piglet vulnerable to gut dysfunction. Little is known about the acute response of a gut mucosa primed by a milk-oriented microbiome before weaning to a plant-oriented microbiome (POM) after weaning. We evaluated the epithelial structure, secretory response and permeability in the small and large intestines of piglets receiving a milk-based (i.e., preweaning) or plant-based diet (i.e., postweaning) to POM inocula using intestinal loop perfusion assays (ILPA). The POM were prepared from jejunal and colonic digesta of four 7 week-old weaned (day 28 of life) piglets, having gut-site specific microbial and metabolite composition. Two consecutive ILPA were performed in 16 piglets pre- (days 24 to 27) and 16 piglets postweaning (days 38 to 41) in two replicate batches. Two jejunal and colonic loops per piglet were perfused with Krebs-Henseleit buffer (control) or the respective POM. The outflow fluid was analyzed for antimicrobial secretions. Jejunal and colonic loop tissue were collected after each ILPA for histomorphology and electrophysiology using Ussing chambers. ANOVA was performed using the MIXED procedure in SAS. The POM stimulated the secretory response by increasing mucin in the jejunal and colonic outflow by 99.7% and 54.1%, respectively, and jejunal IgA by 19.2%, whereas colonic lysozyme decreased 25.6% compared to the control (P < 0.05). Fittingly, the POM raised the number of goblet cells by 96.7% in jejunal and 56.9% in colonic loops compared to control loops (P < 0.05). The POM further flattened jejunal villi by 18.3% and reduced crypt depth in jejunal and colonic loops by 53.8% and 9.0% compared to the control (P < 0.05); observations typically made postweaning and indicative for mucosal recognition of 'foreign' compounds. The POM altered the jejunal and colonic net ion flux as indicated by 22.7% and 59.2% greater short-circuit current compared to control loops, respectively; the effect being stronger postweaning (P < 0.05). Colonic barrier function improved with age (P < 0.05), whereas POM perfusion compromised the mucosal barrier as suggested by 17.7% and 54.1% greater GT and mucosal-to-serosal flux of fluorescein-isothiocyanate dextran, respectively, compared to the control (P < 0.05). In conclusion, results demonstrated that the preweaning gut epithelium acutely responds to novel compounds in postweaning digesta by upregulating the first line of defense (i.e., mucin and lysozyme secretion) and impairment of the structural integrity.
断奶常常使仔猪易患肠道功能障碍。在断奶前,肠道黏膜被以牛奶为导向的微生物组(MOM)定植,而在断奶后,其对以植物为导向的微生物组(POM)的急性反应鲜为人知。我们使用肠袢灌流试验(ILPA)评估了接受基于牛奶的(即,断奶前)或基于植物的(即,断奶后)饮食的仔猪的小肠道和大肠道中的上皮结构、分泌反应和通透性。POM 是从 4 只 7 周龄断奶(生命第 28 天)仔猪的空肠和结肠内容物中制备的,具有特定于肠道部位的微生物和代谢产物组成。在两个重复批次中,16 只仔猪在断奶前(第 24 至 27 天)和 16 只仔猪在断奶后(第 38 至 41 天)进行了两次连续的 ILPA。每只仔猪的 2 个空肠和结肠袢分别用 Krebs-Henseleit 缓冲液(对照)或各自的 POM 进行灌流。流出液用于分析抗菌分泌物。每次 ILPA 后,使用 Ussing 室收集组织学和电生理学的空肠和结肠袢组织。使用 SAS 的 MIXED 过程进行方差分析。POM 通过将空肠和结肠流出物中的粘蛋白分别增加 99.7%和 54.1%,以及将空肠 IgA 增加 19.2%,从而刺激了分泌反应,而与对照相比,结肠溶菌酶减少了 25.6%(P < 0.05)。恰当地说,与对照相比,POM 使空肠和结肠袢中的杯状细胞数量分别增加了 96.7%和 56.9%(P < 0.05)。POM 进一步使空肠绒毛变平,使空肠和结肠袢的隐窝深度分别减少 53.8%和 9.0%(P < 0.05);这些观察结果通常在断奶后出现,表明黏膜对“外来”化合物的识别。POM 改变了空肠和结肠的净离子通量,与对照相比,分别有 22.7%和 59.2%更大的短路电流(P < 0.05);这种影响在断奶后更强(P < 0.05)。结肠屏障功能随年龄增长而改善(P < 0.05),而 POM 灌注会损害黏膜屏障,与对照相比,GT 和荧光素异硫氰酸酯葡聚糖的黏膜-浆膜通量分别增加 17.7%和 54.1%(P < 0.05)。总之,结果表明,断奶前的肠道上皮在断奶后通过上调第一道防线(即粘蛋白和溶菌酶分泌)和损害结构完整性来急性应对新化合物。
