Department of Animal and Food Sciences, Animal Nutrition and Welfare Service, Universitat Autònoma de Barcelona, Bellaterra 08193, Spain.
Department of Biotechnology, Institute of Agrochemistry and Food Technology-National Research Council (IATA-CSIC), Valencia 49860, Spain.
J Anim Sci. 2022 Jun 1;100(6). doi: 10.1093/jas/skac163.
The effect of long-term administration of two Bacillus strains was tested on 98 breeding sows and their litters allotted into three treatments: a control group (CON); supplemented with 5 × 108 cfu/kg B. subtilis - 541 (BSU); or with 5 × 108 cfu/kg B. amyloliquefaciens - 516 (BAM). Reproductive and performance variables were recorded over three cycles with 56 dams remaining through the third lactation. Blood and fecal samples were taken longitudinally from 12 sows per treatment on days 8 and 21 of the third lactation and milk samples were taken on day 21. Feces from one piglet per litter was sampled on days 21 and 33 and jejunal gene expression was assessed in two piglets on day 21. Changes in fecal microbiota were assessed by 16S rRNA gene sequencing (Illumina MiSeq) and gene expression by Open-Array technology. Metabolomic responses were analyzed in milk by NMR and Ig-G and Ig-A specific antibodies were determined by ELISA. No significant differences were observed on feed intake, body weight, or fat mobilization of the sows. However, a significant increase in the total number of piglets born was observed in supplemented sows. Although the increase was seen from the first cycle with BAM, improvements were not seen with BSU until the third cycle. BAM also increased the number of born-alive and weaned piglets. NMR analysis showed an impact of BAM on milk composition. No differences were found in milk or blood immunoglobulins. A different structure of the fecal microbiota was found in supplemented sows, with changes across phylum, family, and genus. These changes were greater at day 8, suggesting a relevant role of probiotics establishing a new intestinal balance after labor. Shifts in the microbiota were also seen in the piglets, with a clearer impact post-weaning than in suckling. In this regard, correlations between microbial groups of sows and piglets showed a higher link with weaned (d33) than with suckling pigs (d21), reinforcing the idea of an early maternal carry-over. No changes due to treatment in jejunal gene expression were detected; however, piglet size had a clear impact on different genes. In summary, the addition of both probiotics, and particularly Bacillus amyloliquefaciens, demonstrated potential benefits on the prolificacy of sows. Daily feeding of Bacillus amyloliquefaciens resulted in an increase in the number of weaned piglets. The high correlations between the compositions of the microbiota of sows and their piglets are evidence of maternal imprinting, with effects lasting beyond weaning.
长期给 98 头母猪及其仔猪(分三组)饲喂两株芽孢杆菌:对照组(CON);5×108cfu/kg枯草芽孢杆菌-541(BSU);或 5×108cfu/kg解淀粉芽孢杆菌-516(BAM)。在三个周期内记录了繁殖和性能变量,在第三个哺乳期有 56 头母猪通过。在第三个哺乳期的第 8 天和第 21 天,每处理 12 头母猪采集血液和粪便样本,并在第 21 天采集奶样。在第 21 天和第 33 天,每个窝的一头仔猪的粪便进行了采样,并在第 21 天评估了两头仔猪的空肠基因表达。通过 16S rRNA 基因测序(Illumina MiSeq)评估粪便微生物群的变化,并通过 Open-Array 技术评估基因表达。通过 NMR 分析奶中的代谢组学反应,并通过 ELISA 测定 Ig-G 和 Ig-A 特异性抗体。未观察到母猪采食量、体重或脂肪动员的显著差异。然而,补充母猪的总产仔数显著增加。尽管 BAM 从第一个周期开始就观察到了这种增加,但 BSU 直到第三个周期才观察到改善。BAM 还增加了活产和断奶仔猪的数量。NMR 分析表明 BAM 对牛奶成分有影响。牛奶或血液中的免疫球蛋白没有差异。补充母猪的粪便微生物群结构发生了变化,在门、科和属水平上都有变化。这些变化在第 8 天更大,表明益生菌在分娩后建立新的肠道平衡方面发挥了重要作用。仔猪的微生物群也发生了变化,断奶后的影响比哺乳时更明显。在这方面,母猪和仔猪的微生物群群之间的相关性与断奶仔猪(d33)的相关性高于哺乳仔猪(d21),这加强了早期母体传递的想法。在空肠基因表达方面,未检测到因处理而导致的变化;然而,仔猪的大小对不同的基因有明显的影响。总之,两种益生菌的添加,特别是解淀粉芽孢杆菌,对母猪的繁殖力表现出潜在的益处。每天给母猪喂食解淀粉芽孢杆菌会增加断奶仔猪的数量。母猪及其仔猪的微生物群组成之间的高度相关性证明了母体印记的存在,其影响持续到断奶后。
