Lactic acid bacteria (LAB) and butyric acid bacteria (BAB) are commonly used as probiotics in swine production. However, their combined effect on post-weaning pigs has not been assessed. Therefore, here we investigated the individual and combined efficacy of dietary
Enterococcus faecium
and
Clostridium butyricum
on the growth and gut microbiota of post-weaning pigs at a commercial farm. Four independent trials were conducted, in each of which five pens containing 10 pigs were assigned to one of five treatments: C, basal diet; L, basal diet + live
E. faecium
; D, basal diet + heat-killed
E. faecium
; M, basal diet +
C. butyricum
; or L+M, basal diet + live
E. faecium
+
C. butyricum
. Each trial was conducted over a 90-day period that was divided into two phases (Phase 1, days 0–40 post-weaning; and Phase 2, days 40–90 post-weaning), with the probiotics being supplemented only during Phase 1. Ten pigs in each pen were used for body weight (BW) analysis and fecal samples were collected from five or six of these pigs. In addition, the fecal samples from one randomly selected trial were used for gut microbiota analysis. We found that pigs in the L, D, and L+M treatment groups had a significantly higher BW than those in C (
p
< 0.05) but pigs in the L+M treatment group had a similar BW to those in the L and M groups. Furthermore, there were no significant differences in alpha diversity among the treatments but the beta diversity (weighted UniFrac distances) showed distinct clustering patterns, with pigs in C having discrete microbiota from those in all of the probiotics treatment groups except D (C vs. L,
q
= 0.04; C vs. M,
q
= 0.06; C vs. L+M,
q
= 0.06). These findings indicate that dietary supplementation with live or heat-killed
E. faecium
enhances growth performance in pigs but there is no synergistic effect when
E. faecium
is used in combination with
C. butyricum
. Furthermore, the addition of live
E. faecium
and
C. butyricum
to the diet of pigs may change the structure of the gut microbiota.
Probiotic bacteria such as lactic acid bacteria (LAB) have recently received attention as candidates for alternative anti-microbial feed additives. We previously isolated Enterococcus faecium strain NHRD IHARA (FERM BP-11090, NHRD IHARA strain) and reported its probiotic efficacy. However, we have not determined the effect of oral administration of heat-killed cells of this strain. Here, we performed two experiments to investigate the effect of oral administration of the heat-killed NHRD IHARA strain on post-weaning piglets. In Experiment 1, there was a significant improvement in growth performance (P = 0.04) and increase in serum immunoglobulin A (IgA) production (P = 0.03) in the group fed heat-killed cells. These results were similar to previous results we obtained with live cells. We also found changes in serum and fecal IgA production that were unrelated to the patterns of microbiotal change. In Experiment 2, we detected a significant improvement in villus growth in the jejunum (P = 0.0002). In conclusion, oral administration of the heat-killed NHRD IHARA strain in post-weaning piglets had the same efficacy as administration of the live strain. The heat-killed NHRD IHARA strain can be used as feed additives to improve pig growth and health on commercial farms.
We examined in vitro the adhesion of Enterococcus faecium NHRD IHARA (NHRD IHARA) to porcine small intestinal mucin (PSIM) and inhibition of the adherence of enteropathogenic bacteria due to pre-incubation of PSIM with NHRD IHARA. NHRD IHARA exhibited an effective barrier function in porcine small intestinal mucus layer.
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