Abstract
Antimicrobial resistance (AMR) is one of the most serious threats for human health in the near future. Livestock has played an important role in the appearance of antibiotic-resistant bacteria, intestinal dysbiosis in farming animals, or the spread of AMR among pathogenic bacteria of human concern. The development of alternatives like probiotics is focused on maintaining or improving production levels while diminishing these negative effects of antibiotics. To this end, we supplied the potential probiotic Enterococcus faecalis UGRA10 in the diet of laying hens at a final concentration of 108 Colony Forming Units per gram (CFU/g) of fodder. Its effects have been analyzed by: (i) investigating the response of the ileum and caecum microbiome; and (ii) analyzing the outcome on eggs production. During the second half of the experimental period (40 to 76 days), hens fed E. faecalis UGRA10 maintained egg production, while control animals dropped egg production. Supplementation diet with E. faecalis UGRA10 significantly increased ileum and caecum bacterial diversity (higher bacterial operational taxonomic unit richness and Faith’s diversity index) of laying hens, with animals fed the same diet showing a higher similarity in microbial composition. These results point out to the beneficial effects of E. faecalis UGRA10 in egg production. Future experiments are necessary to unveil the underlying mechanisms that mediate the positive response of animals to this treatment.
Highlights
The emergence of antimicrobial resistance (AMR) is a worldwide issue in public health (Ferri et al, 2017; World Health Organization, 2018)
We investigated the possible influence of E. faecalis UGRA10 on egg production and gut microbiome of laying hens when administered in the diet, combining the classical culture techniques with the latest high throughput sequencing
The bacterial community of samples from hens treated with E. faecalis UGRA10 was very similar, other dominant genus as Phascolarctobacterium or Megamonas appeared (Supplementary Figure S2)
Summary
The emergence of antimicrobial resistance (AMR) is a worldwide issue in public health (Ferri et al, 2017; World Health Organization, 2018). This situation has been reached due to the abusive prescription of antibiotics, their inappropriate use by patients, and the abuse of these substances in livestock (Hecker et al, 2003; Levy and Marshall, 2004; Capita and Alonso-Calleja, 2013). The second reason is the discovery of the effects of antibiotics as growth promoters (AGPs, reviewed in McEwen and Fedorka-Cray, 2002; Dibner and Richards, 2005). The mechanisms of action are still unclear, antibiotic imbalance alters the bacterial communities of the intestine, causes alterations
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