Abstract
With the reemergence of poultry diseases such as necrotic enteritis following the restriction of in-feed antibiotics, the search for antibiotic alternatives has become critically important. Postbiotics are non-viable bacterial products or metabolic byproducts from probiotic microorganisms that have positive effects on the host or microbiota. These are a promising alternative to antibiotics. Here, we describe the mechanism of action of a postbiotic in the context of a Clostridium perfringens (C. perfringens) challenge model. By using performance measurements and a peptide array kinome analysis, we describe the kinotypes and signal transduction changes elicited by the postbiotic with and without C. perfringens challenge. The postbiotic improves lesion scores, C. perfringens counts and mortality compared to challenge groups without the postbiotic, and it improves weight gain in the most severely challenged birds. The postbiotic predominantly affects the innate immune response and appears immunomodulatory. In the context of infection, it reduces the proinflammatory responses and generates a homeostatic-like response. This postbiotic is a viable alternative to antibiotics to improve poultry health in the context of C. perfringens pathogen challenge.
Highlights
Commercial poultry is one of the most efficient sources of animal-protein available today [1]
For weight gain over the 21 days, the postbiotic numerically reduced gain compared to C. perfringens-inoculated groups except in the C. perfringens plus Coccivac and postbiotic vs. C. perfringens plus Coccivac (781 vs. 697 g Trial 1; 795 vs. 664 g Trial 2) and the C. perfringens plus postbiotic vs. C. perfringens alone in Trial 2 (725 vs. 647 g)
In order to determine the effect of the metabolite on a pathogenic challenge, we focused on three groups: Postbiotic-treated, C. perfringens-challenged, and postbiotic plus C. perfringens challenge
Summary
Commercial poultry is one of the most efficient sources of animal-protein available today [1]. The federal government has begun enforcing the Food and Drug Administration Veterinary Feed Directive in 2017 that is significantly reducing the availability and usage of antibiotics as growth promoters in farm animals [4]. One promising avenue for the enhancement of bird growth and health are “biotic” feed additives, probiotics, prebiotics and postbiotics [6]. Probiotics, more commonly referred to in animal production as direct fed microbials, are live bacterial cultures that take up residence in the animal gut and, ideally, provide a beneficial function. Postbiotics are fed products that are generally produced by beneficial gut microbes and have a positive impact on host health
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