1. This review describes different classes of antimicrobial peptides (AMP) found in the gastrointestinal (GI) tract of avian species, and their antimicrobial and immunomodulatory activities. The potential benefits of synthetic AMP in poultry production are examined, in the context of the use of AMP as alternatives to antimicrobial growth promoters (AGP). 2. Since the mid-1950s, antibiotic growth promoters (AGP) have been used in feed at low prophylactic doses to modulate the homoeostasis of intestinal microbiota, decreasing the risk of intestinal dysbacteriosis and the growth of pathogens within the avian gut. Over the last three decades, AGP have faced major regulatory restrictions due to concerns of generating antimicrobial resistance (AMR). It is now well documented that the rate of infectious disease outbreaks is higher in flocks that are not fed prophylactic antibiotics, resulting in a compensatory increase in antimicrobial use for therapeutic purposes. 3. Endogenous natural AMP production is associated with the presence of microbiota and their interaction with the intestinal epithelial and lamina propria lymphoid cells. Their antimicrobial activity shapes the beneficial microbiota population and controls intestinal pathogens such Clostridium and Salmonella spp., and stimulates the development and maturation of the local immune system. 4. Similar to AGP, AMP can establish a well-balanced gut beneficial microbiota for adequate immunecompetence, animal health and high growth performance parameters such as feed intake, daily weight, feed conversion and accumulated mortality. 5. Antimicrobial proteins and peptides constitute an essential part of the innate immune system of all organisms and protect the host from invading pathogenic bacteria, viruses, fungi, and parasites by interacting with the negatively charged pathogen membranes.
In this study, we report that host defense protein-derived ten amino acid long disulfide-linked peptides self-assemble in the form of β-sheets and β-turns, and exhibit concentration-dependent self-assembly in the form...
This study involves the design and development of disulfide bridge-linked antimicrobial peptides using the host defense protein Angiogenin 4 (chAng4) as a template. The mini peptides derived from chAng4 (mCA4s) were evaluated for their antibacterial efficacies in various pathogenic bacterial strains, and the role of the oxidation state of thiols in the peptide sequence and its implication on antibacterial properties were explored. A remarkable property of these synthetic mCA4 peptides is their capability to flocculate bacteria and mediate bacterial-specific killing, in the absence of any other external stimulus. mCA4s were further evaluated for their cellular uptake, hemolytic activities, toxicities, and immunomodulatory activities in different eukaryotic cell lines. The results indicate that disulfide bridge-containing cationic amphipathic peptides show superior antibacterial efficacies, are nontoxic and nonhemolytic, and mediate bacterial flocculation and killing, in the absence of external stimuli.
This
study reports the synthesis of well-defined polymers of vitamin
B5 analogous methacrylamide (poly(B5AMA)) using the reversible addition
fragmentation chain transfer polymerization method. The prepared telechelic
poly(B5AMA) with a predicted molecular weight and narrow polydispersities
are grafted onto silanized glass surfaces using a “grafting to” approach. The polymer-treated samples
are characterized for the water contact angle and surface roughness
properties, as a function of polymer size and density of the polymers
grafted onto the glass slides. The antifouling behavior of poly(B5AMA)-grafted
glass slides is then studied and compared with that of PEGylated glass
slides, upon treatment with a variety of proteins and bacteria. The
functionalized surfaces exhibit remarkable antifouling properties
that are found to be dependent on both the density and the molecular
weight of the grafted polymers.
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