Alginate-based microparticles coated with HPMCP/AS cellulose-derivatives enable the Ctx(Ile21)-Ha antimicrobial peptide application as a feed additive

Abstract

ABSTRACTMicroencapsulation is a potential biotechnological tool, which can overcome AMPs instabilities and reduce toxic side effects. Thus, this study evaluates the antibacterial activities of the Ctx(Ile21)-Ha antimicrobial peptide against MDR and non-resistant bacteria, develop and characterize peptide-loaded microparticles coated with HPMCAS and HPMCP. Ctx(Ile21)-Ha microencapsulation was performed by ionic gelation with high-efficiency, maintaining the physical-chemical stability. Ctx(Ile21)-Ha coated-microparticles were characterized, and their hemolytic activity assay demonstrated that hemolysis was decreased up to 95% compared to single molecule. In addition, in vitro release control profile simulating different portions of gastrointestinal tract was performed and showed the microcapsules’ ability to protect the peptide and release it in the intestine, aimed pathogens location, mainly by Salmonella sp. Therefore, use of microencapsulated Ctx(Ile21)-Ha can be allowed as an antimicrobial controller in monogastric animal production, being a valuable option for molecules with low therapeutic indexes or high hemolytic rates.