The skin is the biggest organ in the human body. It is the first line of protection against
invading pathogens and the starting point for the immune system. The focus of this review is on
the use of amphibian-derived peptides and antimicrobial peptides (AMPs) in the treatment of
wound healing. When skin is injured, a chain reaction begins that includes inflammation, the formation
of new tissue, and remodelling of existing tissue to aid in the healing process. Collaborating
with non-immune cells, resident and recruited immune cells in the skin remove foreign invaders
and debris, then direct the repair and regeneration of injured host tissues. Restoration of
normal structure and function requires the healing of damaged tissues. However, a major issue
that slows wound healing is infection. AMPs are just one type of host-defense chemicals that have
developed in multicellular animals to regulate the immune response and limit microbial proliferation
in response to various types of biological or physical stress. Therefore, peptides isolated from
amphibians represent novel therapeutic tools and approaches for regenerating damaged skin. Peptides
that speed up the healing process could be used as therapeutic lead molecules in future research
into novel drugs. AMPs and amphibian-derived peptides may be endogenous mediators of
wound healing and treat non-life-threatening skin and epithelial lesions. Hence, this article describes
different peptides used in wound healing, theirmethods of preparation, and their routes of
administration.