Functional characterisation of bioactive peptide derived from terrestrial snail Cryptozona bistrialis and its wound ‐healing property in normal and diabetic‐induced Wistar albino rats

In this report, it was isolated from the terrestrial snail Cryptozona bistrialis by enzymatic digestion and was evaluated for its in vitro wound‐healing activity in NIH/3T3 mouse fibroblasts cell line and in vivo wound‐healing activity in normal and diabetic‐induced Wistar albino rats. The C. bistrialis protein was digested by the papain enzyme, and 21.79 kDa peptide (Cb‐peptide) was purified by reversed‐phase high‐performance liquid chromatography and identified by MALDI (matrix‐assisted laser desorption/ionization)‐TOF analysis. The isolated Cb‐peptide was characterised by various analytical methods. The peptide demonstrated a capacity to prevent the development of pathogenic bacterial and fungal cultures and proved that it promotes significant wound‐healing activity in the wound scratch assay method by rapid cell migration and closure of wound. Isolated Cb‐peptide was lyophilised and formulated to ointment and analysed for in vivo wound‐healing activity in normal and diabetic (alloxan monohydrate)‐induced Wistar albino rats. Cb‐peptide ointment‐treated groups showed a greater degree of wound healing and early and complete period of epithelialisation in normal and diabetic‐induced Wistar albino rats. Cb‐peptide ointment‐treated groups showed significant excision and incision wound‐healing activity. A conclusion was reached that the peptide isolated from C. bistrialis showed greater wound‐healing activity compared with vehicle contro...
Source: International Wound Journal - Category: Surgery Authors: Tags: ORIGINAL ARTICLE Source Type: research