Abstract
Hair follicles, unique skin appendages, undergo cyclic phases (anagen, catagen, telogen) governed by melatonin and associated molecular pathways. Melatonin, synthesized in the pineal gland, skin, and gut, orchestrates these cycles through antioxidant activity and signaling cascades (e.g., Wnt, BMP). This review examines melatonin's biosynthesis across tissues, its regulation of cashmere growth patterns, and its interplay with non-coding RNAs and the gut-skin axis. Recent advances highlight melatonin's dual role in enhancing antioxidant capacity (via Keap1-Nrf2) and modulating gene expression (e.g., Wnt10b, CTNNB1) to promote hair follicle proliferation. By integrating multi-omics insights, we construct a molecular network of melatonin's regulatory mechanisms, offering strategies to improve cashmere yield and quality while advancing therapies for human alopecia.