甲壳素
离体
毛囊
体内
脱发
毛发生长
发干
化学
疤痕性秃发
头皮
药理学
自噬
细胞生物学
结构完整性
伤口愈合
医学
作者
Jiaxue Zhang,Jiaxue Zhang,Yijia Zhang,Ying Yang,Wenhui Bai,Zhiqi Wang,Chen Yang,Peipei Zhang,Qingqing Li,Lei Zhang,Lei Zhang,Jia Ma
标识
DOI:10.1002/adhm.202504691
摘要
Androgenic alopecia (AGA) is the most common type of hair loss in clinical practice, which not only compromises scalp physiology but also induces psychological comorbidities. Despite its high prevalence, current therapeutic interventions for AGA remain constrained by prolonged treatment durations, notable safety risks, and prohibitive expenses. To address these limitations, we engineered detachable microneedles incorporating TEMPO-oxidized chitin derivatives (CD MNs), which demonstrated unprecedented hair regenerative capacity. In C57BL/6j AGA models, CD MNs induced 71.56% ± 14.20% hair regrowth density at day 16 (vs. 32.23% ± 14.55% for 5% minoxidil, the current clinical gold standard). Ex vivo AGA hair follicle exhibited 0.93 ± 0.15 mm hair shaft elongation under chitin derivatives treatment within 5 days, which is comparable to minoxidil. Mechanistic profiling via single-cell RNA sequencing identified CD MNs mediated suppression of lysosomal hydrolases and membrane proteins, indicating autophagy potentiation. Further ex vivo studies confirmed that chitin derivatives promoted hair growth by activating the hair follicle autophagy. Notably, the microneedle system exhibited no detectable dermal or visceral toxicity. To our knowledge, this study is the first to report the anti-AGA activity of chitin derivatives. Our findings established a robust theoretical foundation and preclinical validation for chitin-based biomaterials as next-generation AGA therapies, offering a safe, cost-effective alternative to conventional therapies.
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