Androgenetic alopecia(AGA),the most prevalent form of hair loss,urgently requires breakthroughs in existing therapies due to limitations such as medication side effects,recurrence risks,and treatment inefficacy.Herein...Androgenetic alopecia(AGA),the most prevalent form of hair loss,urgently requires breakthroughs in existing therapies due to limitations such as medication side effects,recurrence risks,and treatment inefficacy.Herein,we propose an insulin-derived self-assembling sequence Ac-GFFY,combined with the C domain peptide of insulin-like growth factor 1,successfully designing an IGF-1 biomimetic peptide factor,Ac-GFFY-IGF,which can substitute for the absent IGF-1 in the AGA pathological environment and facilitate hair regrowth.Compared with IGF-1,Ac-GFFY-IGF exhibits superior in vitro stability and enhanced skin permeability.In the murine AGA model,Ac-GFFY-IGF demonstrated superior efficacy to the clinically used minoxidil,achieving faster hair regeneration,higher hair quality,and broader hair coverage at lower concentrations.Our strategy provides a critical theoretical foundation and technical pathway for developing novel mechanism-driven therapies for AGA.展开更多
基金supported by the National Key R&D Program of China(No.2022YFC2304202)the National Natural Science Foundation of China(32171325,32201094)+2 种基金the Shenzhen Science and Technology Program(KQTD20240729102037042)Soft Science Research Program of Zhejiang Province(2023C15012)the Natural Science Foundation of Tianjin(22JCZDJC00280,23JCZDJC01020).
文摘Androgenetic alopecia(AGA),the most prevalent form of hair loss,urgently requires breakthroughs in existing therapies due to limitations such as medication side effects,recurrence risks,and treatment inefficacy.Herein,we propose an insulin-derived self-assembling sequence Ac-GFFY,combined with the C domain peptide of insulin-like growth factor 1,successfully designing an IGF-1 biomimetic peptide factor,Ac-GFFY-IGF,which can substitute for the absent IGF-1 in the AGA pathological environment and facilitate hair regrowth.Compared with IGF-1,Ac-GFFY-IGF exhibits superior in vitro stability and enhanced skin permeability.In the murine AGA model,Ac-GFFY-IGF demonstrated superior efficacy to the clinically used minoxidil,achieving faster hair regeneration,higher hair quality,and broader hair coverage at lower concentrations.Our strategy provides a critical theoretical foundation and technical pathway for developing novel mechanism-driven therapies for AGA.
