Norepinephrine(NA),a stress hormone,can accelerate hair graying by binding toβ2 adrenergic receptors(β_(2)AR)on melanocyte stem cells(McSCs).From this,NA-β_(2)AR axis could be a potential target for preventing the ...Norepinephrine(NA),a stress hormone,can accelerate hair graying by binding toβ2 adrenergic receptors(β_(2)AR)on melanocyte stem cells(McSCs).From this,NA-β_(2)AR axis could be a potential target for preventing the stress effect.However,identifying selective blockers forβ_(2)AR has been a key challenge.Therefore,in this study,advanced computer-aided drug design(CADD)techniques were harnessed to screen natural molecules,leading to the discovery of rhynchophylline as a promising compound.Rhynchophylline exhibited strong and stable binding within the active site ofβ_(2)AR,as verified by molecular docking and dynamic simulation assays.When administered to cells,rhyncho-phylline effectively inhibited NA-β_(2)AR signaling.This intervention resulted in a significant reduction of hair graying in a stress-induced mouse model,from 28.5%to 8.2%.To gain a deeper understanding of the underlying mechanisms,transcriptome sequencing was employed,which revealed that NA might disrupt melanogenesis by affecting intracellular calcium balance and promoting cell apoptosis.Importantly,rhynchophylline acted as a potent inhibitor of these downstream pathways.In conclusion,the study demonstrated that rhynchophylline has the potential to mitigate the negative impact of NA on melanogenesis by targetingβ_(2)AR,thus offering a promising solution for preventing stress-induced hair graying.展开更多
基金the Shenzhen Science and Technology Innovation Committee(grant numbers JCYJ20200109142444449,JCYJ20210324120007021)the National Natural Science Foundation of China(grant numbers 31801196)Basic and Applied Basic Research Foundation of Guangdong Province(grant numbers 2022A1515110645).
文摘Norepinephrine(NA),a stress hormone,can accelerate hair graying by binding toβ2 adrenergic receptors(β_(2)AR)on melanocyte stem cells(McSCs).From this,NA-β_(2)AR axis could be a potential target for preventing the stress effect.However,identifying selective blockers forβ_(2)AR has been a key challenge.Therefore,in this study,advanced computer-aided drug design(CADD)techniques were harnessed to screen natural molecules,leading to the discovery of rhynchophylline as a promising compound.Rhynchophylline exhibited strong and stable binding within the active site ofβ_(2)AR,as verified by molecular docking and dynamic simulation assays.When administered to cells,rhyncho-phylline effectively inhibited NA-β_(2)AR signaling.This intervention resulted in a significant reduction of hair graying in a stress-induced mouse model,from 28.5%to 8.2%.To gain a deeper understanding of the underlying mechanisms,transcriptome sequencing was employed,which revealed that NA might disrupt melanogenesis by affecting intracellular calcium balance and promoting cell apoptosis.Importantly,rhynchophylline acted as a potent inhibitor of these downstream pathways.In conclusion,the study demonstrated that rhynchophylline has the potential to mitigate the negative impact of NA on melanogenesis by targetingβ_(2)AR,thus offering a promising solution for preventing stress-induced hair graying.