A lead role for a“secondary”axonal injury responseOA
Stress signaling following axon injury stimulates a transcriptional program for regeneration that might be exploited to promote central nervous system repair.However,this stress response drives neuronal apoptosis in non-regenerative environments.This duality presents a quandary for the development of therapeutic interventions:manipulating stress signaling to enhance recovery of damaged neurons risks accelerating neurodegeneration or restricting regenerative potential.This dichotomy is well illustrated by the fates of retinal ganglion cells(RGCs)following optic nerve crush.In this central nervous system injury model,disruption of a stress-activated MAP kinase(MAPK)cascade blocks the extensive apoptosis of RGCs that occurs in wild-type mice(Watkins et al.,2013;Welsbie et al.,2017).
Melissa A.Rudy;Trent A.Watkins;
Division of Neuroimmunology and Glial Biology,Department of Neurology,University of California at San Francisco,San Francisco,CA,USA Development,Disease Models,and Therapeutics Graduate Program,Baylor College of Medicine,Houston,TX,USADivision of Neuroimmunology and Glial Biology,Department of Neurology,University of California at San Francisco,San Francisco,CA,USA
临床医学
injuryaxonalstress
《Neural Regeneration Research》 2025 (002)
P.469-470 / 2
supported by grants from Mission Connect,a project of the TIRR Foundation,the Glaucoma Research Foundation,and NIH grants R01NS112691 and R01NS076708(to TAW).
评论