AIF3 splicing switch triggers neurodegeneration.
Shuiqiao LiuMi ZhouZhi RuanYanan WangCalvin ChangMasayuki SasakiVeena RajaramAndrew LemoffKalyani NambiarJennifer E WangKimmo J HatanpaaWeibo LuoTed M DawsonValina L DawsonYingfei WangPublished in: Molecular neurodegeneration (2021)
We identified AIF3 as a disease-inducible isoform and established AIF3 splicing mouse model. The molecular mechanism underlying AIF3 splicing-induced neurodegeneration involves mitochondrial dysfunction and AIF3 nuclear translocation resulting from the synergistic effect of loss-of-AIF and gain-of-AIF3. Our study provides a valuable tool to understand the role of AIF3 splicing in brain and a potential therapeutic target to prevent/delay the progress of neurodegenerative diseases.