%0 Journal Article
%T Amyloid ¦Â©\induced elevation of O©\GlcNAcylated c©\Fos promotes neuronal cell death
%A Chaeyoung Kim
%A Haeng Jun Kim
%A Heesun Choi
%A Hyun Jin Cho
%A Hyundong Song
%A Moon©\Yong Cha
%A Sung Min Son
%J Archive of "Aging Cell".
%D 2019
%R 10.1111/acel.12872
%X Alzheimer's disease (AD) is an age©\related neurodegenerative disease characterized by progressive memory loss resulting from cumulative neuronal cell death. O©\linked ¦Â©\N©\acetyl glucosamine (O©\GlcNAc) modification of the proteins reflecting glucose metabolism is altered in the brains of patients with AD. However, the link between altered O©\GlcNAc modification and neuronal cell death in AD is poorly understood. Here, we examined the regulation of O©\GlcNAcylation of c©\Fos and the effects of O©\GlcNAcylated c©\Fos on neuronal cell death during AD pathogenesis. We found that amyloid beta (A¦Â)©\induced O©\GlcNAcylation on serine©\56 and 57 of c©\Fos was resulted from decreased interaction between c©\Fos and O©\GlcNAcase and promoted neuronal cell death. O©\GlcNAcylated c©\Fos increased its stability and potentiated the transcriptional activity through higher interaction with c©\Jun, resulting in induction of Bim expression leading to neuronal cell death. Taken together, A¦Â©\induced O©\GlcNAcylation of c©\Fos plays an important role in neuronal cell death during the pathogenesis of AD
%K Alzheimer¡¯s disease
%K c©\Fos
%K glucose metabolism
%K neuronal cell death
%K O©\linked ¦Â©\N©\acetyl glucosamine (O©\GlcNAc)
%K ¦Â©\amyloid (A¦Â)
%U https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6351842/