Staufen Impairs Autophagy in Neurodegeneration

Abstract: Objective The mechanistic target of rapamycin (mTOR) kinase is one of the master coordinators of cellular stress responses, regulating metabolism, autophagy, and apoptosis. We recently reported that staufen1 (STAU1), a stress granule (SG) protein, was overabundant in fibroblast cell lines from patients with spinocerebellar ataxia type 2 (SCA2), amyotrophic lateral sclerosis, frontotemporal degeneration, Huntington's, Alzheimer's, and Parkinson's diseases as well as animal models, and patient tissues. STAU1 ove… Show more

“…16.516816 doi: bioRxiv preprint neurodegenerative diseases, including in the relevant cellular and transgenic mouse models and human patient tissues and cultured fibroblast cells. In addition to SCA2 these include Huntington's disease (HD), C9orf72 ALS, and TDP-43 ALS (1,3,4). STAU1 overabundance is associated with abnormal autophagy in multiple human tissues and mouse models of neurodegenerative disease (1,3,4).…”

“…In addition to SCA2 these include Huntington's disease (HD), C9orf72 ALS, and TDP-43 ALS (1,3,4). STAU1 overabundance is associated with abnormal autophagy in multiple human tissues and mouse models of neurodegenerative disease (1,3,4). Mechanistically, this occurs by STAU1 direct interaction with the MTOR mRNA 5'-UTR resulting in its increased translation (4).…”

“…We found that STAU1 is overabundant in SCA2 and other neurodegenerative diseases, including in the relevant cellular and transgenic mouse models and human patient tissues and cultured fibroblast cells. In addition to SCA2 these include Huntington’s disease (HD), C9orf72 ALS, and TDP-43 ALS (1,3,4).…”

“…STAU1 overabundance is associated with abnormal autophagy in multiple human tissues and mouse models of neurodegenerative disease (1,3,4). Mechanistically, this occurs by STAU1 direct interaction with the MTOR mRNA 5’-UTR resulting in its increased translation (4). Reducing STAU1 abundance normalized autophagy marker proteins in various systems including HEK-293 cells edited to express polyglutamine expanded ATXN2-Q58, and cultured patient fibroblasts from SCA2, TDP-43 and C9orf72 ALS patients, and transgenic mouse models with TDP-43 or C9orf72 mutations (3,4).…”

“…Mechanistically, this occurs by STAU1 direct interaction with the MTOR mRNA 5’-UTR resulting in its increased translation (4). Reducing STAU1 abundance normalized autophagy marker proteins in various systems including HEK-293 cells edited to express polyglutamine expanded ATXN2-Q58, and cultured patient fibroblasts from SCA2, TDP-43 and C9orf72 ALS patients, and transgenic mouse models with TDP-43 or C9orf72 mutations (3,4). Additionally, lowering Staufen abundance improves SCA2 mouse motor phenotypes and protein aggregations and mTOR-related autophagy phenotypes (1,3,4).…”

Targeting Staufen 1 with antisense oligonucleotides for treating ALS and SCA2

“…16.516816 doi: bioRxiv preprint neurodegenerative diseases, including in the relevant cellular and transgenic mouse models and human patient tissues and cultured fibroblast cells. In addition to SCA2 these include Huntington's disease (HD), C9orf72 ALS, and TDP-43 ALS (1,3,4). STAU1 overabundance is associated with abnormal autophagy in multiple human tissues and mouse models of neurodegenerative disease (1,3,4).…”

“…In addition to SCA2 these include Huntington's disease (HD), C9orf72 ALS, and TDP-43 ALS (1,3,4). STAU1 overabundance is associated with abnormal autophagy in multiple human tissues and mouse models of neurodegenerative disease (1,3,4). Mechanistically, this occurs by STAU1 direct interaction with the MTOR mRNA 5'-UTR resulting in its increased translation (4).…”

“…We found that STAU1 is overabundant in SCA2 and other neurodegenerative diseases, including in the relevant cellular and transgenic mouse models and human patient tissues and cultured fibroblast cells. In addition to SCA2 these include Huntington’s disease (HD), C9orf72 ALS, and TDP-43 ALS (1,3,4).…”

“…STAU1 overabundance is associated with abnormal autophagy in multiple human tissues and mouse models of neurodegenerative disease (1,3,4). Mechanistically, this occurs by STAU1 direct interaction with the MTOR mRNA 5’-UTR resulting in its increased translation (4). Reducing STAU1 abundance normalized autophagy marker proteins in various systems including HEK-293 cells edited to express polyglutamine expanded ATXN2-Q58, and cultured patient fibroblasts from SCA2, TDP-43 and C9orf72 ALS patients, and transgenic mouse models with TDP-43 or C9orf72 mutations (3,4).…”

“…Mechanistically, this occurs by STAU1 direct interaction with the MTOR mRNA 5’-UTR resulting in its increased translation (4). Reducing STAU1 abundance normalized autophagy marker proteins in various systems including HEK-293 cells edited to express polyglutamine expanded ATXN2-Q58, and cultured patient fibroblasts from SCA2, TDP-43 and C9orf72 ALS patients, and transgenic mouse models with TDP-43 or C9orf72 mutations (3,4). Additionally, lowering Staufen abundance improves SCA2 mouse motor phenotypes and protein aggregations and mTOR-related autophagy phenotypes (1,3,4).…”

Targeting Staufen 1 with antisense oligonucleotides for treating ALS and SCA2

Role of Apoptosis in Neurodegeneration: Therapeutic Targets and Strategies

TMEM16A Activation Inhibits Autophagy in Dorsal Root Ganglion Cells, Which is Associated with the p38 MAPK/mTOR Pathway