Abstract
Mutant superoxide dismutase type 1 (MTSOD1) is thought to cause ∼20% of cases of familial amyotrophic lateral sclerosis (FALS) because it misfolds and aggregates. Previous studies have shown that MTSOD1 accumulates inside the endoplasmic reticulum (ER) and activates the unfolded protein response (UPR), suggesting that ER stress is involved in the pathogenesis of FALS. We used a genetic approach to investigate the role of the UPR in FALS. We crossed G85RSOD1 transgenic mice with pancreatic ER kinase haploinsufficient (PERK(+/-)) mice to obtain G85R/PERK(+/-) mice. PERK(+/-) mice carry a loss of function mutation of PERK, which is the most rapidly activated UPR pathway, but have no abnormal phenotype. Compared with G85R transgenic mice, G85R/PERK(+/-) mice had a dramatically accelerated disease onset as well as shortened disease duration and lifespan. There was also acceleration of the pathology and earlier MTSOD1 aggregation. A diminished PERK response accelerated disease and pathology in G85R transgenic mice presumably because the mice had a reduced capacity to turn down synthesis of misfolded SOD1, leading to an early overloading of the UPR. The results indicate that the UPR has a significant influence on FALS, and suggest that enhancing the UPR may be effective in treating ALS.