Cathepsin B promotes Aβ proteotoxicity by modulating aging regulating mechanisms
Atif Ahmed Siddiqui, Emmanuelle Merquiol, Reut Bruck-Haimson, Joud Hirbawi, Hana Boocholez, Irit Cohen, Yonghong Yan, Meng‐Qiu Dong, Galia Blum, Ehud Cohen
Abstract
While the activities of certain proteases promote proteostasis and prevent neurodegeneration-associated phenotypes, the protease cathepsin B (CTSB) enhances proteotoxicity in Alzheimer’s disease (AD) model mice, and its levels are elevated in brains of AD patients. How CTSB exacerbates the toxicity of the AD-causing Amyloid β (Aβ) peptide is controversial. Using an activity-based probe, aging-altering interventions and the nematode C. elegans, we discovered that the CTSB CPR-6 promotes Aβ proteotoxicity but mitigates the toxicity of polyQ stretches. While the knockdown of cpr-6 does not affect lifespan, it alleviates Aβ toxicity by reducing the expression of swsn-3 and elevating the level of the protein SMK-1, both involved in the regulation of aging. These observations unveil a mechanism by which CTSB aggravates Aβ–mediated toxicity, indicate that it plays opposing roles in the face of distinct proteotoxic insults and highlight the importance of tailoring specific remedies for distinct neurodegenerative disorders. Neurodegenerative diseases can be exacerbated by excess protease activity by unknown mechanisms. Here, Siddiqui et al. find that in worms, cpr-6 knockdown mitigates the toxicity of the Alzheimer’s-causing Aβ peptide by modulating aging-regulating pathways, thereby enhancing proteostasis.