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Small-molecule suppression of calpastatin degradation reduces neuropathology in models of Huntington’s disease

Di Hu, Xiaoyan Sun, Anniefer N. Magpusao, Yuriy Fedorov, Matthew A. Thompson, Benlian Wang, Kathleen C. Lundberg, Drew Adams, Xin Qi

2021Nature Communications62 citationsDOIOpen Access PDF

Abstract

Mitochondrial dysfunction is a common hallmark of neurological disorders, and reducing mitochondrial damage is considered a promising neuroprotective therapeutic strategy. Here, we used high-throughput small molecule screening to identify CHIR99021 as a potent enhancer of mitochondrial function. CHIR99021 improved mitochondrial phenotypes and enhanced cell viability in several models of Huntington's disease (HD), a fatal inherited neurodegenerative disorder. Notably, CHIR99201 treatment reduced HD-associated neuropathology and behavioral defects in HD mice and improved mitochondrial function and cell survival in HD patient-derived neurons. Independent of its known inhibitory activity against glycogen synthase kinase 3 (GSK3), CHIR99021 treatment in HD models suppressed the proteasomal degradation of calpastatin (CAST), and subsequently inhibited calpain activation, a well-established effector of neural death, and Drp1, a driver of mitochondrial fragmentation. Our results established CAST-Drp1 as a druggable signaling axis in HD pathogenesis and highlighted CHIR99021 as a mitochondrial function enhancer and a potential lead for developing HD therapies.

Topics & Concepts

Huntington's diseaseNeuropathologyCalpastatinHuntingtinCalpainDegradation (telecommunications)DiseaseNeurodegenerationNeuroscienceChemistryMedicineBiologyBiochemistryInternal medicineComputer scienceEnzymeTelecommunicationsGenetic Neurodegenerative DiseasesCalpain Protease Function and RegulationMitochondrial Function and Pathology
Small-molecule suppression of calpastatin degradation reduces neuropathology in models of Huntington’s disease | Litcius