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Calpains as novel players in the molecular pathogenesis of spinocerebellar ataxia type 17

by Gross, Caspar , Pereira Sena, Priscila , Nguyen, Huu Phuc , Riess, Olaf , Anger, Stefanie Cari , Weber, Jonasz Jeremiasz , Huridou, Chrisovalantou , Incebacak Eltemur, Rana Dilara , Fath, Florian , Casadei, Nicolas

in Animal models / Animals / Ataxia / Biochemistry / Biocompatibility / Biomedical and Life Sciences / Biomedicine / Calcium / Calcium signalling / Calpain / Calpain - genetics / Calpain - metabolism / Cell Biology / Cell culture / Cell viability / Cytoplasm / Depletion / Fragments / genes / Life Sciences / microsatellite repeats / mutants / Neurodegenerative diseases / neurons / Neurons - metabolism / Original / Original Article / Pathogenesis / Perturbation / Players / Polyglutamine diseases / Proteins / Rats / Spinocerebellar Ataxias - metabolism / Synaptogenesis / Tata box / TATA-binding protein / Toxicity / transcription factors / Transcriptomes / transcriptomics / Trinucleotide repeat diseases / Trinucleotide Repeat Expansion

2022

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Calpains as novel players in the molecular pathogenesis of spinocerebellar ataxia type 17

2022

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Calpains as novel players in the molecular pathogenesis of spinocerebellar ataxia type 17

2022

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Journal Article

Calpains as novel players in the molecular pathogenesis of spinocerebellar ataxia type 17

Gross, Caspar,

Pereira Sena, Priscila,

Nguyen, Huu Phuc,

Riess, Olaf,

Anger, Stefanie Cari,

Weber, Jonasz Jeremiasz,

Huridou, Chrisovalantou,

Incebacak Eltemur, Rana Dilara,

Fath, Florian,

Casadei, Nicolas

2022

Overview

Spinocerebellar ataxia type 17 (SCA17) is a neurodegenerative disease caused by a polyglutamine-encoding trinucleotide repeat expansion in the gene of transcription factor TATA box-binding protein (TBP). While its underlying pathomechanism is elusive, polyglutamine-expanded TBP fragments of unknown origin mediate the mutant protein’s toxicity. Calcium-dependent calpain proteases are protagonists in neurodegenerative disorders. Here, we demonstrate that calpains cleave TBP, and emerging C-terminal fragments mislocalize to the cytoplasm. SCA17 cell and rat models exhibited calpain overactivation, leading to excessive fragmentation and depletion of neuronal proteins in vivo. Transcriptome analysis of SCA17 cells revealed synaptogenesis and calcium signaling perturbations, indicating the potential cause of elevated calpain activity. Pharmacological or genetic calpain inhibition reduced TBP cleavage and aggregation, consequently improving cell viability. Our work underlines the general significance of calpains and their activating pathways in neurodegenerative disorders and presents these proteases as novel players in the molecular pathogenesis of SCA17.

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Publisher

Springer International Publishing,Springer Nature B.V

Subject

Animal models

/ Animals

/ Ataxia

/ Biochemistry

/ Biocompatibility

/ Biomedical and Life Sciences

/ Biomedicine