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The ARSACS disease protein sacsin controls lysosomal positioning and reformation by regulating microtubule dynamics

Vincent Francis, Walaa Alshafie, Rahul Kumar, Martine Girard, Bernard Brais, Peter S. McPherson

2022Journal of Biological Chemistry25 citationsDOIOpen Access PDF

Abstract

Autosomal recessive spastic ataxia of Charlevoix-Saguenay is a fatal brain disorder featuring cerebellar neurodegeneration leading to spasticity and ataxia. This disease is caused by mutations in the SACS gene that encodes sacsin, a massive 4579-amino acid protein with multiple modular domains. However, molecular details of the function of sacsin are not clear. Here, using live cell imaging and biochemistry, we demonstrate that sacsin binds to microtubules and regulates microtubule dynamics. Loss of sacsin function in various cell types, including knockdown and KO primary neurons and patient fibroblasts, leads to alterations in lysosomal transport, positioning, function, and reformation following autophagy. Each of these phenotypic changes is consistent with altered microtubule dynamics. We further show the effects of sacsin are mediated at least in part through interactions with JIP3, an adapter for microtubule motors. These data reveal a new function for sacsin that explains its previously reported roles and phenotypes.

Topics & Concepts

MicrotubuleNeurodegenerationBiologyAxoplasmic transportCell biologySpinocerebellar ataxiaAtaxiaAutophagyPhenotypeGeneGeneticsNeuroscienceMedicinePathologyDiseaseApoptosisCellular transport and secretionGenetic Neurodegenerative DiseasesMicrotubule and mitosis dynamics
The ARSACS disease protein sacsin controls lysosomal positioning and reformation by regulating microtubule dynamics | Litcius