Decreasing mutant ATXN1 nuclear localization improves a spectrum of SCA1-like phenotypes and brain region transcriptomic profiles

Hillary P. Handler; Lisa Duvick; Jason S. Mitchell; Marija Cvetanovic; Molly Reighard; Alyssa Soles; Kathleen B. Mather; Orion Rainwater; Shannah Serres; Tessa Nichols-Meade; Stephanie L. Coffin; Yun You; Brian L. Ruis; Brennon O'Callaghan; Christine Henzler; Huda Y. Zoghbi; Harry T. Orr

doi:10.1016/j.neuron.2022.11.017

Decreasing mutant ATXN1 nuclear localization improves a spectrum of SCA1-like phenotypes and brain region transcriptomic profiles

Hillary P. Handler, Lisa Duvick, Jason S. Mitchell, Marija Cvetanovic, Molly Reighard, Alyssa Soles, Kathleen B. Mather, Orion Rainwater, Shannah Serres, Tessa Nichols-Meade, Stephanie L. Coffin, Yun You, Brian L. Ruis, Brennon O'Callaghan, Christine Henzler, Huda Y. Zoghbi, Harry T. Orr

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Abstract

Spinocerebellar ataxia type 1 (SCA1) is a dominant trinucleotide repeat neurodegenerative disease characterized by motor dysfunction, cognitive impairment, and premature death. Degeneration of cerebellar Purkinje cells is a frequent and prominent pathological feature of SCA1. We previously showed that transport of ATXN1 to Purkinje cell nuclei is required for pathology, where mutant ATXN1 alters transcription. To examine the role of ATXN1 nuclear localization broadly in SCA1-like disease pathogenesis, CRISPR-Cas9 was used to develop a mouse with an amino acid alteration (K772T) in the nuclear localization sequence of the expanded ATXN1 protein. Characterization of these mice indicates that proper nuclear localization of mutant ATXN1 contributes to many disease-like phenotypes including motor dysfunction, cognitive deficits, and premature lethality. RNA sequencing analysis of genes with expression corrected to WT levels in Atxn1^175QK772T/2Q mice indicates that transcriptomic aspects of SCA1 pathogenesis differ between the cerebellum, brainstem, cerebral cortex, hippocampus, and striatum.

Original language	English (US)
Pages (from-to)	493-507.e6
Journal	Neuron
Volume	111
Issue number	4
DOIs	https://doi.org/10.1016/j.neuron.2022.11.017
State	Published - Feb 15 2023

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Publisher Copyright:
© 2022 The Author(s)

Keywords

SCA1
neurodegeneration
nuclear localization
spinocerebellar ataxia type 1

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Handler, H. P., Duvick, L., Mitchell, J. S., Cvetanovic, M., Reighard, M., Soles, A., Mather, K. B., Rainwater, O., Serres, S., Nichols-Meade, T., Coffin, S. L., You, Y., Ruis, B. L., O'Callaghan, B., Henzler, C., Zoghbi, H. Y., & Orr, H. T. (2023). Decreasing mutant ATXN1 nuclear localization improves a spectrum of SCA1-like phenotypes and brain region transcriptomic profiles. Neuron, 111(4), 493-507.e6. https://doi.org/10.1016/j.neuron.2022.11.017

Handler, HP, Duvick, L , Mitchell, JS , Cvetanovic, M, Reighard, M, Soles, A, Mather, KB, Rainwater, O, Serres, S, Nichols-Meade, T, Coffin, SL, You, Y, Ruis, BL, O'Callaghan, B , Henzler, C, Zoghbi, HY & Orr, HT 2023, 'Decreasing mutant ATXN1 nuclear localization improves a spectrum of SCA1-like phenotypes and brain region transcriptomic profiles', Neuron, vol. 111, no. 4, pp. 493-507.e6. https://doi.org/10.1016/j.neuron.2022.11.017

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abstract = "Spinocerebellar ataxia type 1 (SCA1) is a dominant trinucleotide repeat neurodegenerative disease characterized by motor dysfunction, cognitive impairment, and premature death. Degeneration of cerebellar Purkinje cells is a frequent and prominent pathological feature of SCA1. We previously showed that transport of ATXN1 to Purkinje cell nuclei is required for pathology, where mutant ATXN1 alters transcription. To examine the role of ATXN1 nuclear localization broadly in SCA1-like disease pathogenesis, CRISPR-Cas9 was used to develop a mouse with an amino acid alteration (K772T) in the nuclear localization sequence of the expanded ATXN1 protein. Characterization of these mice indicates that proper nuclear localization of mutant ATXN1 contributes to many disease-like phenotypes including motor dysfunction, cognitive deficits, and premature lethality. RNA sequencing analysis of genes with expression corrected to WT levels in Atxn1175QK772T/2Q mice indicates that transcriptomic aspects of SCA1 pathogenesis differ between the cerebellum, brainstem, cerebral cortex, hippocampus, and striatum.",

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Decreasing mutant ATXN1 nuclear localization improves a spectrum of SCA1-like phenotypes and brain region transcriptomic profiles

Abstract

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