Mapping SCA1 regional vulnerabilities reveals neural and skeletal muscle contributions to disease
Lisa Duvick, W. Michael Southern, Kellie A. Benzow, Zoe N. Burch, Hillary P. Handler, Jason S. Mitchell, Hannah Kuivinen, Udaya Gadiparthi, Praseuth Yang, Alyssa Soles, Carrie A. Sheeler, Orion Rainwater, Shannah Serres, Erin B. Lind, Tessa Nichols-Meade, Yun You, Brennon O’Callaghan, Huda Y. Zoghbi, Marija Cvetanovic, Vanessa C. Wheeler, James M. Ervasti, Michael D. Koob, Harry T. Orr
Lisa Duvick, W. Michael Southern, Kellie A. Benzow, Zoe N. Burch, Hillary P. Handler, Jason S. Mitchell, Hannah Kuivinen, Udaya Gadiparthi, Praseuth Yang, Alyssa Soles, Carrie A. Sheeler, Orion Rainwater, Shannah Serres, Erin B. Lind, Tessa Nichols-Meade, Yun You, Brennon O’Callaghan, Huda Y. Zoghbi, Marija Cvetanovic, Vanessa C. Wheeler, James M. Ervasti, Michael D. Koob, Harry T. Orr
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Research Article Neuroscience

Mapping SCA1 regional vulnerabilities reveals neural and skeletal muscle contributions to disease

Abstract

Spinocerebellar ataxia type 1 (SCA1) is a fatal neurodegenerative disease caused by an expanded polyglutamine tract in the widely expressed ataxin-1 (ATXN1) protein. To elucidate anatomical regions and cell types that underlie mutant ATXN1-induced disease phenotypes, we developed a floxed conditional knockin mouse (f-ATXN1146Q/2Q) with mouse Atxn1 coding exons replaced by human ATXN1 exons encoding 146 glutamines. f-ATXN1146Q/2Q mice manifested SCA1-like phenotypes including motor and cognitive deficits, wasting, and decreased survival. Central nervous system (CNS) contributions to disease were revealed using f-ATXN1146Q/2Q;Nestin-Cre mice, which showed improved rotarod, open field, and Barnes maze performance by 6–12 weeks of age. In contrast, striatal contributions to motor deficits using f-ATXN1146Q/2Q;Rgs9-Cre mice revealed that mice lacking ATXN1146Q/2Q in striatal medium-spiny neurons showed a trending improvement in rotarod performance at 30 weeks of age. Surprisingly, a prominent role for muscle contributions to disease was revealed in f-ATXN1146Q/2Q;ACTA1-Cre mice based on their recovery from kyphosis and absence of muscle pathology. Collectively, data from the targeted conditional deletion of the expanded allele demonstrated CNS and peripheral contributions to disease and highlighted the need to consider muscle in addition to the brain for optimal SCA1 therapeutics.

Authors

Lisa Duvick, W. Michael Southern, Kellie A. Benzow, Zoe N. Burch, Hillary P. Handler, Jason S. Mitchell, Hannah Kuivinen, Udaya Gadiparthi, Praseuth Yang, Alyssa Soles, Carrie A. Sheeler, Orion Rainwater, Shannah Serres, Erin B. Lind, Tessa Nichols-Meade, Yun You, Brennon O’Callaghan, Huda Y. Zoghbi, Marija Cvetanovic, Vanessa C. Wheeler, James M. Ervasti, Michael D. Koob, Harry T. Orr

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Figure 1

Generation and characterization of the f-ATXN1146Q/2Q conditional mouse model.

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Generation and characterization of the f-ATXN1146Q/2Q conditional mouse ...
(A) Organization of the mouse WT-Atxn1 (blue) and human ATXN1 (black) genes, with the only 2 exons encoding the ATXN1 protein indicated by boxes larger and darker than the noncoding exons. The size (kb) and location of the mouse genomic sequences (blue) replaced by the human genomic sequences (black) in the f-ATXN1146Q allele are indicated. (B) The portion of the Atxn1 gene encompassing the 2 coding exons was replaced with an FRT-recombination recipient cassette in mouse ES cells; then, that cassette was replaced with the portion of the human ATXN1 genomic sequences syntenic to the deleted mouse sequence using FLP recombinase. (C) The inserted human sequences in the resulting ATXN1146Q allele are flanked by LOX recombination sites, as shown. Mating mice with this allele to lines expressing CRE recombinase removes the human ATXN1 insertion, as shown. (D) Barnes maze performance at 24 weeks of age, using unpaired 2-tailed t test. (E) Mouse survival plotted as Kaplan-Meier curves with median lifespan labeled for each genotype. Log-rank (Mantel Cox) ****P < 0.0001 and Gehan-Breslow-Wilcoxon ####P < 0.0001. (F) Body weight measurements between 6 and 36 weeks of age, repeated-measures 2-way ANOVA with Geisser-Greenhouse correction and Šídák’s post hoc test. (G) Representative photographs of 42-week-old WT-Atxn12Q/2Q and f-ATXN1146Q/2Q showing kyphosis. *P < 0.05, **P < 0.01, and ****P < 0.0001.