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A novel role for a bicistronic calcium channel gene in neurodevelopment and neuro

$439,859R01FY2015NSNIH

University Of Chicago, Chicago IL

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Abstract

DESCRIPTION (provided by applicant): Spinocerebellar ataxia type 6 (SCA6) is a dominantly-inherited, untreatable neurodegenerative disease characterized by progressive ataxia and Purkinje cell degeneration associated with CAG repeat expansions in the gene, CACNA1A. Our recent evidence suggests that the disease is attributable to expression of a polyQ repeat expansion within a second CACNA1A gene product, a1ACT, that normally serves as a transcription factor (TF) critical for cerebellar cortical development, and that arises through the action of a cryptic cellular internal ribosomal entry site (IRES) within the coding region. SCA6-sized polyQ expansions in the a1ACT TF interrupt its cellular and molecular function, cause cell death in vitro, ataxia and cortical thinning. The long-term goal of this project is to understand te pathogenesis of SCA6 by characterizing how a1ACTSCA6 alters gene expression, by confirming the role of the CACNA1A IRES in vivo and by developing a screening strategy for potential IRES-inhibiting compounds as potential therapies. Specifically we propose to ask: 1. Does the SCA6 polyQ expansion in a1ACT in the transcription factor (a1ACTSCA6) changes the gene binding patterns and the expression patterns of Purkinje cell genes? We will utilize chromatin immunoprecipitation (ChIP) followed by next-generation sequencing (ChIP-seq) to analyze in detail binding profiles of a1ACTWT and a1ACTSCA6 expressed in PC12 cells and isolate RNA from Purkinje cells of mice expressing a1ACTWT or a1ACTSCA6 to generate global gene expression profiles by RNA-seq to correlate a1ACTWT-DNA binding with transcriptional activity and to identify allele-specific changes in gene expression patterns. 2. Does a1ACT expression by CACNA1A IRES and promoter reproduce the normal and pathological functions of a1ACT? We will generate new lines of a1ACT transgenic mice that will only yield a1ACTWT or a1ACTSCA6 protein by CAP-independent translation, and use the tet-off expression system to drive conditional expression and use a CACNA1A-tTA transgene to generate an endogenous pattern of expression. 3. Can we identify IRES-directed molecules that selectively suppress a1ACT translation, but not a1A subunit expression? We will use our dual-luciferase bicistronic reporter to determine the optimal RNA sequences involved in IRES function, identify the ITAFs by EMSA and predict the secondary structure of CACNA1A IRES. We will carry out a high throughput screening assay to identify compounds that interfere with a1ACT IRES function.

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