Novel Genetic Approaches to Evaluate Dominant Gain of Function Toxicity in Polygl
Texas A&M University-Kingsville, Kingsville TX
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Abstract
DESCRIPTION (provided by applicant): Polyglutamine (polyQ) expansion diseases are late-onset disorders that cause neurodegeneration through what has been shown to be toxicity of the polyglutamine stretch. In Spinocerebellar Ataxia, or SCAs, these affect thousands of patients in the U.S. and the prognosis is poor. As these ataxias progress for years-even decades-the health burden and suffering experienced by those affected are significant. Despite knowing the causative factor and the genes in which these expanded glutamines reside, understanding the mechanism of action for these toxic proteins is still unclear and a matter of intense debate. Some have argued nuclear inclusion and nuclear import are important. Others argue there is cytoplasmic clogging that is blocking the passage of necessary cargo. Even the issue of whether it is an RNA-based mechanism or a protein-based mechanism that causes toxicity is strongly debated (reviewed in Orr, HT 2012). Recently, it was observed in a Drosophila courtship circuit that expression of a SCA fragment containing an expansion in its polyglutamine residues led to behavioral anomalies. This anomaly might be the result of early neuronal loss or decay. Because death or dysfunction in this courtship circuit led to decreases in mating ability, its use as the basis for a behavioral screen for recovery presented itself. In pursuit of the goal to identify suppressors of behavioral anomalies in courtship, this research group will pursue two aims. The first aim is to identify the mechanism leading to aberrant courtship, determine whether it is cell death-based or cellular dysfunction-based, and whether activity can alter its sensitivity. The second aim is to develop a screen from polyQ-induced declines in mating ability in order to develop a mating screen for suppressors of a behavior. An exciting prospect brought about by developing a behavioral screen is the possibility that it might identify suppressors that act very early in the toxic process. Orr HT Cell biology of spinocerebellar ataxia J Cell Biol. Apr 16 2012;197(2):167---177.
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