A Drosophila Homolog of the Polyglutamine Disease Gene SCA2 Is a Dosage-Sensitive Regulator of Actin Filament Formation

A Drosophila Homolog of the Polyglutamine Disease Gene SCA2 Is a Dosage-Sensitive Regulator of Actin Filament Formation

Terrence F. Satterfield^a, Stephen M. Jackson^a, and Leo J. Pallanck^a
^a Department of Genome Sciences, University of Washington, Seattle, Washington 98195-7730

Corresponding author: Leo J. Pallanck, University of Washington, Box 357730, Health Sciences Bldg., K-357, Seattle, WA 98195-7730., pallanck{at}gs.washington.edu (E-mail)

Communicating editor: R. S. HAWLEY

Spinocerebellar ataxia type 2 (SCA2) is a neurodegenerativedisorder caused by the expansion of a CAG repeat encoding apolyglutamine tract in ataxin-2, the SCA2 gene product. Thenormal cellular function of ataxin-2 and the mechanism by whichpolyglutamine expansion of ataxin-2 causes neurodegenerationremain unknown. In this study we have used genetic and molecularapproaches to investigate the function of a Drosophila homologof the SCA2 gene (Datx2). Like human ataxin-2, Datx2 is foundthroughout development in a variety of tissue types and localizesto the cytoplasm. Mutations that reduce Datx2 activity or transgenicoverexpression of Datx2 result in female sterility, aberrantsensory bristle morphology, loss or degeneration of tissues,and lethality. These phenotypes appear to result from actinfilament formation defects occurring downstream of actin synthesis.Further studies demonstrate that Datx2 does not assemble withactin filaments, suggesting that the role of Datx2 in actinfilament formation is indirect. These results indicate thatDatx2 is a dosage-sensitive regulator of actin filament formation.Given that loss of cytoskeleton-dependent dendritic structuredefines an early event in SCA2 pathogenesis, our findings suggestthe possibility that dysregulation of actin cytoskeletal structureresulting from altered ataxin-2 activity is responsible forneurodegeneration in SCA2.

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