Temperature-Sensitive Paralytic Mutants Are Enriched For Those Causing Neurodegeneration in Drosophila

Temperature-Sensitive Paralytic Mutants Are Enriched For Those Causing Neurodegeneration in Drosophila

Michael J. Palladino^a, Tricia J. Hadley^a, and Barry Ganetzky^a
^a Laboratory of Genetics, University of Wisconsin, Madison, Wisconsin 53706

Corresponding author: Michael J. Palladino, University of Wisconsin, Madison, WI 53706., mjpalladino{at}facstaff.wisc.edu (E-mail)

Communicating editor: T. CLINE

Age-dependent neurodegeneration is a pathological conditionfound in many metazoans. Despite the biological and medicalsignificance of this condition, the cellular and molecular mechanismsunderlying neurodegeneration are poorly understood. The availabilityof a large collection of mutants exhibiting neurodegenerationwill provide a valuable resource to elucidate these mechanisms.We have developed an effective screen for isolating neurodegenerationmutants in Drosophila. This screen is based on the observationthat neuronal dysfunction, which leads to observable behavioralphenotypes, is often associated with neurodegeneration. Thus,we used a secondary histological screen to examine a collectionof mutants originally isolated on the basis of conditional paralyticphenotypes. Using this strategy, we have identified 15 mutationsaffecting at least nine loci that cause gross neurodegenerativepathology. Here, we present a genetic, behavioral, and anatomicalanalysis of vacuous (vacu), the first of these mutants to becharacterized, and an overview of other mutants isolated inthe screen. vacu is a recessive mutation located cytologicallyat 85D-E that causes locomotor defects in both larvae and adultsas well as neuronal hyperactivity. In addition, vacu exhibitsextensive age-dependent neurodegeneration throughout the centralnervous system. We also identified mutations in at least eightother loci that showed significant levels of neurodegenerationwith a diverse array of neuropathological phenotypes. Theseresults demonstrate the effectiveness of our screen in identifyingmutations causing neurodegeneration. Further studies of vacuand the other neurodegenerative mutants isolated should ultimatelyhelp dissect the biochemical pathways leading to neurodegeneration.

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