A Genetic Screen for Neurite Outgrowth Mutants in Caenorhabditis elegans Reveals a New Function for the F-box Ubiquitin Ligase Component LIN-23

doi:10.1534/genetics.166.3.1253

A Genetic Screen for Neurite Outgrowth Mutants in Caenorhabditis elegans Reveals a New Function for the F-box Ubiquitin Ligase Component LIN-23

Nehal Mehta^a, Paula M. Loria^a, and Oliver Hobert^a
^a Department of Biochemistry and Molecular Biophysics, Center for Neurobiology and Behavior, Columbia University, College of Physicians and Surgeons, New York, New York 10032

Corresponding author: Oliver Hobert, College of Physicians and Surgeons, 701 W. 168th St., HHSC 724, New York, NY 10032., or38{at}columbia.edu (E-mail)

Communicating editor: P. ANDERSON

Axon pathfinding and target recognition are highly dynamic andtightly regulated cellular processes. One of the mechanismsinvolved in regulating protein activity levels during axonaland synaptic development is protein ubiquitination. We describehere the isolation of several Caenorhabditis elegans mutants,termed eno (ectopic/erratic neurite outgrowth) mutants, thatdisplay defects in axon outgrowth of specific neuron classes.One retrieved mutant is characterized by abnormal terminationof axon outgrowth in a subset of several distinct neuron classes,including ventral nerve cord motor neurons, head motor neurons,and mechanosensory neurons. This mutant is allelic to lin-23,which codes for an F-box-containing component of an SCF E3 ubiquitinligase complex that was previously shown to negatively regulatepostembryonic cell divisions. We demonstrate that LIN-23 isa broadly expressed cytoplasmically localized protein that isrequired autonomously in neurons to affect axon outgrowth. Ournewly isolated allele of lin-23, a point mutation in the C-terminaltail of the protein, displays axonal outgrowth defects similarto those observed in null alleles of this gene, but does notdisplay defects in cell cycle regulation. We have thus definedseparable activities of LIN-23 in two distinct processes, cellcycle control and axon patterning. We propose that LIN-23 targetsdistinct substrates for ubiquitination within each process.

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