Mutations in the Spliceosome Component prp-6 and Overexpression of cdh-5 Suppress Axon Guidance Defects of cdh-4 Mutants in Caenorhabditis elegans.

Abstract

During nervous system development, axons must navigate to specific target areas. In Caenorhabditis elegans, the cadherin CDH-4 is required for ventral nerve cord axonal navigation, and dorsal nerve cord fasciculation. How CDH-4 mediates axon navigation and fasciculation is currently unknown. To identify genes acting together with cdh-4, we isolated mutants suppressing the axon guidance defects of cdh-4 mutants. These suppressors showed partial suppression of axonal defects in the dorsal and ventral nerve cords seen in cdh-4 mutants. We identified one suppressor gene, prp-6, which encodes a component of the spliceosome. Complete loss-of-function alleles of prp-6 are lethal, suggesting that the mutation isolated in our suppressor screen is a partial loss-of-function allele. A previous study found that RNAi-induced suppression of prp-6 leads to changes in the expression of several 100 genes including the cadherin cdh-5. We found that overexpression of cdh-5 mimics the suppression seen in prp-6 mutants, suggesting that CDH-5 can partially compensate for the loss of CDH-4.