The SR protein RSP-2 influences expression of the truncated insulin receptor DAF-2B in Caenorhabditis elegans

Abstract The alternatively spliced daf-2b transcript in Caenorhabditis elegans encodes a truncated isoform of the nematode insulin receptor that retains the extracellular ligand binding domain but lacks the intracellular signaling domain and is therefore unable to transduce a signal. To identify factors that influence expression of daf-2b, we performed a targeted RNA interference screen of rsp genes, which encode splicing factors from the serine/arginine protein family. Loss of rsp-2 significantly increased the expression of a fluorescent daf-2b splicing reporter, as well as increasing expression of endogenous daf-2b transcripts. Correspondingly, rsp-2 mutants exhibited similar phenotypes to those previously observed with DAF-2B overexpression, namely suppression of pheromone-induced dauer formation, enhancement of dauer entry in insulin signaling mutants, inhibition of dauer recovery, and increased lifespan. However, the epistatic relationship between rsp-2 and daf-2b varied according to the experimental context. Increased dauer entry and delayed dauer exit of rsp-2 mutants in an insulin signaling mutant background were partially dependent on daf-2b. Conversely, suppression of pheromone-induced dauer formation and increased lifespan in rsp-2 mutants were independent of daf-2b. These data demonstrate that C. elegans RSP-2, an ortholog of human splicing factor protein SRSF5/SRp40, is involved in regulating the expression of the truncated DAF-2B isoform. However, we also find that RSP-2 can influence dauer formation and lifespan independently of DAF-2B.