[
Curr Biol,
2003]
G protein-coupled receptors (GPCRs) are the largest family of genes in animal genomes and represent more than 2% of genes in humans and C. elegans. These evolutionarily conserved seven-transmembrane proteins transduce a diverse range of signals. In view of their pivotal role in cell signaling, it is perhaps surprising that decades of genetic analysis in C. elegans, and recent genome-wide RNAi screens, have identified very few GPCR mutants [1, 2]. Therefore, we screened all GPCRs predicted to bind either small-molecule neurotransmitters or neuropeptides by using RNAi and quantitative behavioral assays. This shows that C16D6.2, C25G6.5, C26F1.6, F35G8.1, F41E7.3, and F59C12.2 are likely to be involved in reproduction, whereas C15B12.5, C10C6.2, C24A8.4, F15A8.5, F59D12.1, T02E9.1, and T05A1.1 have a role in locomotion. Gene deletions for F35G8.1 and T05A1.1 resulted in the same phenotype as that seen with RNAi. As some GPCRs may be resistant to RNAi, or may result in abnormalities not screened for here, the actual proportion of nonredundant receptors with an assayable function is probably greater. Strikingly, most phenotypes were observed for NPY-like receptors that may bind neuropeptides. This is consistent with the known actions of neuropeptides on the body wall muscle and
[
Invert Neurosci,
2006]
Serotonin (5-HT) regulates a wide range of behaviors in Caenorhabditis elegans, including egg laying, male mating, locomotion and pharyngeal pumping. So far, four serotonin receptors have been described in the nematode C. elegans, three of which are G protein-coupled receptors (GPCR), (SER-1, SER-4 and SER-7), and one is an ion channel (MOD-1). By searching the C. elegans genome for additional 5-HT GPCR genes, we identified five further genes which encode putative 5-HT receptors, based on sequence similarities to 5-HT receptors from other species. Using loss-of-function mutants and RNAi, we performed a systematic study of the role of the eight GPCR genes in serotonin-modulated behaviors of C. elegans (F59C12.2, Y22D7AR.13, K02F2.6, C09B7.1, M03F4.3, F16D3.7, T02E9.3, C24A8.1). We also examined their expression patterns. Finally, we tested whether the most likely candidate receptors were able to modulate adenylate cyclase activity in transfected cells in a 5-HT-dependent manner. This paper is the first comprehensive study of G protein-coupled serotonin receptors of C. elegans. It provides a direct comparison of the expression patterns and functional roles for 5-HT receptors in C. elegans.