Abstract
AbstractIndividual neuron or muscle cells express many G protein coupled receptors (GPCRs) for neurotransmitters and neuropeptides. It remains unclear how these cells integrate multiple GPCR signals that all must act through the same few G proteins. We investigated how two serotonin GPCRs, Gαq-coupled SER-1 and Gαs-coupled SER-7, function together on the C. elegans egg-laying muscles to promote contraction and thus cause eggs to be laid. Using receptor null mutations and cell-specific knockdowns, we found that serotonin signaling through either SER-1/Gαq or SER-7/Gαs alone does not induce egg laying, but these subthreshold signals can combine to promote egg laying. However, using designer receptors or optogenetics to artificially induce high levels of either Gαq signaling or Gαs signaling in the muscles was sufficient to induce egg laying. Conversely, knocking down both Gαq and Gαs in the egg-laying muscle cells induced egg-laying defects stronger than those of a ser-7 ser-1 double knockout. These results suggest that, in the egg-laying muscles, multiple GPCRs for serotonin and other signals each produce weak effects that individually do not result in strong behavioral outcomes. However, they can combine to produce sufficient levels of Gαq and Gαs signaling to promote muscle activity and egg laying.
Publisher
Cold Spring Harbor Laboratory
Cited by
3 articles.
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