Dissecting the signaling mechanisms underlying recognition and preference of food odors

Citation:

* Harris G, Shen Y, Ha H, Donato A, Wallis S, Zhang X, Zhang Y. Dissecting the signaling mechanisms underlying recognition and preference of food odors. J Neurosci. 2014;34 :9389-403.

Date Published:

Jul 9

Abstract:

Food is critical for survival. Many animals, including the nematode Caenorhabditis elegans, use sensorimotor systems to detect and locate preferred food sources. However, the signaling mechanisms underlying food-choice behaviors are poorly understood. Here, we characterize the molecular signaling that regulates recognition and preference between different food odors in C. elegans. We show that the major olfactory sensory neurons, AWB and AWC, play essential roles in this behavior. A canonical Galpha-protein, together with guanylate cyclases and cGMP-gated channels, is needed for the recognition of food odors. The food-odor-evoked signal is transmitted via glutamatergic neurotransmission from AWC and through AMPA and kainate-like glutamate receptor subunits. In contrast, peptidergic signaling is required to generate preference between different food odors while being dispensable for the recognition of the odors. We show that this regulation is achieved by the neuropeptide NLP-9 produced in AWB, which acts with its putative receptor NPR-18, and by the neuropeptide NLP-1 produced in AWC. In addition, another set of sensory neurons inhibits food-odor preference. These mechanistic logics, together with a previously mapped neural circuit underlying food-odor preference, provide a functional network linking sensory response, transduction, and downstream receptors to process complex olfactory information and generate the appropriate behavioral decision essential for survival.

Notes:

Harris, GarethShen, YuHa, HeonickDonato, AlessandraWallis, SamuelZhang, XiaodongZhang, YunengP40 00010440/PHS HHS/R01 DC009852/DC/NIDCD NIH HHS/Research Support, N.I.H., ExtramuralResearch Support, Non-U.S. Gov't2014/07/11 06:00J Neurosci. 2014 Jul 9;34(28):9389-403. doi: 10.1523/JNEUROSCI.0012-14.2014.

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Last updated on 06/11/2015