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Nature

Title:		Formyl peptide receptor-like proteins are a novel family of vomeronasal chemosensors
Author(s):		Riviere S; Challet L; Fluegge D; Spehr M; Rodriguez I;
Address:		"Department of Zoology and Animal Biology, and National Center of Competence Frontiers in Genetics, University of Geneva, 1205 Geneva, Switzerland"
Journal Title:		Nature
Year:		2009
Volume:		459
Issue:		7246
Page Number:		574 - 577
DOI:		10.1038/nature08029
ISSN/ISBN:		1476-4687 (Electronic) 0028-0836 (Linking)
Abstract:		"Mammals rely heavily on olfaction to interact adequately with each other and with their environment. They make use of seven-transmembrane G-protein-coupled receptors to identify odorants and pheromones. These receptors are present on dendrites of olfactory sensory neurons located in the main olfactory or vomeronasal sensory epithelia, and pertain to the odorant, trace amine-associated receptor and vomeronasal type 1 (ref. 4) or 2 (refs 5-7) receptor superfamilies. Whether these four sensor classes represent the complete olfactory molecular repertoire used by mammals to make sense of the outside world is unknown. Here we report the expression of formyl peptide receptor-related genes by vomeronasal sensory neurons, in multiple mammalian species. Similar to the four known olfactory receptor gene classes, these genes encode seven-transmembrane proteins, and are characterized by monogenic transcription and a punctate expression pattern in the sensory neuroepithelium. In vitro expression of mouse formyl peptide receptor-like 1, 3, 4, 6 and 7 provides sensitivity to disease/inflammation-related ligands. Establishing an in situ approach that combines whole-mount vomeronasal preparations with dendritic calcium imaging in the intact neuroepithelium, we show neuronal responses to the same molecules, which therefore represent a new class of vomeronasal agonists. Taken together, these results suggest that formyl peptide receptor-like proteins have an olfactory function associated with the identification of pathogens, or of pathogenic states"
Keywords:		Animals Calcium Signaling Cell Line Dendrites/drug effects/metabolism *Disease Gene Expression Profiling Humans Inflammation/pathology Ligands Mice Olfactory Perception/drug effects/*physiology Olfactory Receptor Neurons/cytology/drug effects/*metabolism;
Notes:		"MedlineRiviere, Stephane Challet, Ludivine Fluegge, Daniela Spehr, Marc Rodriguez, Ivan eng Research Support, Non-U.S. Gov't England 2009/04/24 Nature. 2009 May 28; 459(7246):574-7. doi: 10.1038/nature08029"