Genomic organization, expression, and function of bitter taste receptors (T2R) in mouse and rat

doi:10.1152/physiolgenomics.00030.2005

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Genomic organization, expression, and function of bitter taste receptors (T2R) in mouse and rat

S. Vincent Wu , Monica C. Chen and Enrique Rozengurt

Center for Ulcer Research and Education, Digestive Diseases Research Center, Division of Digestive Diseases, Department of Medicine, David Geffen School of Medicine, and Molecular Biology Institute, University of California and Veterans Affairs Greater Los Angeles Healthcare System, Los Angeles, California

Mammalian type 2 taste receptors (T2R) are a family of G protein-coupledreceptors that mediate bitter signals in taste cells. In thepresent study, we compared the genomic organization of rodentT2R genes based on the recently completed mouse and rat genomesand examined tissue- and cell-specific expression of T2Rs. Bothmouse and rat T2R families consist of 36 intact genes and atleast 7 pseudogenes that are mapped to mouse chromosomes 15,2, and 6 and to rat chromosomes 2, 3, and 4, respectively. Allbut two T2R genes are clustered on mouse chromosome 6 and ratchromosome 4 with virtually identical genomic organization.The orthologs of the first human T2R gene identified, mT2R119and rT2R1, are located on mouse chromosome 15 and rat chromosome2, whereas the novel rodent-specific T2R genes, mT2R134 andrT2R34, are located on mouse chromosome 2 and rat chromosome3, respectively. Our results, using RT-PCR, demonstrate thepresence of transcripts corresponding to the putative denatoniumbenzoate (DB) and phenylthiocarbamide (PTC) receptors in theantrum, fundus, and duodenum as well as in STC-1 and AR42J cells.The novel rodent-specific T2R gene (mT2R134 and rT2R34) wasalso expressed in these tissues and cell lines. The additionof DB, PTC, or cycloheximide to AR42J cells induced a rapidincrease in the intracellular Ca²⁺ concentration. The specificityof these effects is shown by the fact that these bitter stimulidid not induce any detectable Ca²⁺ signaling in many other rodentor human cells that do not express receptors or G proteins implicatedin bitter taste signaling. These results demonstrate that mouseand rat T2R genes are highly conserved in terms of genomic organizationand tissue expression, suggesting that rodent T2Rs are evolvedunder similar dietary pressure and share bitter sensing functionsin the lingual and gastrointestinal systems.

calcium flux; neuroendocrine cells; gustducin; transducin

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