A Binary Genetic Approach to Characterize TRPM5 Cells in Mice

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TitreA Binary Genetic Approach to Characterize TRPM5 Cells in Mice
Type de publicationJournal Article
Year of Publication2015
AuteursKusumakshi S, Voigt A, Huebner S, Hermans-Borgmeyer I, Ortalli A, Pyrski M, Doerr J, Zufall F, Flockerzi V, Meyerhof W, Montmayeur J-P, Boehm U
JournalCHEMICAL SENSES
Volume40
Pagination413-425
Date PublishedJUL
Type of ArticleArticle
ISSN0379-864X
Mots-clésCre recombinase, gastrointestinal tract, gene targeting, IRES, knock-in, microvillar cells, olfactory epithelium, ROSA26, septal organ of Masera, taste buds, taste papillae, taste receptor cells, tau GFP, TRPM5, vomeronasal organ
Résumé

Transient receptor potential channel subfamily M member 5 (TRPM5) is an important downstream signaling component in a subset of taste receptor cells making it a potential target for taste modulation. Interestingly, TRPM5 has been detected in extra-oral tissues; however, the function of extra-gustatory TRPM5-expressing cells is less well understood. To facilitate visualization and manipulation of TRPM5-expressing cells in mice, we generated a Cre knock-in TRPM5 allele by homologous recombination. We then used the novel TRPM5-IRES-Cre mouse strain to report TRPM5 expression by activating a tau GFP transgene. To confirm faithful coexpression of tau GFP and TRPM5 we generated and validated a new anti-TRPM5 antiserum enabling us to analyze acute TRPM5 protein expression. tau GFP cells were found in taste bud cells of the vallate, foliate, and fungiform papillae as well as in the palate. We also detected TRPM5 expression in several other tissues such as in the septal organ of Masera. Interestingly, in the olfactory epithelium of adult mice acute TRPM5 expression was detected in only one (short microvillar cells) of two cell populations previously reported to express TRPM5. The TRPM5-IC mouse strain described here represents a novel genetic tool and will facilitate the study and tissue-specific manipulation of TRPM5-expressing cells in vivo.

DOI10.1093/chemse/bjv023