Abstract
Taste compounds detected by G protein-coupled receptors on the apical surface of Type 2 taste cells initiate an intracellular molecular cascade culminating in the release of ATP. It has been suggested that this ATP release is accomplished by pannexin 1 (PANX1). However, we report here that PANX1 knockout mice do not differ from wild-type controls in response to representative taste solutions, measured using 5-s brief-access tests or 48-h two-bottle choice tests. This implies that PANX1 is unnecessary for taste detection and consequently that ATP release from Type 2 taste cells does not require PANX1.
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Tordoff, M. G., Aleman, T. R., Ellis, H. T., Ohmoto, M., Matsumoto, I., Shestopalov, V. I., … Poole, R. L. (2015). Normal taste acceptance and preference of PANX1 knockout mice. Chemical Senses, 40(7), 453–459. https://doi.org/10.1093/chemse/bjv025
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