Taste is a fundamental sense and is crucial for human health. Like our other primary senses, we consider our ability to appreciate sweet, sour, salty, bitter and umami tastes to be relatively constant, even though the taste bud cells that transduce these stimuli are renewed rapidly and regularly. The importance of the sense of taste is particularly evident for cancer patients receiving a range of chemotherapies, as these individuals often experience significant taste loss (ageusia) or dysfunction (dysgeusia). For patients with perturbed taste, simply eating a meal can be unpleasant or impossible; patients have significantly reduced quality of life including depression, lack of appetite and failure to maintain body weight, as well as poorer outcomes with cancer treatment. In particular, Basal Cell Carcinoma patients treated with drugs that target the Hedgehog (Hh) signaling pathway frequently experience dysgeusia. Interestingly Hh antagonists cause taste bud loss in mice, suggesting that functional taste loss in patients given these drugs is due to an effect on taste buds. Yet a mechanistic understanding of how taste bud homeostasis is impacted by Hh inhibition remains unexplored. And hence treatments to mitigate taste loss for cancer patients are yet to be imagined. Sonic hedgehog (Shh), one of 3 secreted Hh ligands, is implicated in taste bud cell renewal based on its expression pattern and that of its target gene, Gli1. A subset of taste bud cells is Shh+, while Gli1 expression is restricted to proliferating progenitor cells outside of buds, suggesting that Shh from within buds signals to adjacent progenitors to control taste cell turnover. However, the cellular and molecular processes regulated by Hh signaling are unknown, representing a significant gap in our knowledge of taste bud cell biology, and further limits our understanding of how Hh antagonists alter taste. Here, based on published reports and our pilot data, we propose the novel hypothesis that: Hedgehog signaling is required for taste receptor cell (TRC) differentiation and taste bud maintenance. We will test this overarching hypothesis using mouse models in 3 aims, and in completing these, greatly expand understanding of basic cellular and molecular mechanisms responsible for taste cell renewal, as well as define mechanistically how Hh pathway-targeted chemotherapy disrupts this process.
Aim 1 Determine if Shh promotes TRC differentiation from taste progenitor cells.
Aim 2 Identify the tissue source(s) of Shh required for TRC differentiation.
Aim 3 Define cellular mechanisms underlying loss of differentiated TRCs in mice treated with Hh antagonist.

Public Health Relevance

Our sense of taste is mediated by taste buds on the tongue surface, and we use this sensory system to allow us to choose what to eat and what to avoid. Cancer patients frequently lose their sense of taste when treated with cancer drugs leading to a severe reduction in the quality of life. Here we use mice to investigate how taste buds are disrupted by cancer drugs, with the long-term goal of developing strategies to lessen taste loss in cancer patients undergoing chemotherapy.

Agency
National Institute of Health (NIH)
Institute
National Institute on Deafness and Other Communication Disorders (NIDCD)
Type
Research Project (R01)
Project #
5R01DC012383-07
Application #
9413454
Study Section
Somatosensory and Chemosensory Systems Study Section (SCS)
Program Officer
Sullivan, Susan L
Project Start
2012-03-01
Project End
2022-02-28
Budget Start
2018-03-01
Budget End
2019-02-28
Support Year
7
Fiscal Year
2018
Total Cost
Indirect Cost
Name
University of Colorado Denver
Department
Biology
Type
Schools of Medicine
DUNS #
041096314
City
Aurora
State
CO
Country
United States
Zip Code
80045
Castillo-Azofeifa, David; Seidel, Kerstin; Gross, Lauren et al. (2018) SOX2 regulation by hedgehog signaling controls adult lingual epithelium homeostasis. Development 145:
Castillo-Azofeifa, David; Losacco, Justin T; Salcedo, Ernesto et al. (2017) Sonic hedgehog from both nerves and epithelium is a key trophic factor for taste bud maintenance. Development 144:3054-3065
Jewkes, Benjamin C; Barlow, Linda A; Delay, Eugene R (2017) Effect of Radiation on Sucrose Detection Thresholds of Mice. Chem Senses 43:53-58
Gaillard, Dany; Bowles, Spencer G; Salcedo, Ernesto et al. (2017) ?-catenin is required for taste bud cell renewal and behavioral taste perception in adult mice. PLoS Genet 13:e1006990
Xu, Mingang; Horrell, Jeremy; Snitow, Melinda et al. (2017) WNT10A mutation causes ectodermal dysplasia by impairing progenitor cell proliferation and KLF4-mediated differentiation. Nat Commun 8:15397
Gaillard, Dany; Stratford, Jennifer M (2016) Measurement of Behavioral Taste Responses in Mice: Two-Bottle Preference, Lickometer, and Conditioned Taste-Aversion Tests. Curr Protoc Mouse Biol 6:380-407
Barlow, Linda A (2015) Progress and renewal in gustation: new insights into taste bud development. Development 142:3620-9
Barlow, Linda A; Klein, Ophir D (2015) Developing and regenerating a sense of taste. Curr Top Dev Biol 111:401-19
Gaillard, Dany; Xu, Mingang; Liu, Fei et al. (2015) ?-Catenin Signaling Biases Multipotent Lingual Epithelial Progenitors to Differentiate and Acquire Specific Taste Cell Fates. PLoS Genet 11:e1005208
Thirumangalathu, Shoba; Barlow, Linda A (2015) ?-Catenin signaling regulates temporally discrete phases of anterior taste bud development. Development 142:4309-17

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