Abstract
Sensory receptors, including olfactory receptors (ORs), taste receptors (TRs), and opsins (Opns) have recently been found in a variety of non-sensory tissues where they have distinct physiological functions. As G protein-coupled receptors (GPCRs), these proteins can serve as important chemosensors by sensing and interpreting chemical cues in the environment. We reasoned that the liver, the largest metabolic organ in the body, is primed to take advantage of some of these sensory receptors in order to sense and regulate blood content and metabolism. In this study, we report the expression of novel hepatic sensory receptors – including 7 ORs, 6 bitter TRs, and 1 Opn – identified through a systematic molecular biology screening approach. We further determined that several of these receptors are expressed within hepatocytes, the parenchymal cells of the liver. Finally, we uncovered several agonists of the previously orphaned hepatic ORs. These compounds fall under two classes: methylpyrazines and monoterpenes. In particular, the latter chemicals are plant and fungal-derived compounds with known hepatic protective effects. Collectively, this study sheds light on the chemosensory functions of the liver and unveils potentially important regulators of hepatic homeostasis.
Highlights
Sensory receptors including olfactory (ORs) and taste receptors (TRs), and photo opsins (Opns) are 7-transmembrane domain G protein-coupled receptors (GPCRs) that have well known functions in the olfactory epithelium, taste buds, and eyes, respectively
To identify the complete complement of these receptors expressed in murine liver, we generated a custom TaqMan array to screen for all bitter, sweet, and umami TRs, the non-visual Opns, and 44 olfactory receptors (ORs) including all of the ORs with known extra-nasal functions
We were able to screen for 87 sensory receptors in murine male liver and identified a total of 30 sensory receptors: 17 ORs, 10 TRs, 3 Opns (Table 1)
Summary
Sensory receptors including olfactory (ORs) and taste receptors (TRs), and photo opsins (Opns) are 7-transmembrane domain G protein-coupled receptors (GPCRs) that have well known functions in the olfactory epithelium, taste buds, and eyes, respectively. These proteins have been shown to have important roles in other tissues as well. ORs have been shown to function in the regulation of adiposity, blood pressure, and carcinoma proliferation (Pluznick et al, 2013; Massberg et al, 2015; Wu et al, 2015). TRs have been implicated in glucose and lipid metabolism (Halford et al, 2001; Wu S. et al, 2019) as well as bronchodilation (Deshpande et al, 2010) and Opns have proposed extraocular functions such as rhythmic clock-gene expression and sperm thermotaxis (Leung and Montell, 2017)
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