GPR55 controls functional differentiation of self-renewing epithelial progenitors for salivation
Solomiia Korchynska, … , Tibor Harkany, Erik Keimpema
Solomiia Korchynska, … , Tibor Harkany, Erik Keimpema
Published February 21, 2019
Citation Information: JCI Insight. 2019;4(4):e122947. https://doi.org/10.1172/jci.insight.122947.
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Research Article Endocrinology Gastroenterology

GPR55 controls functional differentiation of self-renewing epithelial progenitors for salivation

Abstract

GPR55, a lipid-sensing receptor, is implicated in cell cycle control, malignant cell mobilization, and tissue invasion in cancer. However, a physiological role for GPR55 is virtually unknown for any tissue type. Here, we localize GPR55 to self-renewing ductal epithelial cells and their terminally differentiated progeny in both human and mouse salivary glands. Moreover, we find GPR55 expression downregulated in salivary gland mucoepidermoid carcinomas and GPR55 reinstatement by antitumor irradiation, suggesting that GPR55 controls renegade proliferation. Indeed, GPR55 antagonism increases cell proliferation and function determination in quasiphysiological systems. In addition, Gpr55–/– mice present ~50% enlarged submandibular glands with many more granulated ducts, as well as disordered endoplasmic reticuli and with glycoprotein content. Next, we hypothesized that GPR55 could also modulate salivation and glycoprotein content by entraining differentiated excretory progeny. Accordingly, GPR55 activation facilitated glycoprotein release by itself, inducing low-amplitude Ca2+ oscillations, as well as enhancing acetylcholine-induced Ca2+ responses. Topical application of GPR55 agonists, which are ineffective in Gpr55–/– mice, into adult rodent submandibular glands increased salivation and saliva glycoprotein content. Overall, we propose that GPR55 signaling in epithelial cells ensures both the life-long renewal of ductal cells and the continuous availability of saliva and glycoproteins for oral health and food intake.

Authors

Solomiia Korchynska, Mirjam I. Lutz, Erzsébet Borók, Johannes Pammer, Valentina Cinquina, Nataliya Fedirko, Andrew J. Irving, Ken Mackie, Tibor Harkany, Erik Keimpema

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Figure 1

GPR55 distribution in human and mouse salivary glands.

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GPR55 distribution in human and mouse salivary glands. (A) GPR55 in situ...
(A) GPR55 in situ hybridization in human submandibular gland (smg). Signal was observed in myoepithelial cells, intercalated ducts (id), and weakly in striated ducts (sd) but not serous (s) and mucous acini (m). Solid arrowheads point to myoepithelial cells in R1R and positive in situ signal. (B) GPR55 protein expression in human submandibular gland shows weak staining in myoeptithelial cells and serous acini, moderate staining in striated ducts, and strong staining in intercalated ducts. Arrowheads point to myoepithelial cells. Black arrows indicate proliferative abluminal cells. (C) PLA2G4A staining in human submandibular gland. Black arrows point to abluminal cell, while white arrowheads indicate luminal cells. (D) Mouse submandibular qPCR and in situ hybridization. Signal was detected in intercalated ducts (id), as well as granulated ducts (gd). Acini were mostly negative. Note that the mouse submandibular gland does not have mucous acini. (E and F) GPR55 protein localization in mouse submandibular gland confirms expression in granulated ducts and striated ducts, but not in acini (a). Granulated ducts were visualized with solanum tuberosum lectin (STL), labeling glycoprotein. Arrowheads point to positive cells and membranes, while arrows indicate abluminal cells. (G) PLA2G4A was found mainly in nuclei of granulated ducts (arrowheads). Arrows point to possible myoepithelial cells. Scale bars: 50 μm.