Epithelial Gpr116 regulates pulmonary alveolar homeostasis via Gq/11 signaling
Kari Brown, … , Jeffrey A. Whitsett, James P. Bridges
Kari Brown, … , Jeffrey A. Whitsett, James P. Bridges
Published June 2, 2017
Citation Information: JCI Insight. 2017;2(11):e93700. https://doi.org/10.1172/jci.insight.93700.
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Research Article Cell biology Pulmonology

Epithelial Gpr116 regulates pulmonary alveolar homeostasis via Gq/11 signaling

Abstract

Pulmonary function is dependent upon the precise regulation of alveolar surfactant. Alterations in pulmonary surfactant concentrations or function impair ventilation and cause tissue injury. Identification of the molecular pathways that sense and regulate endogenous alveolar surfactant concentrations, coupled with the ability to pharmacologically modulate them both positively and negatively, would be a major therapeutic advance for patients with acute and chronic lung diseases caused by disruption of surfactant homeostasis. The orphan adhesion GPCR GPR116 (also known as Adgrf5) is a critical regulator of alveolar surfactant concentrations. Here, we show that human and mouse GPR116 control surfactant secretion and reuptake in alveolar type II (AT2) cells by regulating guanine nucleotide–binding domain α q and 11 (Gq/11) signaling. Synthetic peptides derived from the ectodomain of GPR116 activated Gq/11-dependent inositol phosphate conversion, calcium mobilization, and cortical F-actin stabilization to inhibit surfactant secretion. AT2 cell–specific deletion of Gnaq and Gna11 phenocopied the accumulation of surfactant observed in Gpr116–/– mice. These data provide proof of concept that GPR116 is a plausible therapeutic target to modulate endogenous alveolar surfactant pools to treat pulmonary diseases associated with surfactant dysfunction.

Authors

Kari Brown, Alyssa Filuta, Marie-Gabrielle Ludwig, Klaus Seuwen, Julian Jaros, Solange Vidal, Kavisha Arora, Anjaparavanda P. Naren, Kathirvel Kandasamy, Kaushik Parthasarathi, Stefan Offermanns, Robert J. Mason, William E. Miller, Jeffrey A. Whitsett, James P. Bridges

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Figure 6

GAP16-induced suppression of surfactant phospholipid secretion and alveolar pool sizes in vivo.

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GAP16-induced suppression of surfactant phospholipid secretion and alveo...
(A) Basal phospholipid secretion assays in GAP16-treated primary rat AT2 epithelial cells. (BD) In vivo secretion assays. Representative in vivo fluorescent images (B) of lysotracker green–loaded AT2 cells in intact WT mouse alveoli injected with SCR16 or GAP16 peptide (100 μM). Images represent preinflation and 5 and 10 minutes after 30-second hyperinflation. Scale bar: 5 μm for all images. (C) Traces of lysotracker fluorescence as a function of time, before and after hyperinflation. (D) Quantitated data from in vivo secretion assays, as performed in C. Data represent n = 3 lungs per group, a total of 9 type AT2 cells analyzed per group. (E) SatPC levels in bronchoalveolar lavage fluid from 4-week-old SftpcCreER:Gnaqf/f:Gna11–/– mice. Mice were placed on tamoxifen chow for 4 weeks prior to harvest (n = 5 mice per group, n = 1 experiment). CON, littermate controls. Data are expressed as mean ± SD. *P < 0.05, **P < 0.01 (1-way ANOVA for CE).