Abstract

BackgroundEndothelial dysfunction characterized by an increase in endothelial permeability and inflammatory responses are two major pathological hallmarks of various lung disorders including the current global pandemic COVID‐19. Thus, drugs targeting the preservation and restoration of endothelial function represent an attractive therapeutic target to treat endothelial dysfunction‐derived cardiopulmonary diseases. G protein‐coupled receptors (GPCRs), especially a sub‐family of proton‐sensing GPCRs including GPR4 and GPR68, have been recently suggested to play a role in the modulation of endothelial function. In this study, we investigated the barrier protective and anti‐inflammatory effects of two recently developed novel class of GPR68 inhibitors: ogremorphins OGM8345 and OGM‐1 in cultured human lung endothelial cells as well as in mice.MethodsEndothelial permeability was measured by monitoring transendothelial electrical resistance (TER) across human pulmonary arterial endothelial cells (HPAECs). Protein and mRNA expression levels of endothelial inflammation markers were analyzed by western blot and quantitative real time PCR, respectively. Acidosis was induced by switching cells to acidic pH (6.5) medium and luciferase‐based Tango assay was performed to evaluate GPR68 activation. C57BL/6 mice were exposed to lipopolysaccharide (LPS from Escherichia coli) or heat‐killed Staphylococcus aureus (HKSA), and vascular leak/inflammation was assessed by determining the extravasation of intravenously injected Evans blue tracer into lungs and total cells/protein count in bronchoalveolar lavage samples.ResultsBoth OGM8345 (1‐5 µM) and OGM‐1 (0.3‐1.5 µM) induced a robust dose‐dependent increase in basal EC barrier function that was evident by an 150‐200% increase in TER values. Both inhibitors also markedly attenuated LPS‐ and HKSA‐induced endothelial hyperpermeability. LPS or HKSA‐induced upregulation of inflammatory cytokines/chemokines genes TNF‐α, ICAM‐1, VCAM‐1, IL‐6, IL‐8, IL‐1β, and CXCL5 was significantly attenuated by OGMs as demonstrated by RT‐PCR analysis. Consistently, both OGMs suppressed LPS‐ and HKSA‐induced protein expression of phospho‐NFkB, VCAM‐1 and ICAM‐1. In contrast, pharmacologic inhibition of GPR4 by NE 52‐QQ57 failed to alleviate LPS or HKSA‐induced EC barrier dysfunction and inflammation. Importantly, LPS, HKSA or acidosis stimulation resulted in increased GPR68 mRNA expression as well as GPR68 activity that was inhibited by OGMs. Both OGMs attenuated vascular leak and lung inflammation caused by intratracheal injection of LPS or HKSA in C57BL/6 mice as illustrated by reduced Evans blue accumulation in the lungs and significant inhibition of inflammatory cells and protein content in bronchoalveolar lavage samples.ConclusionAltogether, these results establish an essential role of GPR68 in endothelial dysfunction and strongly suggest a therapeutic potential of GPR68‐selective inhibitors in improving endothelial dysfunction‐derived lung injuries.

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