Epac1 is required for cAMP-mediated endothelial barrier stabilization

Regulation of intercellular junctional complexes is critical for the control of endothelial barrier function and dependent on cAMP‐mediated Rac1 activation. Recently, the exchange protein activated by cAMP (Epac1) has been shown to serve as a tonic stabilizer of the endothelial barrier. Here, we further elucidate the role of Epac1 in cAMP and Rac1‐mediated endothelial barrier regulation. Transendothelial‐electrical‐resistance (TER) measurements in newly generated immortalized myocardial endothelial cells derived from Epac1‐knockout (KO) mice revealed significant reduction in the baseline TER, when compared to wild‐type (WT) cells, indicating that Epac1 is required for maintenance of endothelial barrier function. This effect was associated with fragmented VE‐cadherin staining and reduced localization of tight junctional proteins ZO‐1 and occludin along cell borders. In WT‐cells, application of forskolin (F) and rolipram (R) resulted in increased TER associated with linearization and augmentation of VE‐cadherin immunostaining at adherens junctions. In contrast, Epac1‐KO‐cells did not respond to F/R treatment indicating that Epac1 is crucial for cAMP‐mediated endothelial barrier stabilization. In comparison to WT‐cells, Epac1‐KO‐cells revealed significantly increased protein levels of Rac1, whereas Rac1 basal activity was not enhanced, indicating a defect in Rac1 activation. However, in Epac1‐KOcells, cAMP‐mediated Rac1 activation was not abolished and the basal cAMP‐concentration was significantly increased. Additionally, in Epac1‐deficient cells F/R‐mediated increase in cAMP levels was less compared to WT cells. Taken together, our data show that Epac1 is crucial for cAMP‐mediated barrier stabilization by mechanisms which at least in part are independent of Rac1 regulation. This abstract is from the Experimental Biology 2019 Meeting. There is no full text article associated with this abstract published in The FASEB Journal .