Abstract

Directly targeting caveolar caveolin-1 is a potential mechanism to regulate endothelial permeability, especially during oxidative stress, but little evidence on the topic limits therapeutics discoveries. In this study, we investigated the pharmacological effect of an antioxidant LM49 (5,2′-dibromo-2,4′,5′-trihydroxydiphenylmethanoe) and its five diphenylmethanone derivatives on endothelial permeability and establish two distinct mechanisms of action. Multiplex molecular assays with theoretical modeling indicate that diphenylmethanone molecules, including LM49, directly bind the caveolin-1 steric pocket of ASN53/ARG54, ILE49/ASP50, ILE18, LEU59, ASN60, GLU48 and ARG19 residues. They also indicated dynamic binding-affinity for diphenylmethanone derivatives. First, this molecular interaction at caveolin-1 pocket inhibits its phosphorylation at TYR14 residue in H2O2-injured endothelial cell. A positive correlation was established between diphenylmethanone derivative binding-affinity and caveolin-1 phosphorylation inhibition. Inhibition of caveolin-1 phosphorylation, however, was independent of the LM49-mediated variation of protein tyrosine kinase activity, suggesting a direct blockage of adenosine triphosphate substrate diffusion into cavelion-1 structure. Second, LM49 increases the expression of cellular adhesive and tight junction proteins, VE-cadherin and occludin, in H2O2-injured cell, in a dose dependent manner. A leakage assay of fluorescein isothiocyanate-labeled dextran 40 across cell monolayer suggested improvement in endothelial barrier integrity with diphenylmethanone treatments. Our results demonstrate a direct targeting effect of caveolin-1 on endothelial permeability, and should guide the diphenylmethanone therapy against oxidative stress-induced junction dysfunction, especially at caveolar membrane invagination.

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