Hsp90 inhibitors suppress P53 phosphorylation in LPS - induced endothelial inflammation

Abstract

P53 has been recently involved in the defense against inflammation. The “guardian of the genome” appears to orchestrate cellular responses against bacterial toxins, by regulating crucial pathways that orchestrate the vascular barrier functions. Indeed, an emerging body of evidence suggests that this tumor suppressor is involved in the mediation of the beneficial effects of Hsp90 inhibition in the inflamed endothelium. Interestingly, those compounds augment the abundance of P53 in the intracellular niche, while LPS dramatically reduces it. The current study focuses on the outcome of LPS and Hsp90 inhibition on P53 phosphorylation, since this modification negatively affects P53 stability. In an in “vitro” model of LPS – induced vascular leak in bovine pulmonary arterial endothelial cells, LPS induced P53 phosphorylation in four distinct residues, namely Ser. 6, Ser. 15, Ser. 33 and Ser. 392. Furthermore, LPS triggered the activation of the myosin light chain 2, which produces endothelial barrier dysfunction by cellular retraction and intercellular gap formation. Indeed, mice exposed to the toxin demonstrated elevated levels of the pro - inflammatory cytokines IL-2 and IL-10 in the bronchoalveolar lavage fluid. In bold contrast, the HSP90 inhibitor 17-DMAG, counteracted the LPS - induced effects both in vivo and in vitro. Specifically, this hsp90 inhibitor reduced phosphorylated P53 levels and lessened the activation of myosin light chain 2 (phosphorylation) in the bovine endothelium. Moreover, 17 - DMAG suppressed inflammation in mouse lungs, as reflected in reduced IL-2 and IL-10 BALF levels. In summary, the present results support previous observations on the protective role of P53 against inflammation and clarify mechanisms that govern vascular barrier function.