AMP-activated protein kinase is a key regulator of acute neurovascular permeability
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Abstract
ABSTRACT Many neuronal and retinal disorders are associated with pathological hyperpermeability of the microvasculature. We have used explants of rodent retinae to measure and manipulate acute neurovascular permeability and signal transduction to study the role of AMP-activated protein kinase (AMPK). Following stimulation with either vascular endothelial growth factor (VEGF-A) or bradykinin (BK), AMPK was rapidly and strongly phosphorylated and acted as a key mediator of permeability downstream of Ca 2+ and Ca 2+ /calmodulin-dependent protein kinase kinase (CAMKK). Accordingly, AMPK agonists potently induced acute retinal vascular leakage. AMPK activation led to phosphorylation of endothelial nitric oxide synthase (eNOS), which in turn increased VE-cadherin phosphorylation on Y685. In parallel, AMPK also mediated phosphorylation of p38 MAP kinase and HSP27, indicating that it regulated paracellular junctions and cellular contractility, both previously associated with endothelial permeability. Endothelial AMPK provided a missing link in neurovascular permeability, connecting Ca 2+ transients to the activation of eNOS and p38, irrespective of the permeability-inducing factor used. Collectively, the ex-vivo retina model was easily accessible and, due to its compatibility with small molecule antagonists/agonists and siRNA, constitutes a reliable tool to study regulators and mechanism of neurovascular permeability.
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- europepmc
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