AKAP150 Contributes to Enhanced Vascular Tone by Facilitating Large-Conductance Ca ²⁺ -Activated K ⁺ Channel Remodeling in Hyperglycemia and Diabetes Mellitus

Abstract: Rationale Increased contractility of arterial myocytes and enhanced vascular tone during hyperglycemia and diabetes may arise from impaired large conductance Ca2+-activated K+ (BKCa) channel function. The scaffolding protein AKAP150 is a key regulator of calcineurin (CaN), a phosphatase known to modulate expression of the regulatory BKCa β1 subunit. Whether AKAP150 mediates BKCa channel suppression during hyperglycemia and diabetes is unknown. Objective To test the hypothesis that AKAP150-dependent CaN signa… Show more

“…Previous reports have shown that in vitro, short term exposure of coronary, cerebral, and mesenteric arteries to extracellular glucose concentrations that resemble diabetic hyperglycemia (e.g. 20 mM) inhibit K V and BK Ca channel activity in VSMCs (11)(12)(13)(14)(15). Thus, inhibition of these channels may contribute to enhanced arterial tone and vascular complications during diabetes.…”

Selective Down-regulation of KV2.1 Function Contributes to Enhanced Arterial Tone during Diabetes

“…Previous reports have shown that in vitro, short term exposure of coronary, cerebral, and mesenteric arteries to extracellular glucose concentrations that resemble diabetic hyperglycemia (e.g. 20 mM) inhibit K V and BK Ca channel activity in VSMCs (11)(12)(13)(14)(15). Thus, inhibition of these channels may contribute to enhanced arterial tone and vascular complications during diabetes.…”

Selective Down-regulation of KV2.1 Function Contributes to Enhanced Arterial Tone during Diabetes

“…Diabetes mellitus reduces BK channel activity by ≥3 mechanisms. First, as demonstrated by Nystoriak et al, 2 through activation of calcineurin, dephosphorylated nuclear factor of activated T cells, c3 isoform (NFATc3) enters the nucleus where it inhibits transcription of the β1 subunit of BK, thereby reducing BK sensitivity to calcium. Second, diabetes mellitus-induced elevations in reactive oxygen species (ROS), particularly hydrogen peroxide, directly oxidize cysteine residues in the bowl region of the α subunit of BK to reduce opening.…”

Vascular Dysfunction in Diabetes Mellitus

“…AKAPs play roles in many more cellular processes whose dysregulation leads to disease. They are involved in complex mechanisms such as memory formation and blood pressure control [161,262,263] and tether different protein assemblies to various subcellular compartments [264]. Thus AKAPs are a rich source to be considered as pharmacological targets.…”

Pharmacological Interference With Protein-protein Interactions of Akinase Anchoring Proteins as a Strategy for the Treatment of Disease