Rudolf Schubert scite author profile

Guanosine-3',5'-cyclic monophosphate (cGMP)-dependent protein kinase (cGMP-PK) plays a central role in the mediation of the vasodilator response to nitric oxide (NO) and other nitrovasodilators. It is unclear whether cGMP-PK affects calcium-activated potassium channels (KCa channels) or any other type of ion channel in smooth muscle. We provide here the first direct evidence that cGMP-PK can activate KCa channels in arterial smooth muscle cells. We demonstrate that NO and a membrane-permeable analogue of cGMP can activate KCa channels in on-cell patches approximately twofold. Furthermore, cGMP-PK, in the presence of ATP and cGMP added directly to the intracellular surface of inside-out patches, increases channel activity by approximately eightfold. These results suggest that cGMP-PK-mediated activation of KCa channels may contribute to the actions of NO and other nitrovasodilators.

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Evidence for a Functional Role of Endothelial Transient Receptor Potential V4 in Shear Stress–Induced Vasodilatation

Köhler

Heyken

Heinau

et al. 2006

ATVB

303

324

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Objective-Ca2ϩ -influx through transient receptor potential (TRP) channels was proposed to be important in endothelial function, although the precise role of specific TRP channels is unknown. Here, we investigated the role of the putatively mechanosensitive TRPV4 channel in the mechanisms of endothelium-dependent vasodilatation. Methods and Results-Expression and function of TRPV4 was investigated in rat carotid artery endothelial cells (RCAECs) by using in situ patch-clamp techniques, single-cell RT-PCR, Ca 2ϩ measurements, and pressure myography in carotid artery (CA) and Arteria gracilis. In RCAECs in situ, TRPV4 currents were activated by the selective TRPV4 opener 4␣-phorbol-12,13-didecanoate (4␣PDD), arachidonic acid, moderate warmth, and mechanically by hypotonic cell swelling. Single-cell RT-PCR in endothelial cells demonstrated mRNA expression of TRPV4. In FURA-2 Ca 2ϩ measurements, 4␣PDD increased [Ca 2ϩ ] i by Ϸ140 nmol/L above basal levels. In pressure myograph experiments in CAs and A gracilis, 4␣PDD caused robust endothelium-dependent and strictly endothelium-dependent vasodilatations by Ϸ80% (K D 0.3 mol/L), which were suppressed by the TRPV4 blocker ruthenium red (RuR). Shear stress-induced vasodilatation was similarly blocked by RuR and also by the phospholipase A 2 inhibitor arachidonyl trifluoromethyl ketone (AACOCF 3 ). 4␣PDD produced endothelium-derived hyperpolarizing factor (EDHF)-type responses in A gracilis but not in rat carotid artery. Shear stress did not produce EDHF-type vasodilatation in either vessel type. Conclusions-Ca2ϩ entry through endothelial TRPV4 channels triggers NO-and EDHF-dependent vasodilatation. Moreover, TRPV4 appears to be mechanistically important in endothelial mechanosensing of shear stress. Key Words: endothelium-dependent vasodilatation Ⅲ transient receptor potential Ⅲ TRPV4 Ⅲ calcium Ⅲ shear stress Ⅲ nitric oxide Ⅲ 4␣PDD Ⅲ rat carotid artery C a 2ϩ -influx in response to mechanical or humoral stimulation plays a significant role in a variety of endothelial functions and especially in the Ca 2ϩ -dependent synthesis of endothelium-derived vasodilators such as NO, prostacyclin, or the endothelium-derived hyperpolarizing factor (EDHF). 1

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Impaired Endothelium-Derived Hyperpolarizing Factor-Mediated Dilations and Increased Blood Pressure in Mice Deficient of the Intermediate-Conductance Ca ²⁺ -Activated K ⁺ Channel

Heyken

Wölfle

et al. 2006

Circulation Research

231

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Rudolf Schubert

cGMP-dependent protein kinase activates Ca-activated K channels in cerebral artery smooth muscle cells

Evidence for a Functional Role of Endothelial Transient Receptor Potential V4 in Shear Stress–Induced Vasodilatation

Impaired Endothelium-Derived Hyperpolarizing Factor-Mediated Dilations and Increased Blood Pressure in Mice Deficient of the Intermediate-Conductance Ca ²⁺ -Activated K ⁺ Channel

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Rudolf Schubert

cGMP-dependent protein kinase activates Ca-activated K channels in cerebral artery smooth muscle cells

Evidence for a Functional Role of Endothelial Transient Receptor Potential V4 in Shear Stress–Induced Vasodilatation

Impaired Endothelium-Derived Hyperpolarizing Factor-Mediated Dilations and Increased Blood Pressure in Mice Deficient of the Intermediate-Conductance Ca 2+ -Activated K + Channel

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Impaired Endothelium-Derived Hyperpolarizing Factor-Mediated Dilations and Increased Blood Pressure in Mice Deficient of the Intermediate-Conductance Ca ²⁺ -Activated K ⁺ Channel