An evaluation of potassium ions as endothelium‐derived hyperpolarizing factor in porcine coronary arteries
JL Bény, O Schaad - British journal of pharmacology, 2000 - Wiley Online Library
JL Bény, O Schaad
British journal of pharmacology, 2000•Wiley Online LibraryIn the rat hepatic artery, the endothelium‐derived hyperpolarizing factor (EDHF) was
identified as potassium. Potassium hyperpolarizes the smooth muscles by gating inward
rectified potassium channels and by activating the sodium‐potassium adenosine
triphosphatase (Na+‐K+ ATPase). Our goal was to examine whether potassium could
explain the EDHF in porcine coronary arteries. On coronary strips, the inhibition of calcium‐
dependent potassium channels with 100 nm apamin plus 100 μm charibdotoxin inhibited …
identified as potassium. Potassium hyperpolarizes the smooth muscles by gating inward
rectified potassium channels and by activating the sodium‐potassium adenosine
triphosphatase (Na+‐K+ ATPase). Our goal was to examine whether potassium could
explain the EDHF in porcine coronary arteries. On coronary strips, the inhibition of calcium‐
dependent potassium channels with 100 nm apamin plus 100 μm charibdotoxin inhibited …
- In the rat hepatic artery, the endothelium‐derived hyperpolarizing factor (EDHF) was identified as potassium. Potassium hyperpolarizes the smooth muscles by gating inward rectified potassium channels and by activating the sodium‐potassium adenosine triphosphatase (Na+‐K+ATPase). Our goal was to examine whether potassium could explain the EDHF in porcine coronary arteries.
- On coronary strips, the inhibition of calcium‐dependent potassium channels with 100 nM apamin plus 100 μM charibdotoxin inhibited the endothelium‐dependent relaxations, produced by 10 nM substance P and 300 nM bradykinin and resistant to nitro‐L‐arginine and indomethacin.
- The scavenging of potassium with 2 mM Kryptofix 2.2.2 abolished the endothelium‐dependent relaxations produced by the kinins and resistant to nitro‐L‐arginine and indomethacin.
- Forty μM 18α glycyrrethinic acid or 50 μM palmitoleic acid, both uncoupling agents, did not inhibit these kinin relaxations. Therefore, EDHF does not result from an electrotonic spreading of an endothelial hyperpolarization.
- Barium (0.3 nM) did not inhibit the kinin relaxations resistant to nitro‐L‐arginine and indomethacin. Therefore, EDHF does not result from the activation of inward rectified potassium channels.
- Five hundred nM ouabain abolished the endothelium‐dependent relaxations resistant to nitro‐L‐arginine and indomethacin without inhibiting the endothelium‐derived NO relaxation.
- The perifusion of a medium supplemented with potassium depolarized and contracted a coronary strip; however, the short application of potassium hyperpolarized the smooth muscles.
- These results are compatible with the concept that, in porcine coronary artery, the EDHF is potassium released by the endothelial cells and that this ion hyperpolarizes and relaxes the smooth muscles by activating the Na+‐K+ATPase.
British Journal of Pharmacology (2000) 131, 965–973; doi:10.1038/sj.bjp.0703658
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