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American journal of physiology. Heart and circulatory physiology
Aug 01, 2012;303 (3): H332-40.

Blockade of ATP-sensitive potassium channels prevents the attenuation of the exercise pressor reflex by tempol in rats with ligated femoral arteries.

Katsuya Yamauchi, Audrey J Stone, Sean D Stocker, Marc P Kaufman
Author Information
  1. Katsuya Yamauchi: Pennsylvania State Heart and Vascular Institute, Pennsylvania State University College of Medicine, Hershey, USA.
PMID: 22636679 DOI: 10.1152/ajpheart.00310.2012

Abstract

We reported previously that tempol attenuated the exercise pressor and muscle mechanoreceptor reflexes in rats whose femoral arteries were ligated, whereas tempol did not attenuate these reflexes in rats whose femoral arteries were freely perfused. Although the mechanism whereby tempol attenuated these reflexes in rats whose femoral artery was ligated was independent of its ability to scavenge reactive oxygen species, its nature remains unclear. An alternative explanation for the tempol-induced attenuation of these reflexes involves ATP-sensitive potassium channels (K(ATP)) and calcium-activated potassium channels (BK(Ca)), both of which are opened by tempol. We tested the likelihood of this explanation by measuring the effects of either glibenclamide (0.1 mg/kg), which blocks K(ATP) channels, or iberiotoxin (20 or 40 μg/kg), which blocks BK(Ca) channels, on the tempol-induced attenuation of the exercise pressor and muscle mechanoreceptor reflexes in decerebrated rats whose femoral arteries were ligated. We found that glibenclamide prevented the tempol-induced attenuation of both reflexes, whereas iberiotoxin did not. We also found that the amount of protein comprising the pore of the K(ATP) channel in the dorsal root ganglia innervating hindlimbs whose femoral artery was ligated was significantly greater than that in the dorsal root ganglia innervating hindlimbs whose femoral arteries were freely perfused. In contrast, the amounts of protein comprising the BK(Ca) channel in the dorsal root ganglia innervating the ligated and freely perfused hindlimbs were not different. We conclude that tempol attenuated both reflexes by opening K(ATP) channels, an effect that hyperpolarized muscle afferents stimulated by static contraction or tendon stretch.

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Grants

  1. P01 HL096570/NHLBI NIH HHS
  2. P01-HL-096570/NHLBI NIH HHS

MeSH Term

Animals
Blood Pressure
Blotting, Western
Cyclic N-Oxides
Decerebrate State
Femoral Artery
Ganglia, Spinal
Glyburide
Heart Rate
Injections, Intra-Arterial
KATP Channels
Large-Conductance Calcium-Activated Potassium Channel alpha Subunits
Ligation
Male
Muscle Contraction
Muscle, Skeletal
Peptides
Potassium Channel Blockers
Potassium Channels
Potassium Channels, Inwardly Rectifying
Rats
Rats, Sprague-Dawley
Reflex
Spin Labels
Time Factors

Chemicals

Cyclic N-Oxides
KATP Channels
Kcnma1 protein, rat
Kir6.2 channel
Large-Conductance Calcium-Activated Potassium Channel alpha Subunits
Peptides
Potassium Channel Blockers
Potassium Channels
Potassium Channels, Inwardly Rectifying
Spin Labels
uK-ATP-1 potassium channel
iberiotoxin
Glyburide
tempol
Journal Article Research Support, N.I.H., Extramural

Word Cloud

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