Actions of cADP-Ribose and Its Antagonists on Contraction in Guinea Pig Isolated Ventricular Myocytes : Influence of Temperature

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Circulation Research. 1997;81:879-884

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(Circulation Research. 1997;81:879-884.)
© 1997 American Heart Association, Inc.

Articles

Actions of cADP-Ribose and Its Antagonists on Contraction in Guinea Pig Isolated Ventricular Myocytes

Influence of Temperature

Shigeo Iino, Yi Cui, Antony Galione, , Derek A. Terrar

From the Department of Pharmacology, University of Oxford (UK).

Correspondence to Dr D.A. Terrar, Department of Pharmacology, University of Oxford, Mansfield Road, Oxford OX1 3QT, UK. E-mail derek.terrar{at}pharm.ox.ac.uk

Abstract Although it is becoming widely accepted that cADP-ribose(cADPR) can regulate calcium release from the endoplasmic reticulumin sea urchin eggs and in a variety of mammalian cell types, itremains controversial whether this substance might influencecalcium release during excitation-contraction coupling in cardiacmuscle. We have investigated possible actions of cADPR in intactcells isolated from guinea pig ventricle, paying particularattention to the possible influence of temperature. At 36°C,myocyte contraction was influenced by cytosolic applicationof cADPR in a concentration-dependent manner (showing an ${approx}$ 30%increase in contraction with 5 µmol/L cADPR applied viaa patch pipette in myocytes stimulated to fire action potentialsat 1 Hz). Calcium transients measured with fura 2 were also increasedby 5 µmol/L cADPR. Antagonists of cADPR reduced contractionat 36°C (by ${approx}$ 35% with either 50 µmol/L 8-Br-cADPR or5 µmol/L 8-amino-cADPR applied via the patch pipette).At room temperature ( ${approx}$ 20°C to 24°C), no significant effectson contraction were detected with either cADPR or its antagonists.At 36°C, treatment of the cells with a mixture of 2 µmol/Lryanodine and 1 µmol/L thapsigargin to suppress functionof the sarcoplasmic reticulum stores of calcium prevented theaction of 5 µmol/L cADPR applied via a patch pipette.These observations are consistent with an action of cytosoliccADPR to enhance calcium-induced calcium release from the sarcoplasmicreticulum in guinea pig ventricular myocytes at 36°C. Theobserved influence of temperature under the conditions of ourexperiments is one factor that might help to account for failure todetect actions of cADPR and its analogues in some previous studies.

Key Words: cADP-ribose • ryanodine receptor • cardiac muscle • sarcoplasmic reticulum

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