Christina Davie scite author profile

Our study demonstrates the advantages of cardiac myocytes over heterologously expressed hERG channels in predicting QT interval prolongation and TdP in man. The potencies of some drugs in cardiac myocytes were similar to hERG, but only myocytes were able to detect important changes in APD characteristics and display EADs predictive of arrhythmia development. We observed similar qualitative drug profiles in cardiac myocytes, dog Purkinje fibers, and animal and human telemetry studies. Therefore, isolated native cardiac myocytes are a better predictor of drug-induced QT prolongation and TdP than heterologously expressed hERG channels. Isolated cardiac myocytes, when used with high-throughput patch clamp instruments, may have an important role in screening potential cardiotoxic compounds in the early phase of drug discovery. This would significantly reduce the attrition rate of drugs entering preclinical and/or clinical development. The current kinetics and amplitudes of the cloned hERG channel were profoundly affected by temperature, significantly altering the potency of one drug (E-4031). This finding cautions against routine drug testing at room temperature compared to physiologic temperature when using the cloned hERG channel.

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Potassium channel activation and relaxation by nicorandil in rat small mesenteric arteries

Davie

Kubo

Standen

1998

British J Pharmacology

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1 We used whole-cell patch clamp to investigate the currents activated by nicorandil in smooth muscle cells isolated from rat small mesenteric arteries, and studied the relaxant e ect of nicorandil using myography. 2 Nicorandil (300 mM) activated currents with near-linear current-voltage relationships and reversal potentials near to the equilibrium potential for K + . 3 The nicorandil-activated current was blocked by glibenclamide (10 mM), but una ected by iberiotoxin (100 nM) and the guanylyl cyclase inhibitor LY 83583 (1 mM). During current activation by nicorandil, openings of channels with a unitary conductance of 31 pS were detected. 4 One hundred mM nicorandil had no e ect on currents through Ca 2+ channels recorded in response to depolarizing voltage steps using 10 mM Ba 2+ as a charge carrier. A small reduction in current amplitude was seen in 300 mM nicorandil, though this was not statistically signi®cant. 5 In arterial rings contracted with 20 mM K + Krebs solution containing 200 nM BAYK 8644, nicorandil produced a concentration-dependent relaxation with mean pD 2 =4.77+0.06. Glibenclamide (10 mM) shifted the curve to the right (pD 2 =4.32+0.05), as did 60 mM K + . LY 83583 caused a dosedependent inhibition of the relaxant e ect of nicorandil, while LY 83583 and glibenclamide together produced greater inhibition than either alone. 6 Metabolic inhibition with carbonyl cyanide m-chlorophenyl hydrazone (30 nM), or by reduction of extracellular glucose to 0.5 mM, increased the potency of nicorandil. 7 We conclude that nicorandil activates K ATP channels in these vessels and also acts through guanylyl cyclase to cause vasorelaxation, and that the potency of nicorandil is increased during metabolic inhibition.

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Enhancement of the vasorelaxant potency of nicorandil by metabolic inhibition and adenosine in the pig coronary artery

Davie

Standen

1998

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Nicorandil produced a dose-dependent relaxation with a mean pEC50 (-log EC50, M) of 4.76 +/- 0.02. Inhibition of metabolism with carbonyl cyanide m-chlorophenyl hydrazone (CCCP, 100 nM) or by removal of extracellular glucose significantly increased the potency of nicorandil (pEC50s of 5.11 +/- 0.08 and 5.08 +/- 0.06, p < 0.05 in each case). The adenosine analogue 2-chloroadenosine (2-CA, 300 nM) had a similar effect (pEC50 = 5.17 +/- 0.06, p < 0.05). Reducing extracellular pH to 6.8 also significantly increased the potency of nicorandil, but to a smaller extent. Glibenclamide reduced the potency of nicorandil (pEC50 = 3.81 +/- 0.01, n = 7), and abolished its enhancement by CCCP, zero glucose, 2-CA or pH 6.8 solution. 2-CA did not affect the potency of nicorandil in relaxing contractions to 80 mM K+ or the potency of glyceryl trinitrate. We conclude that the potency of nicorandil to cause coronary vasorelaxation is increased under conditions of metabolic inhibition. This effect appears to result from the K+ channel opening action of the drug, and may have significant consequences for its therapeutic effectiveness.

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Increase in the vasorelaxant potency of KATP channel opening drugs by adenosine A1 and A2 receptors in the pig coronary artery

Davie

Everitt

Standen

1999

European Journal of Pharmacology

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Sorting Behaviours : Do 3D Display Boxes Improve Sorting Accuracy?

Talbot¹,

Findikliev²,

Davie³

et al. 2019

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Christina Davie

Comparative Pharmacology of Guinea Pig Cardiac Myocyte and Cloned hERG (I_Kr) Channel

Potassium channel activation and relaxation by nicorandil in rat small mesenteric arteries

Enhancement of the vasorelaxant potency of nicorandil by metabolic inhibition and adenosine in the pig coronary artery

Increase in the vasorelaxant potency of KATP channel opening drugs by adenosine A1 and A2 receptors in the pig coronary artery

Sorting Behaviours : Do 3D Display Boxes Improve Sorting Accuracy?

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Christina Davie

Comparative Pharmacology of Guinea Pig Cardiac Myocyte and Cloned hERG (IKr) Channel

Potassium channel activation and relaxation by nicorandil in rat small mesenteric arteries

Enhancement of the vasorelaxant potency of nicorandil by metabolic inhibition and adenosine in the pig coronary artery

Increase in the vasorelaxant potency of KATP channel opening drugs by adenosine A1 and A2 receptors in the pig coronary artery

Sorting Behaviours : Do 3D Display Boxes Improve Sorting Accuracy?

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Resources

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Comparative Pharmacology of Guinea Pig Cardiac Myocyte and Cloned hERG (I_Kr) Channel