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Literature DB >> 31463

Displacement of activator thresholds in cardiac muscle by protons and calcium ions.

Abstract

1. The Na current threshold in sheep cardiac Purkinje fibres and in frog atrium is shifted in a positive direction by protons and Ca2+ ions. The titration curves for Purkinje fibres are consistent with a surface potential of -18 mV at pH 7.4 and 1.8 mM-Ca. 2. In Purkinje fibres, the pacemaker K current activation curve, s infinity, is shifted in a positive direction by Ca2+ ions. The results are consistent with a surface potential of -16 mV in normal physiological solutions. 3. The results on s inifinity during pH changes are unexpected. As also shown by Van Bogaert, Vereecke & Carmeliet (1975) the voltage shifts are usually in the opposite direction to that expected from titration of external surface negative charges. 4. Acid solutions reduce the magnitude of iK2 when fully activated. Alkalinity has little effect on iK2. 5. Acidification and alkalinization are both capable of arresting spontaneous activity in Purkinje fibres. The effects of acidity are usually irreversible. The effects of alkalinity are reversible.

Entities: Chemical Species

Mesh：

Substances：
Sodium
Calcium

Year: 1978 PMID： 31463 PMCID： PMC1282742 DOI： 10.1113/jphysiol.1978.sp012466

Source DB: PubMed Journal: J Physiol ISSN： 0022-3751 Impact factor: 5.182

14 in total

10. Extracellular divalent and trivalent cation effects on sodium current kinetics in single canine cardiac Purkinje cells.

Authors: D A Hanck; M F Sheets
Journal: J Physiol Date: 1992-08 Impact factor: 5.182

Displacement of activator thresholds in cardiac muscle by protons and calcium ions.

1. Reconstruction of the electrical activity of cardiac Purkinje fibres.

2. The action of calcium on the electrical properties of squid axons.

3. The effects of potassium and temperature on the pace-maker current, iK2, in Purkinje fibres.

4. The interactions of protons, calcium and potassium ions on cardiac Purkinje fibres.

Review 5. Membrane surface charge: discrete and uniform modelling.

6. A core-conductor model of the cardiac Purkinje fibre based on structural analysis.

7. The surface area of sheep cardiac Purkinje fibres.

8. The kinetics and rectifier properties of the slow potassium current in cardiac Purkinje fibres.

9. Effect of surface charge on the steady-state potassium conductance of nodal membrane.

10. Effect of divalent cations on potassium conductance of squid axons: determination of surface charge.

1. Role of external Ca2+ and K+ in gating of cardiac delayed rectifier K+ currents.

2. The interactions of protons, calcium and potassium ions on cardiac Purkinje fibres.

3. On the mechanism by which changes in extracellular pH affect the electrical activity of the rabbit sino-atrial node.

4. Attenuating loss of cardiac conduction during no-flow ischemia through changes in perfusate sodium and calcium.

5. Measurement and significance of the reversal potential for the pace-maker current (iK2) in sheep Purkinje fibres.

6. Action of salicylate ions on the electrical properties of sheep cardiac Purkinje fibres.

7. Parameters affecting the slow inward channel repriming process in frog atrium.

8. Pace-maker current changes during intracellular pH transients in sheep cardiac Purkinje fibres.

9. Ungulate cardiac purkinje fibres: the influence of intracellular pH on the electrical cell-to-cell coupling.

10. Extracellular divalent and trivalent cation effects on sodium current kinetics in single canine cardiac Purkinje cells.