Cyclic nucleotide signalling in cardiac myocytes and its relation to contraction and arrhythmias. Cyclic nucleotide signalling in cardiac myocytes and.

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Presentation transcript:

Cyclic nucleotide signalling in cardiac myocytes and its relation to contraction and arrhythmias. Cyclic nucleotide signalling in cardiac myocytes and its relation to contraction and arrhythmias. (A) Competing effects of cyclic GMP (cGMP) and cyclic AMP (cAMP) within the cardiac myocyte. Sildenafil (left side) inhibits phosphodiesterase-5 (PDE5) leading to the accumulation of cGMP within the cell. cGMP activates protein kinase-G (PKG) resulting in phosphorylation of the L-type Ca2+ channel and cardiac troponin I (cTnI). These effects are negatively inotropic. cAMP (right), for example, following stimulation of β1-adrenoceptors and β2-adrenoceptors by epinephrine, activates PKA leading to positive inotropic and proarrhythmic actions. In addition, there is also potential for crosstalk between the two axes; cGMP can inhibit phosphodiesterase-3 (PDE3) to increase cAMP. (B) Excitation–contraction coupling in the cardiac myocyte. Opening of L-type Ca channels (LTCC) during the action potential lead to influx of Ca and stimulation of Ca release from the sarcoplasmic reticulum (SR), initiating myofilament contraction. (C) Overload of the SR, as occurs in HF and under β1-adrenergic and β2-adrenergic stimulation, leads to spontaneous Ca waves, which activate Na+–Ca2+ exchanger (NCX) channels to cause after depolarisations and triggered arrhythmias. David Charles Hutchings et al. Heart doi:10.1136/heartjnl-2017-312865 Copyright © BMJ Publishing Group Ltd & British Cardiovascular Society. All rights reserved.