Cardiac Neuronal Nitric Oxide Synthase Isoform Regulates Myocardial Contraction and Calcium Handling

Author:

Sears Claire E.1,Bryant Simon M.1,Ashley Euan A.1,Lygate Craig A.1,Rakovic Stevan1,Wallis Helen L.1,Neubauer Stefan1,Terrar Derek A.1,Casadei B.1

Affiliation:

1. From the Department of Cardiovascular Medicine (C.E.S., S.M.B., E.A.A., C.A.L., H.L.W., S.N., B.C.), Oxford University, John Radcliffe Hospital; and the Department of Pharmacology (S.R., D.T.), Oxford University, Oxford, UK.

Abstract

A neuronal isoform of nitric oxide synthase (nNOS) has recently been located to the cardiac sarcoplasmic reticulum (SR). Subcellular localization of a constitutive NOS in the proximity of an activating source of Ca 2+ suggests that cardiac nNOS-derived NO may regulate contraction by exerting a highly specific and localized action on ion channels/transporters involved in Ca 2+ cycling. To test this hypothesis, we have investigated myocardial Ca 2+ handling and contractility in nNOS knockout mice (nNOS −/− ) and in control mice (C) after acute nNOS inhibition with 100 μmol/L L-VNIO. nNOS gene disruption or L-VNIO increased basal contraction both in left ventricular (LV) myocytes (steady-state cell shortening 10.3±0.6% in nNOS −/− versus 8.1±0.5% in C; P <0.05) and in vivo (LV ejection fraction 53.5±2.7 in nNOS −/− versus 44.9±1.5% in C; P <0.05). nNOS disruption increased I Ca density (in pA/pF, at 0 mV, −11.4±0.5 in nNOS −/− versus −9.1±0.5 in C; P <0.05) and prolonged the slow time constant of inactivation of I Ca by 38% ( P <0.05), leading to an increased Ca 2+ influx and a greater SR load in nNOS −/− myocytes (in pC/pF, 0.78±0.04 in nNOS −/− versus 0.64±0.03 in C; P <0.05). Consistent with these data, [Ca 2+ ] i transient (indo-1) peak amplitude was greater in nNOS −/− myocytes (410/495 ratio 0.34±0.01 in nNOS −/− versus 0.31±0.01 in C; P <0.05). These findings have uncovered a novel mechanism by which intracellular Ca 2+ is regulated in LV myocytes and indicate that nNOS is an important determinant of basal contractility in the mammalian myocardium. The full text of this article is available at http://www.circresaha.org.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Cardiology and Cardiovascular Medicine,Physiology

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