Phosphorylation of Troponin I by Protein Kinase A Accelerates Relaxation and Crossbridge Cycle Kinetics in Mouse Ventricular Muscle

Author:

Kentish Jonathan C.1,McCloskey Diana T.1,Layland Joanne1,Palmer Sue1,Leiden Jeffrey M.1,Martin Anne F.1,Solaro R. John1

Affiliation:

1. From the Centre for Cardiovascular Biology and Medicine (J.C.K., D.T.McC., J.L., S.P.), King’s College London, St Thomas’ Campus, London, UK; Harvard School of Public Health (J.M.L.), Cardiovascular Biology Laboratory, Boston, Mass; Department of Physiology and Biophysics (A.F.M., R.J.S.), University of Illinois at Chicago, Chicago, Ill.

Abstract

Abstract —Phosphorylation of cardiac myofibrils by cAMP-dependent protein kinase (PKA) can increase the intrinsic rate of myofibrillar relaxation, which may contribute to the shortening of the cardiac twitch during β-adrenoceptor stimulation. However, it is not known whether the acceleration of myofibrillar relaxation is due to phosphorylation of troponin I (TnI) or of myosin binding protein-C (MyBP-C). To distinguish between these possibilities, we used transgenic mice that overexpress the nonphosphorylatable, slow skeletal isoform of TnI in the myocardium and do not express the normal, phosphorylatable cardiac TnI. The intrinsic rate of relaxation of myofibrils from wild-type and transgenic mice was measured using flash photolysis of diazo-2 to rapidly decrease the [Ca 2+ ] within skinned muscles from the mouse ventricles. Incubation with PKA nearly doubled the intrinsic rate of myofibrillar relaxation in muscles from wild-type mice (relaxation half-time fell from ≈150 to ≈90 ms at 22°C) but had no effect on the relaxation rate of muscles from the transgenic mice. In parallel studies with intact muscles, we assessed crossbridge kinetics indirectly by determining f min (the frequency for minimum dynamic stiffness) during tetanic contractions. Stimulation of β-adrenoceptors with isoproterenol increased f min from 1.9 to 3.1 Hz in muscles from wild-type mice but had no effect on f min in muscles from transgenic mice. We conclude that the acceleration of myofibrillar relaxation rate by PKA is due to phosphorylation of TnI, rather than MyBP-C, and that this may be due, at least in part, to faster crossbridge cycle kinetics.

Publisher

Ovid Technologies (Wolters Kluwer Health)

Subject

Cardiology and Cardiovascular Medicine,Physiology

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