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Chronic CaMKII inhibition blunts the cardiac contractile response to exercise training
Authors:Guri?Kaurstad,Marcia?N.?Alves,Ole?J.?Kemi,Natale?Rolim,Morten?A.?H?ydal,Helene?Wisl?ff,Tomas?O.?St?len,Ulrik?Wisl?ff  author-information"  >  author-information__contact u-icon-before"  >  mailto:ulrik.wisloff@ntnu.no"   title="  ulrik.wisloff@ntnu.no"   itemprop="  email"   data-track="  click"   data-track-action="  Email author"   data-track-label="  "  >Email author
Affiliation:(1) K.G. Jebsen Center of Exercise in Medicine, Norwegian University of Science and Technology (NTNU), Trondheim, Norway;(2) Department of Circulation and Medical Imaging, Norwegian University of Science and Technology (NTNU), Olav Kyrresgate 9, Postboks 8905, 7491 Trondheim, Norway;(3) Institute of Cardiovascular and Medical Sciences, University of Glasgow, Glasgow, UK;(4) Department of Pathology, National Veterinary Institute, Oslo, Norway;(5) Centre for Sports and Physical Activity Research, Norwegian University of Science and Technology (NTNU), Trondheim, Norway;
Abstract:Activation of the multifunctional Ca2+/calmodulin-dependent protein kinase II (CaMKII) plays a critical role modulating cardiac function in both health and disease. Here, we determined the effect of chronic CaMKII inhibition during an exercise training program in healthy mice. CaMKII was inhibited by KN-93 injections. Mice were randomized to the following groups: sham sedentary, sham exercise, KN-93 sedentary, and KN-93 exercise. Cardiorespiratory function was evaluated by ergospirometry during treadmill running, echocardiography, and cardiomyocyte fractional shortening and calcium handling. The results revealed that KN-93 alone had no effect on exercise capacity or fractional shortening. In sham animals, exercise training increased maximal oxygen uptake by 8% (p < 0.05) compared to a 22% (p < 0.05) increase after exercise in KN-93 treated mice (group difference p < 0.01). In contrast, in vivo fractional shortening evaluated by echocardiography improved after exercise in sham animals only: from 25 to 32% (p < 0.02). In inactive mice, KN-93 reduced rates of diastolic cardiomyocyte re-lengthening (by 25%, p < 0.05) as well as Ca2+ transient decay (by 16%, p < 0.05), whereas no such effect was observed after exercise training. KN-93 blunted exercise training response on cardiomyocyte fractional shortening (63% sham vs. 18% KN-93; p < 0.01 and p < 0.05, respectively). These effects could not be solely explained by the Ca2+ transient amplitude, as KN-93 reduced it by 20% (p < 0.05) and response to exercise training was equal (64% sham and 47% KN-93; both p < 0.01). We concluded that chronic CaMKII inhibition increased time to 50% re-lengthening which were recovered by exercise training, but paradoxically led to a greater increase in maximal oxygen uptake compared to sham mice. Thus, the effect of chronic CaMKII inhibition is multifaceted and of a complex nature.
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