Myofilament properties comprise the rate-limiting step for cardiac relaxation at body temperature in the rat

doi:10.1152/ajpheart.00595.2001

Myofilament properties comprise the rate-limiting step for cardiac relaxation at body temperature in the rat

Paul M. L. Janssen, Linda B. Stull, and Eduardo Marbán

Institute of Molecular Cardiobiology, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205

The majority of studies aimed at characterizing basic contractile mechanisms have been conducted at room temperature. To elucidatethe mechanism of cardiac relaxation under more physiological conditions,we investigated contractile function and calcium handling in ultrathinrat cardiac trabeculae. Active developed tension was unalteredbetween 22.5 and 30.0°C (from 89 ± 10 to 86 ± 11 mN/mm², P = not significant) but steeply declined at 37.5°C (30 ± 5mN/mm²). Meanwhile, the speed of relaxation (time from peak force to50% relaxation) declined from 22.5 to 30.0°C (from 360 ± 40 to157 ± 17 ms) and further declined at 37.5°C to 76 ± 13 ms. Phase-planeanalysis of calcium versus force revealed that, with increasingtemperature, the relaxation phase is shifted rightward, indicatingthat the rate-limiting step of relaxation tends to depend moreon calcium kinetics as temperature rises. The force-frequencyrelationship, which was slightly negative at 22.5°C (0.1 vs. 1Hz: 77 ± 12 vs. 66 ± 7 mN/mm²), became clearly positive at 37.5°C (1 vs. 10 Hz: 30 ± 5 vs.69 ± 9 mN/mm²). Phase-plane analyses indicated that, with increasing frequency,the relaxation phase is shifted leftward. We conclude that temperatureindependently affects contraction and relaxation, and cross-bridgecycling kinetics become rate limiting for cardiac relaxation underexperimental conditions closest to those invivo.

calcium; iontophoresis; fura 2; contraction; force-frequency

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