Cellular Basis for the Acute Inhibitory Effects of IL-6 and TNF- α on Excitation-contraction Coupling

Enzymatically isolated ventricular cells from rats, dogs, and rabbits were electrically stimulated and their membrane potentials were recorded simultaneously with their contractions. Specific pharmacological interventions were used to assess the relative roles of transsarcolemmal Ca2+ entry and the Ca2+ release by the sarcoplasmic reticulum in activating contractions, in these myocytes. We used ryanodine and caffeine to influence Ca2+ release by the sarcoplasmic reticulum, BAY K 8644 and epinephrine to increase Ca2+ entry through Ca2+ channels, and veratridine, ouabain, and monensin to increase Ca2+ entry through Na+–Ca2+ exchange. Ryanodine (1 μM) completely inhibited the shortenings in rat and dog myocytes, but the contractions in rabbit myocytes were much less sensitive to this alkaloid. Similar inhibitory effects of ryanodine were observed in the presence of various inotropic agents with two exceptions: caffeine's effect on the dog myocytes was relatively insensitive to ryanodine and the long-lasting tonic contractions that veratridine triggered in the myocytes of all three species remained completely unaffected by ryanodine. The data indicate that contractile activation in rat and dog ventricular cells is strongly dependent on Ca2+ release from the sarcoplasmic reticulum, while contractility in rabbit myocytes seems to be more dependent on Ca2+ entry through the sarcolemma. The ryanodine-resistant tonic contractions triggered in the myocytes of all three species in the presence of veratridine may be activated by an increased Ca2+ entry via Na+–Ca2+ exchange.

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Frog ventricle: participation of SR in excitation-contraction coupling

AJP Heart and Circulatory Physiology ◽

10.1152/ajpheart.1989.256.5.h1432 ◽

1989 ◽

Vol 256 (5) ◽

pp. H1432-H1439

Author(s):

M. E. Anderson ◽

I. J. Fox ◽

C. R. Swayze ◽

S. K. Donaldson

Keyword(s):

Steady State ◽

Sarcoplasmic Reticulum ◽

Inhibitory Effects ◽

Excitation Contraction Coupling ◽

Contraction Coupling ◽

Resting Tension ◽

Mammalian Myocardium ◽

Frog Myocardium ◽

Frog Ventricle ◽

Important Site

Activation of the first beat (B1) following a 60-s pause is diminished in isometrically contracting frog ventricular strips, in contrast to the augmentation documented for sarcoplasmic reticulum (SR)-dependent mammalian myocardium. However, treatment of frog ventricular strips with ouabain, an indirect inhibitor of the sarcolemmal Na+-Ca2+ exchanger, selectively enhanced postpause beats suggesting that in the absence of ouabain significant extrusion of cellular Ca2+ occurred during the pause. Because resting tension did not increase during the pause in ouabain-treated strips, the nonextruded Ca2+ must have been sequestered into a compartment such as SR. Steady-state beats were not affected by ouabain; its actions appeared to be separate from its known positive inotropism. Caffeine, a direct SR stimulus, initially enhanced B1 and subsequently decreased activation of all beats, which was consistent with initial augmentation of SR Ca2+ release and subsequent depletion of SR Ca2+ stores. Ouabain both potentiated the stimulatory effects and blocked the inhibitory effects of caffeine, suggesting that ouabain increased Ca2+ stores in the same intracellular Ca2+ pool as that acted on by caffeine, the SR. Ryanodine, an inhibitor of SR in mammalian myocardium, did not affect activation of frog myocardium. SR may be an important site for activator Ca2+ cycling in frog myocardium under control conditions as well as after long diastolic intervals in the presence of ouabain.

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