Cardiovascular Drugs and Therapy 1992-02-01

Protection of human, rat, and guinea-pig atrial muscle by mioflazine, lidoflazine, and verapamil against the destructive effects of high concentrations of Ca2+.

U Ravens, G S Liu, G Vandeplassche, M Borgers

文献索引：Cardiovasc. Drugs Ther. 6(1) , 47-58, (1992)

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摘要

In right atrial trabeculae from humans and in left atria from rat and guinea-pig hearts, the protective effects of mioflazine, lidoflazine, and verapamil against the accumulation of cellular calcium were investigated. Two consecutive, cumulative increases in the extracellular calcium concentration, [Ca2+]o (1-25 mmol/l), were induced, in between which the muscles were exposed for at least 30 minutes to solvent or drug. When using solvent in the 30-minute interval, the force of contraction was much lower during the second Ca2+ challenge, while the aftercontractions and the increase in passive tension at high [Ca2+]o tended to be larger. These signs of functional impairment were prevented by exposure to mioflazine or lidoflazine (3 mumol/l each) but not to verapamil (3 mumol/l). Muscles were fixed with glutaraldehyde at the end of the second Ca2+ challenge for morphological and cytochemical examination. After solvent treatment, more than half of the cells were severely damaged, showing cellular edema, contraction-band necrosis, mitochondrial swelling, and nuclear pyknosis; the sarcolemma was devoid of calcium deposits, damaged mitochondria contained either large deposits of calcium or flocculent densities, and in some cells, the cytoplasm was filled with calcium deposits. Following exposure to mioflazine and lidoflazine, but not to verapamil, the number of intact cells after the second Ca2+ challenge was not different from time-matched controls (80-90%). Furthermore, the shifts in cellular calcium distribution were prevented with mioflazine and lidoflazine, whereas verapamil was less effective. There were no species differences with respect to either morphological or contractile changes. In conclusion, exposure of atria to high [Ca2+]o induced similar ultrastructural and cytochemical changes as seen after ischemia-reperfusion induced damage. Indeed, under the mentioned conditions the sarcolemma lost its capacity to exclude Ca2+ after a challenge with high [Ca2+]o and allowed excessive Ca2+ entry. The pathway for this extra Ca2+ remains to be elucidated. L-type calcium channels are probably not involved, since verapamil cannot prevent the Ca2+ overload.