Beeinflussung des Calcium-Austauschs und der Muskelfunktion des M. rectus und sartorius des Frosches durch Chlorpromazin, Prenylamin, Imipramin und Reserpin

“…I n a whole muscle, these effects may lead to an incomplete activation of some of the fibres and in this way cause a diminution of both twitch and tetanus tensions. Supporting this explanation is the fact that the reduction of twitch amplitude reported by Balzer and Hellenbrecht (1969) could to some extent be counteracted by raising the strength of the stimulus.…”

“…Kopera and Armitage (1954) found that chlorpromazine, after a transient potentiation, reduced the contraction response to both direct and indirect stimulation in the gastrocnemius muscle of the cat, and the same actions on frog sartorius (Isaacson and Sandow 1967) and on crab muscle (Huddart 197 1 ) have been reported for quinine. Balzer and Hellenbrecht ( 1969), working with the sartorius and rectus abdominis muscles of the frog, also found that chlorpromazine and quinidine caused a diminished tension output. The present results, however, clearly demonstrate that chlorpromazine < 1 0-5 M, imipramine and quinidine < 5 x 10-5 M, concentrations that do not block the electrical activity, can potentiate the twitch response to direct stimulation of single muscle fibres.…”

“…They also lower the mechanical threshold and prolong the relaxation phase of potassium-induced contractures in single skeletal muscle fibres (Anderson 1972 a ) . Furthermore, these drugs are membrane stabilizers a, b, Seeman 1966, Langslet 1970, Langslet et al 1971 and inhibit the passage of calcium and other ions across cell membranes (van Zwieten 1969, Balzer andHellenbrecht 1969). I t has been suggested that, because of these effects, the drugs would be able to inhibit the release of calcium from the sarcoplasmic reticulum and thus diminish the contractile response to direct stimulation of the muscle (Balzer and Hellenbrecht 1969).…”

“…Reports on the effects of chlorpromazine and imipramine on tension development of electrically stimulated skeletal muscle are sparse. However, in frog sartorius and rectus abdominis muscles, chlorpromazine was shown to diminish the twitch amplitude (Balzer and Hellenbrecht 1969). Quinidine and its optical isomer quinine, on the other hand, have been more extensively investigated and are known to potentiate the twitch response (Harvey 1939, Krayer and George 1951, Isaacson, Yamaji and Sandow 1970 by prolonging the duration of the active state (Lammers and Ritchie 1955).…”

“…Quinidine and its optical isomer quinine, on the other hand, have been more extensively investigated and are known to potentiate the twitch response (Harvey 1939, Krayer and George 1951, Isaacson, Yamaji and Sandow 1970 by prolonging the duration of the active state (Lammers and Ritchie 1955). Reports of a reduced tension development in the twitch induced by quinidine have also appeared (Balzer and Hellenbrecht 1969).…”

Effects of Chlorpromazine, Imipramine, and Quinidine on Action Potential and Tension Development in Single Skeletal Muscle Fibres of the Frog

“…I n a whole muscle, these effects may lead to an incomplete activation of some of the fibres and in this way cause a diminution of both twitch and tetanus tensions. Supporting this explanation is the fact that the reduction of twitch amplitude reported by Balzer and Hellenbrecht (1969) could to some extent be counteracted by raising the strength of the stimulus.…”

“…Kopera and Armitage (1954) found that chlorpromazine, after a transient potentiation, reduced the contraction response to both direct and indirect stimulation in the gastrocnemius muscle of the cat, and the same actions on frog sartorius (Isaacson and Sandow 1967) and on crab muscle (Huddart 197 1 ) have been reported for quinine. Balzer and Hellenbrecht ( 1969), working with the sartorius and rectus abdominis muscles of the frog, also found that chlorpromazine and quinidine caused a diminished tension output. The present results, however, clearly demonstrate that chlorpromazine < 1 0-5 M, imipramine and quinidine < 5 x 10-5 M, concentrations that do not block the electrical activity, can potentiate the twitch response to direct stimulation of single muscle fibres.…”

“…They also lower the mechanical threshold and prolong the relaxation phase of potassium-induced contractures in single skeletal muscle fibres (Anderson 1972 a ) . Furthermore, these drugs are membrane stabilizers a, b, Seeman 1966, Langslet 1970, Langslet et al 1971 and inhibit the passage of calcium and other ions across cell membranes (van Zwieten 1969, Balzer andHellenbrecht 1969). I t has been suggested that, because of these effects, the drugs would be able to inhibit the release of calcium from the sarcoplasmic reticulum and thus diminish the contractile response to direct stimulation of the muscle (Balzer and Hellenbrecht 1969).…”

“…Reports on the effects of chlorpromazine and imipramine on tension development of electrically stimulated skeletal muscle are sparse. However, in frog sartorius and rectus abdominis muscles, chlorpromazine was shown to diminish the twitch amplitude (Balzer and Hellenbrecht 1969). Quinidine and its optical isomer quinine, on the other hand, have been more extensively investigated and are known to potentiate the twitch response (Harvey 1939, Krayer and George 1951, Isaacson, Yamaji and Sandow 1970 by prolonging the duration of the active state (Lammers and Ritchie 1955).…”

“…Quinidine and its optical isomer quinine, on the other hand, have been more extensively investigated and are known to potentiate the twitch response (Harvey 1939, Krayer and George 1951, Isaacson, Yamaji and Sandow 1970 by prolonging the duration of the active state (Lammers and Ritchie 1955). Reports of a reduced tension development in the twitch induced by quinidine have also appeared (Balzer and Hellenbrecht 1969).…”

Effects of Chlorpromazine, Imipramine, and Quinidine on Action Potential and Tension Development in Single Skeletal Muscle Fibres of the Frog

Effects of Chlorpromazine, Imipramine, and Quinidine on the Mechanical Activity of Single Skeletal Muscle Fibres of the Frog