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  • Title: The steps between depolarization and the increase in the respiration of frog skeletal muscle.
    Author: van der Kloot W.
    Journal: J Physiol; 1969 Oct; 204(3):551-69. PubMed ID: 4241910.
    Abstract:
    1. For many years it has been known that when muscles are depolarized by raising [K(+)](out) there is an increase in respiration, even at levels of depolarization below the threshold for a detectable contracture.2. K(+)-stimulated respiration occurs in muscles in which protein synthesis is blocked with puromycin. Stimulation does not depend upon activation of phosphorylase kinase. In muscle poisoned with IIA and kept in N(2), depolarizations below the threshold for contracture cause a fall in creatine phosphate. Apparently an ATPase is activated by depolarization; the resulting ADP is probably the trigger for the increase in oxygen uptake.3. When the T-tubules are destroyed by the glycerol-osmotic shock method depolarization does not produce an increase in respiration.4. Caffeine is known to stimulate respiration at concentrations below the threshold for producing a contracture. Muscles that have been made refractory to stimulation by potassium are still stimulated by caffeine: the action of caffeine is not antagonized by an increase in extracellular Mg(2+). Caffeine must act on a later step in excitation-contraction coupling.5. K(+)-stimulated respiration ultimately depends on the presence of Ca(2+) in the Ringer. However, the Ca(2+) can be replaced by Ni(2+). It is known that Ni(2+) does not activate actomyosin. Ni(2+) is not sequestered by isolated fragments of the sarcoplasmic reticulum. It seems that the Ni(2+) or Ca(2+) in the extracellular solution is required for a superficial step in excitation-contraction coupling.6. Respiration is also often stimulated when muscles are placed in an isotonic sucrose solution, even though the fibres are hyperpolarized. A trace amount of Ca(2+) in the sucrose solution is probably necessary for the response.7. An interaction between Ca(2+) and a superficial membrane receptor appears to be an essential, early step in excitation-contraction coupling.
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