Blockade of K+ contractures in skeletal muscle by opioid drugs: a nonstereospecific effect.

Abstract

The effect of several opioid drugs was tested on the K+ contractures in frog's skeletal muscle. These contractures are produced by the entrance of extracellular Ca2+ ions via the voltage-dependent, slow Ca2+ channels located in the T tubules. Morphine and other opioid agonists in concentrations ranging from 10(-10) to 10(-5) M inhibited K+ contractures. The stereoisomers, dextrorphan and levorphanol, were found to have identical potency in inhibiting high K+ contractures, suggesting that this was a nonstereospecific blockade of voltage-dependent calcium channels by the opioid drugs despite the low effective drug concentrations. In agreement with this conclusion it was found that the inhibition of K+ contractures by the opioids was not antagonized by naloxone. It also was observed using a sucrose gap apparatus that these opioid drugs in concentrations used to block the high K+ contractures did not reduce the K+-induced membrane depolarization. Raising the bathing solution Ca2+ concentration from 1.08 to 5 mM produced a reversal of the opioid-induced block of K+ contractures. Finally it was shown that while opioids completely blocked K+ contractures, they did not produce any effect on caffeine contractures showing that opioids do not deplete intracellular Ca2+ stores or inhibit the release of Ca2+ from intracellular sarcoplasmic reticulum stores. It was concluded that several opioid drugs in very low concentrations block K+ contractures in frog's skeletal muscle by a nonstereospecific block of voltage-dependent slow calcium channels.