Involvement of Calcium Channels in Depolarization-Evoked Release of Adenosine from Spinal Cord Synaptosomes

Abstract: The potential involvement of L- and N-type voltage-sensitive calcium (Ca²⁺) channels and a voltage-independent receptor-operated Ca²⁺ channel in the release of adenosine from dorsal spinal cord synaptosomes induced by depolarization with K⁺ and capsaicin was examined. Bay K 8644 (10 n M ) augmented release of adenosine in the presence of a partial depolarization with K⁺ (addition of 6 m M ) but not capsaicin (1 and 10 μ M ). This augmentation was dose dependent from 1 to 10 n M and was followed by inhibition of release from 30 to 100 n M . Nifedipine and nitrendipine inhibited the augmenting effect of Bay K 8644 in a dose-dependent manner, but neither antagonist had any effect on release of adenosine produced by K⁺ (24 m M ) or capsaicin (1 and 10 μ M ) ω-Conotoxin inhibited K⁺-evoked release of adenosine in a dose-dependent manner but had no effect on capsaicin-evoked release. Ruthenium red blocked capsaicin-induced release of adenosine but had no effect on K⁺-evoked release. Although L-type voltage-sensitive Ca²⁺ channels can modulate release of adenosine when synaptosomes are partially depolarized with K⁺, N-type voltage-sensitive Ca²⁺ channels are primarily involved in K⁺-evoked release of adenosine. Capsaicin-evoked release of adenosine does not involve either L- or N-type Ca²⁺ channels, but is dependent on a mechanism that is sensitive to ruthenium red.