In freshly isolated neurons of the rat spinal ganglia, we studied the behavior of voltage-operated calcium channels of these cells under conditions of the absence of calcium ions in the extracellular solution; a patch-clamp technique in the whole-cell configuration was used. We found that such channels in a part of the studied neurons lose their selectivity in a calcium-free potassium-containing solution and become capable of passing an inward potassium current. This current was inhibited by blockers of voltage-operated calcium channels, nifedipine and nickel, and also was to some extent inhibited by caffeine. The latter effect is realized, perhaps, due to calcium-dependent inactivation of calcium channels induced by the action of calcium ions released from the endoplasmic reticulum upon caffeine-induced activation of ryanodine receptors. The peculiarities of current-voltage relationships and characteristics of activation/inactivation of calcium channels modified in calcium-free medium and the possible mechanisms of such modification are discussed.