Catfish cone horizontal cells contain a voltage-gated L-type calcium channel that is modulated by activation of metabotropic glutamate receptors (mGluRs). Activation of group I mGluRs with the mGluR I agonist, (S)-3,5-dihydroxyphenylglycine [(S) 3,5-DHPG], potentiated peak calcium current amplitude, shifted the membrane potential corresponding to peak current activity, and widened the calcium current's activation range. In this study, we have examined the mechanisms linking activation of the mGluRs with “up-regulation” of calcium current activity. Under whole-cell voltage-clamp conditions favoring expression of the L-type calcium current, we provide evidence that activation of mGluRs initiate the diacylglyceral (DG) second messenger pathway to activate protein kinase C (PKC) and up-regulate calcium channel activity. This evidence was based on results using a number of PKC activators and inhibitors. PKC activators mimicked the effect of (S) 3,5-DHPG on calcium current activity. Up-regulation of the calcium channel by PKC activators or (S) 3,5-DHPG was eliminated if PKC inhibitors were present. These results also demonstrated that activation of group I mGluRs were linked to a pertussis toxin sensitive G-protein. When the GTP analog, guanosine 5-0-(3-thiotriphosphate (GTPγS), was allowed to diffuse into voltage-clamp cells, up-regulation of the calcium channel occurred and mimicked the effect of (S) 3,5-DHPG. However, when pertussis toxin (PTX) was allowed to diffuse into the cell along with GTPγS, GTPγS failed to modulate calcium current activity. IP3 (inositol 1,4,5 triphosphate) is a second product produced by activation of group I mGluRs. Once formed, IP3 can trigger calcium release from IP3-sensitive intracellular stores. To determine if the IP3 second messenger system was involved in up-regulation of calcium channel, (S) 3,5-DHPG was applied to voltage-clamped cone horizontal cells containing different concentrations of the calcium buffer, EGTA. Low concentrations of EGTA failed to buffer calcium released from intracellular stores. In the presence of low EGTA concentrations, (S) 3,5-DHPG's enhancement of the calcium current amplitude was reduced. Inhibition of the calcium current amplitude in low concentrations of EGTA was eliminated in the presence of the intracellular calcium store blocker, heparin. These results suggest that both the DG and IP3 second messenger pathways are involved in modulation of the voltage-gated calcium channel in catfish cone horizontal cells. The DG pathway up-regulates the voltage-gated calcium channel activity whereas calcium released from IP3 intracellular stores inhibits peak current amplitude.