Table 1.
The distribution, physiological function, and possible roles of voltage-dependent calcium channels (VDCCs) in the pathological process of epilepsy.
| VDCCs | Physiological Function | Possible Roles in Pathological Process of Epilepsy |
|---|---|---|
| L-Type | Shape neuronal firing and activate Ca2+-dependent pathways involved in the control of gene expression, and support neuronal plasticity [47] | Control neuronal excitability and likely provide the gene basis of epileptogenesis through regulation of gene expression |
| P/Q-Type | Regulate neurotransmitter release [49,50] | Inhibit epileptogenesis based on the fact that its null mutation can cause the occurrence of absence epilepsy |
| N-Type | Regulate neurotransmitter release [51,52] | Inhibit neuronal excitability through fast redistribution in the subcellullar organs of neurons |
| R-Type | Regulate long-term potentiation (LTP) and neurotransmitter release [53,54] | Trigger epileptiform activity in neuronal populations and promote epileptogenesis |
| T-Type | Regulate rhythmic firing of neurons [45] | Control burst firing of action potentials of neurons, and the plasticity of neurons induced by epiletogenic factors and promote the formation of epileptogenic focus |