Abstract

Medial temporal lobe epilepsy (MTLE) is among the most common and most drug-resistant types of epilepsies associated with remodeling of the trisynaptic circuit of the hippocampus. The cornu ammonis (CA)3 region, as the “pacemaker” of the circuit, and CA3 → CA1 synapse (Schaffer collaterals) are potential targets for suppression of MTLE. We examined optogenetic manipulation of CA3 neurons in controlling the perforant pathway kindled seizures. One week after implantation of stimulating electrodes in perforant pathway, a recording electrode in CA1, and an optic fiber in CA3, rats underwent rapid kindling procedure. A lentivector with capability to move in retrograde monosynaptic direction and to insert the gene of red light sensitive opsin Jaws in neurons was injected into CA1 of the kindled rats. One week later, the kindled rats were stimulated at afterdischarge (AD) threshold under red light illumination to CA3; and duration of AD (ADD), generalized seizures (S5D), and total seizure behavior (SD) were recorded. Encoding Jaws in CA1, CA3, and entorhinal neuronal cells of the vector injected rats was verified by immunohistochemistry. More than 90% of CA1, CA3, and entorhinal neurons of the counted sections expressed Jaws. Red light (625 nm) illumination to CA3 of the kindled rats expressing Jaws entirely suppressed generalized seizures and significantly diminished ADD and SD. Encoding the light-sensitive chloride pump Jaws in the CA3, is an efficient optogenetic strategy to stop perforant pathway kindled seizures.

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