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Cannabinoid regulation of neurons in the dentate gyrus during epileptogenesis. Role of CB1R-associated proteins and downstream pathways.

Carlos A LafourcadeFraser T SparksAngélique BordeyUrsula WynekenMichael H Mohammadi
Published in: Epilepsia (2023)
The hippocampal formation plays a central role in the development of temporal lobe epilepsy (TLE), a disease characterized by recurrent, unprovoked epileptic discharges. TLE is a neurologic disorder characterized by acute long-lasting seizures (i.e. abnormal electrical activity in the brain) or seizures that occur in close proximity without recovery, typically after a brain injury or status epilepticus. After status epilepticus, epileptogenic hyperexcitability develops gradually over the following months to years resulting in the emergence of chronic, recurrent seizures. Acting as a filter or gate, the hippocampal dentate gyrus (DG) normally prevents excessive excitation from propagating through the hippocampus, and is considered a critical region in the progression of epileptogenesis in pathological conditions. Importantly, lipid-derived endogenous cannabinoids (endocannabinoids, eCBs), which are produced-on-demand as retrograde messengers, are central regulators of neuronal activity in the DG circuit (Sugaya et al., 2016). In this review, we summarize recent findings concerning the role of the DG in controlling hyperexcitability and propose how DG regulation by cannabinoids (CBs) could provide avenues for therapeutic interventions. We also highlight possible pathways and manipulations that could be relevant for the control of hyperexcitation.
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