Abstract
Epilepsy is associated with a multitude of acquired or genetic neurological disorders characterized by a predisposition to spontaneous recurrent seizures. An estimated 15 million patients worldwide have ongoing seizures despite optimal management and are classified as having refractory epilepsy. Early-life seizures like those caused by perinatal hypoxic ischemic encephalopathy (HIE) remain a clinical challenge because although transient, they are difficult to treat and associated with poor neurological outcomes. Pediatric epilepsy syndromes are consistently associated with intellectual disability and neurocognitive comorbidities. HIE and arterial ischemic stroke are the most common causes of seizures in term neonates and account for 7.5-20% of neonatal seizures. Standard first-line treatments such as phenobarbital (PB) and phenytoin fail to curb seizures in ~50% of neonates. In the long-term, HIE can result in hippocampal sclerosis and temporal lobe epilepsy (TLE), which is the most common adult epilepsy, ~30% of which is associated with refractory seizures. For patients with refractory TLE seizures, a viable option is the surgical resection of the epileptic foci. Novel insights gained from investigating the developmental role of Cl- cotransporter function have helped to elucidate some of the mechanisms underlying the emergence of refractory seizures in both HIE and TLE. KCC2 as the chief Cl- extruder in neurons is critical for enabling strong hyperpolarizing synaptic inhibition in the brain and has been implicated in the pathophysiology underlying both conditions. More recently, KCC2 function has become a novel therapeutic target to combat refractory seizures.
Highlights
Seizures are spontaneous hypersynchronous brain discharges that can last a few seconds to minutes and result from the neuronal circuit imbalance of excitation and inhibition
GABARs consist of two major categories: GABAA receptor (GABAAR) are ionotropic receptors, whereas GABABRs are a subset of G protein-coupled receptors (GPCRs) and are metabotropic
Excitatory GABAergic neurotransmission is essential for neuronal development in the neonatal brain, acute insult can lead to pathological and irreversible disruption of these circuits. 20-60% of incidents of epilepsy are a result of acute insults to the CNS [19]
Summary
Seizures are spontaneous hypersynchronous brain discharges that can last a few seconds to minutes and result from the neuronal circuit imbalance of excitation and inhibition. Excitatory GABAergic neurotransmission is essential for neuronal development in the neonatal brain, acute insult can lead to pathological and irreversible disruption of these circuits. The effect of disrupted GABAergic circuits in the brain may be impactful on granule cell migration, as preclinical studies in rodent models have shown that a greater rate of granule cell neurogenesis in induced by seizures in the adult hippocampus [26].
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