Adverse Outcome Pathway on binding to the picrotoxin site of ionotropic GABA receptors leading to epileptic seizures in adult brain [electronic resource] / Ping Gong and Edward J. Perkins
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ArticleSeries: OECD Series on Adverse Outcome Pathways ; no.11.Publication details: Paris : OECD Publishing, 2019.Description: 57 pSubject(s): Online resources: Abstract: This AOP begins with the interaction of chemicals to the picrotoxin binding site of the ionotropic GABA receptor complex causing blockage of the ion channel. As a result, decrease in inward chloride conductance occurs, followed by a reduction in postsynaptic inhibition, reflected as reduced frequency and amplitude of spontaneous inhibitory postsynaptic current or abolishment of GABA-induced firing action. Consequently, the resistance of excitatory neurons to fire is decreased, resulting in the generation of a large excitatory postsynaptic potential (EPSP) that causes voltage-gated Na+ to open, which results in action potentials. The depolarisation is followed by a period of hyper-polarisation mediated by Ca2+-dependent K+ channels or GABA-activated Cl− influx, which becomes smaller, gradually disappears, and is replaced by a depolarisation known as "paroxysmal depolarizing shift" (PDS). A PDS is an indication of epilepsy at the cellular level and initiates the adverse outcome at the organismal level of epileptic seizure.
| Item type | Home library | Collection | Call number | Status | Date due | Barcode | Item holds | |
|---|---|---|---|---|---|---|---|---|
| Working Paper | Biblioteca Digital | Colección OECD | OECD 9226875e-en (Browse shelf(Opens below)) | Not For Loan |
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This AOP begins with the interaction of chemicals to the picrotoxin binding site of the ionotropic GABA receptor complex causing blockage of the ion channel. As a result, decrease in inward chloride conductance occurs, followed by a reduction in postsynaptic inhibition, reflected as reduced frequency and amplitude of spontaneous inhibitory postsynaptic current or abolishment of GABA-induced firing action. Consequently, the resistance of excitatory neurons to fire is decreased, resulting in the generation of a large excitatory postsynaptic potential (EPSP) that causes voltage-gated Na+ to open, which results in action potentials. The depolarisation is followed by a period of hyper-polarisation mediated by Ca2+-dependent K+ channels or GABA-activated Cl− influx, which becomes smaller, gradually disappears, and is replaced by a depolarisation known as "paroxysmal depolarizing shift" (PDS). A PDS is an indication of epilepsy at the cellular level and initiates the adverse outcome at the organismal level of epileptic seizure.
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