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Enhanced responses to somatostatin interneuron activation in developmentally malformed cortex

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Intractable epilepsy is commonly associated with developmental cortical malformations. Using the rodent freeze lesion model, we have sought the underlying circuit abnormalities contributing to the epileptiform activity that occurs in… Click to show full abstract

Intractable epilepsy is commonly associated with developmental cortical malformations. Using the rodent freeze lesion model, we have sought the underlying circuit abnormalities contributing to the epileptiform activity that occurs in association with the structural pathology of four‐layered microgyria. We showed previously that within the epileptogenic paramicrogyral region (PMR) surrounding the malformation, non–fast‐spiking neurons commonly containing somatostatin (SSt) exhibit alterations, including having a greater maximum firing rate. Here we examined the output of SSt interneurons with optogenetics, using SSt‐Cre mice mated to mice with floxed channelrhodopsin‐2. Voltage clamp recordings from layer V pyramidal neurons in ex vivo slices had significantly enhanced SSt‐evoked inhibitory postsynaptic currents in PMR cortex compared to control. In addition, under conditions of low‐Mg2+ artificial cerebral spinal fluid (aCSF), light activation of the SSt neurons evoked field potential epileptiform activity in the PMR cortex, but not in control. These data suggest that within the PMR cortex, SSts have a significantly larger effect on excitatory neurons. Surprisingly, the network effect of this enhanced inhibition is hyperexcitability with propagating epileptiform activity, perhaps due to disinhibition of other interneuron cell types or to enhanced synchrony of excitatory cortical elements. This identification creates a new locus for potential modulation of epileptiform activity associated with cortical malformation.

Keywords: epileptiform activity; pmr cortex; activation; cortex

Journal Title: Epilepsia Open
Year Published: 2019

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