Characterization and application of hyperthermia-evoked seizures in a mouse model of focal cortical dysplasia.
Xiaogang Zhang, Chandni Rana, Ruitao Shen, Tao Yang, Joseph Barden, Hudson Haberland, Mi Jiang, Rida Qureshi, Saif Siddiqui, Alexander Sajdak, Patrick Lawlor, Yu Wang, Joanna Mattis
Abstract
Open AccessRodent models of drug-resistant epilepsy are widely used to uncover mechanisms of seizures and to test the efficacy of treatments; however, the stochastic and relatively infrequent nature of spontaneous seizures in these models makes it challenging to observe and manipulate peri-ictal activity, and to rapidly screen therapeutics. As fever has been identified as a clinical seizure trigger, we investigated the ability of induced hyperthermia to trigger seizures in a mouse model of focal cortical dysplasia (FCD), a common cause of drug-resistant epilepsy. Experimental mice were generated via in utero electroporation of a gain-of-function RHEB variant (RHEBp.P37L). In adult Rheb- FCD mice, hyperthermia elicited behavioral seizures ∼80% of the time, with a mean temperature threshold of ∼40 °C. Using this acute paradigm, as a proof-of-concept, we found that chemogenetic inhibition of a subset of excitatory neurons within the dysplasia significantly elevated the threshold for hyperthermia-evoked seizures. We then confirmed the relevance of this acute finding to spontaneous epileptiform activity, using repeated chemogenetic inhibition across chronic recordings to confirm a reduction of spontaneous seizures as well as interictal spikes. Overall, our data demonstrate that hyperthermia-evoked seizures can be readily elicited in Rheb- FCD mice, offering a tractable platform for evaluating therapeutic interventions targeting seizure susceptibility in focal epilepsy.