Epilepsy is a serious neuropsychiatric disorder characterized by the occurrence of spontaneous recurrent seizures and linked cognitive, psychoemotional, and social impairments. Objective research showed that up to 30% of epilepsy patients do not respond to current therapeutic interventions, necessitating the development of novel treatment options. In recent years, researchers actively studied the neuroprotective properties of peroxisome proliferator-activated receptor agonists (PPAR α, β/δ, γ). As nuclear transcription factors involved in inflammatory signaling pathways, PPARs play a role in the pathogenesis of neuropsychiatric disorders, such as epilepsy. Various nervous pathology models were used for the investigations. The neuroprotective properties of PPAR γ agonists were reported in epilepsy models, whereas sufficient investigation into PPAR β/δ agonists’ effects is lacking. The aim of this study was to evaluate the effectiveness of the PPAR β/δ receptor agonist cardarine in alleviating behavioral disruptions observed in rats exhibiting temporal lobe epilepsy in response to the lithium-pilocarpine model. The lithium-pilocarpine model is considered one of the most effective experimental models for studying temporal lobe epilepsy in humans. Administration of pilocarpine in animals results in acute seizures, followed by a latent period devoid of seizures. Subsequently, spontaneous recurrent seizures appear, marking the chronic phase of the model. Epilepsy was induced in male Wistar rats that were 7 weeks old, through the administration of pilocarpine, 24 hours after being injected with LiCl (127 mg/kg). The peripheral effects of pilocarpine were negated through the use of methyl bromide-scopolamine (1 mg/kg, administered intraperitoneally 1 hour before pilocarpine). Pilocarpine was administered in fractional doses of 10 mg/kg, every half hour, until the seizures reached at least stage 4 on the Racine scale, with a dose range of 20–40 mg/kg. Following pilocarpine administration, Cardarine was administered intraperitoneally at a dose of 2.5 mg/kg daily for a period of 7 days, with the initial injection taking place 24 hours post-administration. Behavioral tests were conducted during the chronic phase of the model, 2-2.5 months after pilocarpine injection, using several tests, including the Open Field (to measure exploratory behavior, motor activity, and anxiety levels), the Intruder-Resident test (to measure communicative behavior), the Y-maze test (to measure working memory), and the Morris Water Maze (to measure spatial memory in the short and long term). Untreated experimental animals with temporal lobe epilepsy exhibited heightened vertical and horizontal motor activity, increased anxiety in the Open Field test, reduced communicative activity in the Intruder-Resident test, and impaired memory in the Y-maze test and the Morris Water Maze. Cardarine reduced alterations in vertical movement (time of climbing) and anxiety levels (number of grooming behaviors) in the Open Field, hindered short-term memory in the Y-maze, and restrained communicative conduct in the Intruder-Resident test. However, the medication did not impact the rats’ survival rate, body weight changes, overall activity (distance traveled in the Open Field), and damage to learning and long-term memory in the Morris Water Maze. Thus, administration of cardarine partially neutralized behavioral disorders developing in rats in the lithium-pylocarpine model of temporal lobe epilepsy.
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