Antiepileptogenic and Neuroprotective Effects of on Pilocarpine Model of Epilepsy

Overview

Journal Front Pharmacol

Date 2017 Jul 18

PMID 28713279

Citations 13

Authors

Antoine K Kandeda

Germain S Taiwe

Fleur C O Moto

Gwladys T Ngoupaye

Gisele C N Nkantchoua

Jacqueline S K Njapdounke

Jean P O Omam

Simon Pale

Nadege Kouemou

Elisabeth Ngo Bum

Affiliations

Soon will be listed here.

Abstract

In this study, we investigated antiepileptogenic and neuroprotective effects of the aqueous extract of roots (PDR) using and experimental models. In studies, status epilepticus caused by pilocarpine injection triggers epileptogenesis which evolves during about 1-2 weeks. After 2 h of status epilepticus, mice were treated during the epileptogenesis period for 7 days with sodium valproate and vitamin C (standards which demonstrated to alter epileptogenesis), or . The animals were then, 1 week after status epilepticus, challenged with acute pentylenetetrazole (PTZ) administration to test behaviorally the susceptibility to a convulsant agent of animals treated or not with the plan extract. Memory was assessed after PTZ administration in the elevated plus maze and T-maze paradigms at 24 and 48 h. Antioxidant and acetylcholinesterase activities were determined in the hippocampus after sacrifice, studies were conducted using embryonic rat primary cortical cultures exposed to L-glutamate. Cell survival rate was measured and apoptotic and necrotic cell death determined. The results showed that chronic oral administration of PDR significantly and dose-dependently increased the latency to myoclonic jerks, clonic seizures and generalized tonic-clonic seizures, and the seizure score. In addition, PDR at all doses (from 4.9 to 49 mg/kg) significantly decreased the initial and retention transfer latencies in the elevated plus maze. Interestingly PDR at the same doses significantly increased the time spent and the number of entries in T-maze novel arm. PDR significantly increased the activities of acetylcholinesterase and antioxidant enzymes superoxide dismutase, catalase, and total glutathione and proteins, and decreased malondialdehyde level. Furthermore, PDR increased viability rate of primary cortical neurons after L-glutamate-induced excitotoxicity, in a dose dependent manner. Altogether these results suggest that PDR has antiepileptogenic and neuroprotective effects, which could be mediated by antioxidant and antiapoptotic activities.

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