Glutamatergic pathway in depressive-like behavior associated with pentylenetetrazole rat model of epilepsy with history of prolonged febrile seizures.

BACKGROUND: Depression is the most significant cause of suicide among neuropsychiatric illnesses. Major depression further affects the quality of life in an individual with epilepsy. The treatment of depression in an epileptic patient could be very challenging because of drug selection or the fact that some antiepileptic drugs are known to cause depression. It has been shown that in addition to the known involvement of the serotonergic pathway in depression, the glutamatergic system is also involved in the evolution of the disease, but this knowledge is limited. This study assessed if induction of epilepsy in rats will cause depressive-like behavior, alters the concentrations of metabotropic receptor 5 (mGluR5), glutamate transport protein (GLAST), glutamate synthase (GS) and brain derived neurotrophic factor (BDNF). MATERIALS AND METHOD: Epilepsy was induced in rats by injecting Pentylenetetrazole at 35 mg/kg every other day. At kindle, rats were subjected to sucrose preference test (SPT) and forced swim test (FST) and decapitated 4 h later. Hippocampal tissue was collected and the BDNF concentration was measured with ELISA; mGluR5 and GS protein expression was measured using western blot while amygdala tissue was used for GLAST expression with flow cytometry. RESULTS: Our results showed that epilepsy leads to depressive-like behavior in rats and alters the glutamatergic system. CONCLUSION: Therefore, we conclude that targeting the glutamate pathway may be a good strategy to alleviate depressive-like behavior associated with epilepsy.

Prolonged febrile seizure history exacerbates seizure severity in a pentylenetetrazole rat model of epilepsy.

Epilepsy is a debilitating neurological illness that affects all aspect of an individual life. Despite advancement in research there is little reduction in the incidence of this disease. Prolonged febrile seizure (PFS) has been linked to epilepsy however, the pathophysiology of this is still not clear. We therefore looked at the effect of PFS on the development of epilepsy in a pentylenetetrazole (PTZ) rat model of epilepsy. A total of 42 male Sprague-Dawley rats were used for the experiment. On post-natal day (PND) 14, PFS was induced in 14 rats. This was followed by the induction of epilepsy in the 14 PFS animal and 14 animals from the remaining 28 rats by an initial injection of PTZ at a dose of 60 mg/kg on day one followed by 35 mg/kg on alternate day until kindle. We looked at the effect of PFS on the onset and the stage of convulsion at kindle. We also observed it effect on the hippocampal glial fibrillary acidic protein (GFAP), synaptophysin and metabotropic glutamate receptor 3 (mGluR3) expression measured with immunofluorescence, LI Cor Tissue florescence and immunohistochemistry respectively. Our study showed that PFS reduced seizure threshold by decreasing the time it took animals to kindle and also increased the stage of convulsion. The hippocampal GFAP, synaptophysin and mGluR3 expressions where upregulated in PTZ rats with PFS history when compared to PTZ rats alone.These findings indicated that PFS may increase the severity of epilepsy and alter brain expression of GFAP, synaptophysin and mGluR3 proteins.