Epilepsy-induced electrocardiographic alterations following cardiac ischemia and reperfusion in rats

The present study evaluated electrocardiographic alterations in rats with epilepsy submitted to an acute myocardial infarction (AMI) model induced by cardiac ischemia and reperfusion. Rats were randomly divided into two groups: control (n=12) and epilepsy (n=14). It was found that rats with epilepsy presented a significant reduction in atrioventricular block incidence following the ischemia and reperfusion procedure. In addition, significant alterations were observed in electrocardiogram intervals during the stabilization, ischemia, and reperfusion periods of rats with epilepsy compared to control rats. It was noted that rats with epilepsy presented a significant increase in the QRS interval during the stabilization period in relation to control rats (P<0.01). During the ischemia period, there was an increase in the QRS interval (P<0.05) and a reduction in the P wave and QT intervals (P<0.05 for both) in rats with epilepsy compared to control rats. During the reperfusion period, a significant reduction in the QT interval (P<0.01) was verified in the epilepsy group in relation to the control group. Our results indicate that rats submitted to an epilepsy model induced by pilocarpine presented electrical conductivity alterations of cardiac tissue, mainly during an AMI episode.

Hippocampal proteomic profile in temporal lobe epilepsy / Perfil proteômico hipocampal em epilepsia do lobo temporal

In this study we used proteomics approaches to obtain the protein profile of human epileptic hippocampi (N=6) and control hippocampi obtained from autopsy (N=6). We used two-dimensional gel electrophoresis (2-D) coupled to HPLC and Mass spectroscopy (MALDI-TOF) to identify proteins differentially expressed. Nine proteins were differentially expressed comparing the hippocampus of patients with the hippocampus of control. Proteins that were increased in the hippocampus of patients with TLE were: isoform 1 of serum albumin, HSP 70, dihydropyrimidinase-related protein 2, isoform 1 of myelin basic protein, proton ATPase catalytic subunit A, and dihydrolipoyllysine-residue acethyltransferase component of pyruvate dehydrogenase complex. The expression of isoform 3 of spectrin alpha chain (fodrin) was down-regulated while the proteins glutathione S-transferase P and the DJ-1 (PARK7) were detected only in the hippocampus of patients with TLE. Taken together, our results provide evidence supporting a direct link between metabolic disturb and oxidative damage related to pathophysiology of TLE. Besides, indicates biomarkers for further investigations as therapies targeted to epilepsy.

No presente estudo empregou-se o método de proteômica para obter a expressão diferencial de proteínas em hipocampo de pacientes com epilepsia do lobo temporal (ELT) (N=6) comparado a hipocampos controle obtidos por meio de autópsia (N=6). O estudo foi feito por meio de eletroforese bidimensional, acoplada a HPLC e espectroscopia de massa. As proteínas que tiveram expressão aumentada no hipocampo de pacientes com ELT foram: isoforma-1 da soroalbumina, HSP70, diidropirimidinase-2, isoforma-1 da proteína básica da mielina, subunidade catalítica A da próton ATPase, glutationa S-transferase P, proteína DJ-1 (PARK7), e resíduo diidropolilisina do componente acetil-transferase do complexo da piruvato desidrogenase. A expressão da isoforma-3 da cadeia alfa da espectrina (fodrina) foi menor no hipocampo de pacientes com epilepsia do lobo temporal e as proteínas glutationa S-transferase P e PARK7 foram detectadas somente no tecido epiléptico. Assim, nossos resultados trazem evidencias sobre a direta relação entre distúrbio metabólico e dano oxidativo na patofisiologia da ELT. Além disto, o estudo indica biomarcadores para futuras investigações como alvos terapêuticos para epilepsia.

A Interleucina 1-beta mostra uma ação protetora na fase aguda do modelo de epilepsia induzido pela pilocarpina / The il1β have a protective action in the acute phase of the pilocarpine-induced epilepsy model

INTRODUÇÃO: Existem contradições na literatura quanto aos efeitos dos genes il1β e il1rn nas epilepsias. Nosso objetivo foi avaliar os efeitos do silenciamento desses dois genes na fase aguda do modelo de epilepsia induzido pela pilocarpina. MÉTODOS: Para alterar a expressão dos genes il1β e il1rn utilizamos a técnica de interferência por RNA. RESULTADOS: Obtivemos taxas de silenciamento significativas para os dois genes no sistema nervoso central. Observamos efeitos fenotípicos significativos, incluindo a alteração na taxa de mortalidade dos animais 5 dias após a indução do modelo. CONCLUSÕES: A il1β parece exercer um papel protetor na fase aguda do modelo de epilepsia induzido pela pilocarpina.

INTRODUCTION: There is contradictory information regarding the of effects il1β and il1rn in epilepsy. We aimed to evaluate the effect of silencing both genes in the acute phase of the pilocarpine-induced epilepsy model. METHODS: We used RNA interference in order to achieve gene silencing. RESULTS: We obtained significant gene silencing in the central nervous system. In addition, we observed phenotypic effects including differences in mortality rates of animals 5 days after pilocarpine injections. CONCLUSION: Our results indicate that il1β seems to have a protective effect in the acute phase of the pilocarpine-induced epilepsy model.