Anti-oxidant Effect of Gastrodin in Epilepsy Rats / 昆明医科大学学报

Objective To explo the antioxidant effect and molecular mechanism of gastrodin (Gas) in epilepsy (EP) rats induced by LiCl-pilocarpine (PILO) . Methods Eighty male SD rats were randomly divided into 5 groups: sham group, EP group, therapy groups (pretreated with 60 mg/kg, 90 mg/kg, 120 mg/kg of gastrodin respectively) . The EP model was esteblished by peritoneal injection of LiCl-PILO. Therapy groups were pretreated with various concerntration of Gas. The control group was given the same dosage of normal saline. The alteration of behavior was observed, the concentration of catalase (CAT), glutathion (GSH), superoxide dismutase (SOD), glutathion reductase (GR), total antioxidtion (T-AOC) and malondialdehyde (MDA) in rats brain cortex were detected by chemical colorimetric method, phosphorylation of p38 was determined by western blot. Results There was no EP seizure in sham group,and the EP seizure degree in therapy groups (gas pretreated groups) was significantly decreased,and had statistically significant difference with EP group (P<0.05) . The EP model rats exhibited a significant decrease in the concentration of endogenous antioxidants (CAT, GSH, SOD, GR and T-AOC), while an increase of the concentration of MDA and phosphorylation p38 protein as compared to sham group (P<0.05) . After treatment of the Gas,treatment group rats attenuated the seizure degree,exhibited a significant increase of the concentration of endogenous antioxidants (P<0.05),while a decrease in concentration of MDA and phosphorylation of p38 as compared to model group (P<0.05) . Conclusion Gas may have a neuroprotective role in central nervous system of epileptic rats modle by down-regulateing the seizure degree and the activity of p38 kinase and up-regulateing the content of endogenous antioxidants.

Therapeutic approaches for tumor necrosis factor inhibition

Tumor necrosis factor (TNF) consists of an inflammatory cytokine essential for homeostasis and organism defense. Despite its physiological relevance, both increased biosynthesis and release of TNF lead to the exacerbation of inflammatory and oxidative responses, which are related to the pathogenesis of a host of diseases of an inflammatory, autoimmune and/or infectious nature. In this context, effective therapeutic approaches for the modulation of TNF have been the focus of research efforts. Approximately one million individuals worldwide have been treated with biotechnological inhibitors of this cytokine, the so-called anti-TNF biopharmaceuticals. However, given the high risk of infection and the limitations related to cost and administration routes, new therapeutic approaches aimed at biological targets that directly or indirectly modulate the production and/or activation of TNF appear promising alternatives for the discovery of new anti-inflammatory and immunomodulatory orally active drugs and are therefore discussed in this paper.

O fator de necrose tumoral (do inglês, tumor necrosis factor - TNF) consiste em uma citocina inflamatória essencial para a homeostase e defesa do organismo. A despeito de sua relevância fisiológica, o aumento da biossíntese e liberação do TNF conduzem à exacerbação das respostas inflamatória e oxidativa, as quais estão relacionadas à patogênese de várias doenças de natureza inflamatória, auto-imune e/ou infecciosa. A busca por abordagens terapêuticas eficientes na modulação do TNF tem sido alvo de diversos esforços de pesquisa. Aproximadamente um milhão de pessoas ao redor do mundo já foi tratado com inibidores biotecnológicos desta citocina, os chamados biofármacos anti-TNF. Entretanto, em face ao elevado risco de infecções e as limitações relacionadas ao custo e a via de administração, novas abordagens terapêuticas com foco em alvos que modulem, de forma direta ou indireta, a produção e/ou ativação do TNF surgem como alternativas promissoras para a descoberta de novos fármacos antiinflamatórios e imunomoduladores ativos por via oral e serão discutidas neste trabalho.