Does Cleome droserifolia have anti-schistosomiasis mansoni activity? / Cleome droserifolia tem atividade anti-esquistossomose mansônica?

The present study was undertaken to assess the effect of the crude extract of Cleome droserifolia (CD) leaves on experimentally infected mice with Schistosoma mansoni. Two groups of mice, showing a patent infection of S. mansoni, one of them was daily treated with an alcoholic extract of CD leaves (0.31 g kg-1 body weight, i.p.) for 21 days. The schistosomicidal activity of the CD extract was evaluated, three weeks post-treatment, on some parasitological and histopathological aspects including worm load, oogram pattern, faecal eggs releasing and granuloma formation. In addition, serum thyroid hormones levels (tri-iodothyronine; T3 and tetra-iodo-thyronin; T4), serum total protein contents and hepatic reduced glutathione (GSH) were evaluated. Treatment using CD extract resulted in a weak reduction in worm burden (32.46 percent) and affected the viability of both mature and immature eggs as indicated by the increase in the percentage of dead eggs and the decrease in the percentage of live ones. In addition, a week post-treatment, eggs elimination was observed in the stool of the infected-treated group which was low compared to the infected group. There was a suppressive effect of the extract on granuloma formation that could be due to the antioxidant effect of the extract. These data are confirmed by increasing hepatic GSH, serum total proteins and thyroid hormone levels in the infected-treated group as compared to the infected group. Treatment significantly enhanced b globulin fractions of the protein. Based on these assumptions, CD extract has beneficial effects on thyroid hormones status and anti-schistosomiasis activity. The beneficial effects of CD extract could be related to its direct effects on the parasite, and secondary to its effect on the antioxidant capacity of the host. The present study could emphasize the precise mechanism (s) of CD extract protection.

O presente estudo foi realizado para verificar o efeito do extrato cru de folhas de Cleome droserifolia (CD) em camundongos experimentalmente infectados com Schistosoma mansoni. Em dois grupos de camundongos mostrando infecção patente por S. mansoni, um deles foi tratado diariamente com extrato alcoólico de folhas de CD (0.31g kg-1 por peso corporal, i.p.) por 21 dias. A atividade esquistossomicida do extrato de CD foi avaliada, três semanas após o tratamento, em alguns aspectos parasitológicos e histopatológicos incluindo carga parasitária, padrão de oograma, eliminação fecal de ovos e formação de granuloma. Além disto, níveis séricos de hormônio tireoideano (tri-iodotironina: T3 e tetra-iodotironina: T4), conteúdo sérico total de proteínas e glutatione hepático reduzido (GSH) foram avaliados. Tratamento usando extrato de CD resultou em fraca redução da carga de vermes (32,46 por cento) e afetou a viabilidade de ovos maduros ou não, como indicado pelo aumento na porcentagem de ovos mortos e o descrécimo na porcentagem de ovos viáveis. Além disso, uma semana após o tratamento, a eliminação de ovos foi observada nas fezes do grupo infectado-tratado que foi baixa comparada ao grupo infectado. Houve efeito supressivo do extrato sobre a formação de granuloma que poderia ser devido ao efeito antioxidante do extrato. Estes dados são confirmados pelo aumento do GSH hepático, soro total de proteínas e níveis dos hormônios tireoideanos no grupo infecto-tratado quando comparado com o grupo infectado. O tratamento aumentou significativamente as frações beta-globulina da proteína. Baseado nestas afirmativas o extrato de CD tem efeitos benéficos sobre o nível dos hormônios tireoideanos e da atividade anti-esquistossomica. Os efeitos benéficos do extrato de CD poderiam estar relacionados com seu efeito direto sobre o parasita, e secundariamente por seus efeitos na capacidade anti-oxidante do hospedeiro. O presente trabalho poderia enfatizar o(s) mecanismo(s) preciso(s) desta proteção do extrato de CD.

Effect of enterotoxin on glutathione status in the intestinal mucosa.

The effect of luminal exposure of enterotoxins on the intestinal mucosal glutathione (GSH) was studied in rat. Cholera toxin induced fluid secretion and decreased mucosal GSH by 35% without altering oxidized glutathione (GSSG) level. Toxin induced fluid secretion was tested after mucosal GSH depletion by compounds such as diethyl maleate (DEM) and buthionine sulfoximine (BSO) and thiol supplementation with N-Acetyl cysteine (NAC). Fluid secretion was not altered by prior thiol depletion or supplementation. Exposure of intestinal lumen to bacterial endotoxin resulted in 25% decrease in mucosal GSH with two fold increase in GSSG. Luminal exposure of Shiga toxin did not alter the mucosal thiol. The level of other low molecular weight thiols, cysteine and cystine was not altered by luminal exposure of any of these toxins. These results show that although cholera toxin decreased the mucosal GSH level, prior modulation of thiol status of the mucosa may not have any effect on toxin-induced fluid secretion.

Oxalate binding to rat kidney mitochondria: induction by oxidized glutathione.

Increased oxalate binding with negative correlation with reduced glutathione content was observed during lipid peroxidation in rat kidney mitochondria. In presence of oxidized glutathione (GSSG), peroxidized mitochondria lost 48% of protein-SH with concomitant 3-fold increase in oxalate binding activity while control mitochondria lost only 20% protein-SH with only 0.8 fold increase in oxalate binding activity. The GSSG-induced oxalate binding was apparently due to two-fold increased affinity of oxalate to the protein. Reduced glutathione (GSH) inhibited oxalate binding competitively with Ki, 1.4 x 10(-3) M. Urolithic rat kidney mitochondria showed 30-50% increase in oxalate binding activity along with depletion of GSH and protein-SH. These studies suggest that oxalate binding is regulated by thiol status of mitochondria.