Avaliação do potencial citotóxico e genotóxico de Plantago major L. em sistemas teste in vivo / Evaluation of the cytotoxic and genotoxic potential of Plantago major L. in test systems in vivo

A infusão das folhas de Plantago major (Plantaginaceae), conhecida como tansagem ou transagem, é usada como antibiótica, antiinflamatória, anti-séptica, anti-térmica, na prevenção de tumores e no tratamento de neoplasias. Este efeito é atribuído aos flavonóides encontrados em diversas espécies do gênero Plantago. O presente estudo objetivou avaliar os potenciais efeitos, tóxico e mutagênico, do extrato bruto hidroalcoólico de folhas de P. major, por meio dos testes in vivo de Allium cepa e do micronúcleo. Para o ensaio biológico vegetal, meristemas de raízes de A. cepa foram usados para o preparo de lâminas através da técnica de esmagamento. No ensaio do micronúcleo foram analisadas lâminas de células de medula óssea de roedores. As análises estatísticas seguiram o teste de Tukey (p<0,05) para o ensaio de Allium cepa e teste de Scott-Knott (p<0,05) para o ensaio do micronúcleo. Os resultados do teste de Allium cepa demonstram que houve redução significativa no índice de germinação em todas as concentrações testadas. P. major provoca alteração no ciclo celular pela inibição da divisão das células, como indica o índice mitótico. Os índices de efeitos clastogênico e aneugênico demonstram que, além de não determinar aumento de aberrações cromossômicas, o que indica ausência de ação genotóxica, P. major possui atividade anti-genotóxica. Os resultados do teste do micronúcleo reforçam a sugestão de que o extrato de P.major não possui atividade mutagênica, entretanto provoca alterações na divisão celular.

The infusion of leaves of Plantago major (Plantaginaceae), known as "tansagem" or "transagem", is used as antibiotic, anti-inflammatory, anti-septic, anti-thermal in the prevention of tumors and in the treatment of neoplasms. This effect is attributed to the flavonoids found in diverse species of the genus Plantago. The present study aimed to evaluate the potential toxic and mutagenic effects of the crude hydroalcoholic extract from P. major leaves by means of in vivo tests with Allium cepa and micronucleus. For the plant biological assay, meristems of A. cepa roots were used for the preparation of slides by adopting the crushing technique. In the micronucleus assay, slides of bone marrow cells from rodents were analyzed. Statistical analyses were carried out according to Tukey's test (ρ<0.05) for the Allium cepa assay and Scott-Knott test (ρ<0.05) for the micronucleus assay. Results of the A. cepa test demonstrate that there was a significant reduction in the germination index at all tested concentrations. P. major causes alteration in the cell cycle by inhibiting the division of cells, as indicated by the mitotic index. The indexes of clastogenic and aneugenic effects show that, in addition to not determining the increase in chromosomal aberrations, which indicates the absence of genotoxic action, P. major has anti-genotoxic activity. Results of the micronucleus test reinforce the suggestion that P. major extract does not have mutagenic activity but causes alterations in the cell division.

Effect of postnatal methylmalonate administration on adult rat behavior

Methylmalonate (MMA) levels (2.0-2.5 mM) comparable to those of human methylmalonic acidemia were achieved in blood of young rats from the 5th to the 25th day of life by of life by injecting the drug subcutaneously twice a day with an interval of 8h. MMA doses ranged from 0.76 to 1.69 *mol/g body weight as a function of animal age. MMA-treated rats had normal body and brain weights. Behavioral studies using aversive and nonaversive tasks were performaed at 60 days of life. Motor activity was similar in MMA-treated and saline-treated controls. No differences in performance between these groups were identified in the shuttle-avoidance responses and in the inhibitory avoidance tasks. However, MMA-injected rats escaped footshock faster than the controls (1.22 ñ 0.11 vs 1.76 ñ 0.14 (mean ñ SEM) for 24 rats in each group (P<0.01)) suggesting that they may be hyperreactive to this stimulus. In the open field, a nonaversive behavior task, MMA-injected rats, in contrast to control rats, presented no habituation. Our results suggest that MMA by itself may impair central nervous system function, causing minor disabilities which result in specific learning deficiencies