M. Mohd. Ali

Neuroprotective effect of Acorus calamus against middle cerebral artery occlusion-induced ischaemia in rat.

The neuroprotective potential of ethanol:water (1:1) extract of rhizomes of Acorus calamus (AC–002) has been investigated in middle cerebral artery occlusion (MCAO)–induced ischaemia in rats. A significant behavioural impairment in Rota–Rod performance and grid walking was observed in rats, 72 hours after MCAO as compared to sham–operated animals. These rats also exhibited an increase in lipid peroxidation (cortex / 157%, corpus striatum – 58%) and a decrease in glutathione levels (cortex – 59%, corpus striatum – 34%) and superoxide dismutase (SOD) activity (cortex – 64%, corpus striatum – 32%) as compared to sham–operated animals. Ischaemic rats treated with AC–002 (25 mg/kg, p.o.) exhibited a significant improvement in neurobehavioural performance viz. Rota–Rod performance and grid walking as compared to the MCAO group. Interestingly, treatment with AC–002 in MCAO rats significantly decreased malonaldialdehyde levels in cortex as compared to ischaemic rats. A significant increase in reduced glutathione levels and SOD activity was also observed both in cortex and corpus striatum in MCAO rats treated with AC–002 in comparison to MCAO rats. Treatment with AC–002 in MCAO rats also reduced the contralateral cortical infarct area (19%) as compared to MCAO rats (33%). Neurological function score was improved in the AC–002–treated rats as compared to the MCAO group. The results of the present study indicate the neuroprotective efficacy of A. calamus in the rat model of ischaemia.

Locomotor and learning deficits in adult rats exposed to monosodium-L-glutamate during early life.

Neonatal administration of neurotoxic doses of monosodium-L-glutamate (MSG) to rats causes neuronal necrosis of the hypothalamus along with behavioral abnormalities. In the present study the behavioral effects in rats treated with subneurotoxic doses of MSG (2 mg/g, p.o., for 10 days) at the weaned stage were investigated at day 90 post-dosing. The MSG-treated rats did not show significant changes in any of the components of spontaneous locomotor activity but, after apomorphine challenge, marked decreases in the distance travelled, ambulatory and stereotypic times, and the number of stereotypic movements with an increase in the resting time were observed. Significant decrease in the active avoidance learning performance was observed in the MSG-treated rats in the learning (acquisition) phase without any changes in the extinction and relearning phases. The results indicate that exposure to MSG in early life in rats could lead to subtle behavioral aberrations in late adulthood.

Behavioral and neurochemical changes in rats simultaneously exposed to manganese and lead

Groups of rats were exposed simultaneously to manganese chloride (3 mg Mn2+/ml water) through drinking water and lead acetate intraperitoneally at dosages of 5.0, 8.0 and 12.0 mg Pb2+/kg daily for a period of 14 days. The magnitude of changes in the behavioral pattern, contents of biogenic amines and accumulation of lead in the brain of rats simultaneously exposed to the two metals was significantly greater than observed in rats after exposure to either of the metals alone. A definite dose-response relationship was, however, noticed only with the changes in the motoractivity, norepinephrine, 5-hydroxytryptamine levels and in the accumulation of lead in rats simultaneously exposed to manganese and lead. The lowering in the contents of norepinephrine after combined treatment was found to be related with the decrease in the motoractivity in the rats. The exact role of depression in the levels of dopamine and 5-hydroxytryptamine in inducing marked impairment in learning ability and increased aggressive behavior in rats after the combined exposure to manganese and lead could not be ascertained. The overall analysis of the data indicated that the simultaneous exposure to manganese and lead, particularly with highest dose of the latter, may produce serious derangements in the behavioral pattern and levels of biogenic amines in the brain of rats.

Effect of pretreatment of cytochrome P450 (P450) modifiers on neurobehavioral toxicity induced by deltamethrin.

To investigate the involvement of cytochrome P450 (P450) enzyme induction and the effect of different P450 modifiers in the neurobehavioral toxicity of deltamethrin, deltamethrin (10 mg/kg; orally for 1 day) was administered to young male albino Wistar rats, or in rats pretreated with phenobarbital (PB; 80 mg/kg, ip for 5 days), an inducer of P450 2B1/2B2 or 3-methylcholanthrene (MC; 30 mg/kg, ip for 5 days), an inducer of P450 1A1/1A2 or cobalt chloride (CoCl(2); sc for 2 days), a depletor of P450s. The administration of PB or MC or CoCl(2) alone did not produced any symptoms of neurobehavioral toxicity. While a single oral administration of deltamethrin produced tremors in two out of 10 rats and decreased the spontaneous locomotor activity, pretreatment with MC or PB potentiated the deltamethrin induced neurobehavioral toxicity with 50% of the treated rats exhibiting tremors. Half of the animals pretreated with MC prior to exposure to deltamethrin also exhibited choreoathetosis. The decrease in the spontaneous locomotor activity was found to be much more significant in PB- or MC-pretreated animals exposed to deltamethrin. In contrast to the pretreatment with inducers, rats pretreated with CoCl(2) exhibited no symptoms of tremors or choreoathetosis, indicating that a reactive metabolite of deltamethrin is formed by P450 catalysed reactions which is involved in the neurobehavioral toxicity of deltamethrin.

Induction of rat brain cytochrome P450s (P450s) by deltamethrin: Regional specificity and correlation with neurobehavioral toxicity

Oral administration of 5 mg/kg body weight of deltamethrin, an a-cyano type II pyrethroid insecticide once a day for 1, 7, 15 and 21 consecutive days to young Druckerey rats (6–8 weeks old) produced a time dependent increase in the activity of cytochrome P450 (P450) dependent 7-ethoxyresorufin-O-deethylase (EROD) and 7-pentoxyresorufin-O-dealkylase (PROD) in rat brain microsomes. A significant induction was observed on prolonged exposure of deltamethrin for 15 or 21 days. The induction in the activity of cerebral P450 enzymes was associated with the time dependent increase in the spontaneous locomotor activity indicating accumulation of deltamethrin or its metabolites in brain with the increase in the duration of exposure. Administration of deltamethrin (5 mg/kg) for 21 days produced region specific changes in the dealkylation of ethoxyresorufin and pentoxyresorufin in rat brain with significant induction occurring in the activity of P450 1A1/2 dependent EROD in cerebellum, hippocampus, hypothalamus and medulla-pons and that of P450 2B1/2 mediated PROD in hippocampus, hypothalamus, corpus striatum and mid brain. The data suggests that the differences in the induction of individual P450 isoenzymes in diverse brain regions could play a role in regulating the response of brain to pyrethroid insecticides by modulating their concentrationper se or their active metabolites at the target site(s).

Effect of manganese and copper interaction on behavior and biogenic amines in rats fed a 10% casein diet.

Manganese chloride (1 mg manganese/ml drinking water) and copper sulphate (250 mg copper/kg diet) were administered daily for 30 days to growing rats maintained on a 10% casein diet. Manganese in combination with copper produced impairment in the learning ability and memory of rats in either dietary group, with greater alterations in those receiving a 10% casein diet. Hyperactivation due to the combined effects of the metal ions was identical in both dietary groups. The behavioral aberrations were associated with a marked accumulation of Cu in the brain of rats receiving the 10% casein diet. Combined exposure of Mn and Cu also produced a greater elevation in the levels of dopamine (DA) and norepinephrine (NE) and a depression of 5-hydroxytryptamine (5-HT) in the brain of animals fed with a 10% casein diet compared to the animals receiving the 21% casein diet. Thus the animals receiving the 10% casein diet appear to be more vulnerable to the neurotoxic effects of a combined exposure to manganese and copper. However rats maintained on the 21% casein diet and receiving both manganese and copper showed almost identical changes to those observed after manganese administration alone.

Lactate dehydrogenase and glutamate dehydrogenase activities in the circumventricular organs of rat brain following neonatal monosodium glutamate

Glutamate (glu) an excitatory neurotransmitter amino acid, is present in high concentrations in the mammalian central nervous system and is the most abundant amino acid in our daily diet. In the present study the activities of lactate dehydrogenase (LDH) and glutamate dehydrogenase (GDH) were evaluated in the circumventricular organs (CVO) of the brain in 25-day-old rats following MSG administration at a dose of 4 mg/g b.wt during the first ten days of life. The results show the LDH activity increased to 265% of that in the control (p<0.001), whereas GDH activity was significantly decreased (p<0.05), The great elevation in LDH, a cytoplasmic marker enzyme, is apparently due to cytoskeletal changes brought about as a consequence of glu toxicity, whereas lowered GDH activity indicates altered glu homostasis in the blood-brain-barrier deficient areas following neonatal exposure to glu.