Abstract
The role of pro/antioxidative processes during a low, subtoxic dose schedule of diazepam (3 mg/kg/day i.p.) for 7 days and its withdrawal in subcellular preparations of rat brain regions was studied in detail. The results indicated heterogeneity in the regional responses as well as in subcellular compartments. After 7 days of exposure to the drug, a decrease in the Mn-SOD activity was observed in the 3 regions studied while a significant increase in Cu/Zn-SOD activity was seen in cerebellum (CBL) and brain stem (BS) along with that of mitochondrial glutathione reductase. The post-mitochondrial fraction (PMF) showed a significant increase in GR activity in cerebrum. Enhancement of total and free thiol levels was observed in cerebrum and cerebellum whereas in BS free thiols were not enhanced. It was interesting to note that in the animals withdrawn from the drug and sacrificed after an interval of 7 days, the level of TBARS showed a highly significant increase in mitochondria of CB and CBL and 89% increase in BS. Similar trend was observed in the post-mitochondrial fractions of all the 3 regions whereas the activity of isozymes of SOD decreased (p < 0.001) in CBL and BS and to a lesser extent in CB. The GR activity was significantly decreased only in the mitochondria of cerebrum with a 34% rise in cerebellum and no change in BS. The PMFs showed a decrease in CB and CBL but a 20% rise in BS. Thus, the data show modulation of antioxidant responses during short-term administration of diazepam, and a lowering of peroxidative decomposition of polyunsaturated fatty acids of membranes. However, after withdrawal of the drug, PUFAs were found to be more vulnerable to peroxidative decomposition and changes in the antioxidant defenses were also observed, which did not come back to normal level during the study.
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