Your search keyword '"Mishra, Jitendriya"' showing total 3 results

1. Hesperidin potentiates the neuroprotective effects of diazepam and gabapentin against pentylenetetrazole-induced convulsions in mice: Possible behavioral, biochemical and mitochondrial alterations.

Author

Kumar A, Lalitha S, and Mishra J

Subjects

Amines pharmacology, Animals, Anticonvulsants pharmacology, Behavior, Animal drug effects, Catalase metabolism, Cyclohexanecarboxylic Acids pharmacology, Diazepam pharmacology, Drug Synergism, Electron Transport Complex IV metabolism, Gabapentin, Glutathione metabolism, Hesperidin pharmacology, Male, Mice, Mitochondria drug effects, Mitochondria enzymology, NADH Dehydrogenase metabolism, Neuroprotective Agents pharmacology, Pentylenetetrazole, Rats, Seizures chemically induced, Seizures metabolism, Succinate Dehydrogenase metabolism, Superoxide Dismutase metabolism, gamma-Aminobutyric Acid pharmacology, Amines therapeutic use, Anticonvulsants therapeutic use, Cyclohexanecarboxylic Acids therapeutic use, Diazepam therapeutic use, Hesperidin therapeutic use, Neuroprotective Agents therapeutic use, Seizures drug therapy, gamma-Aminobutyric Acid therapeutic use

Abstract

Aim: Epilepsy is a chronic neurological disorder with complex pathophysiology. Several evidences suggest a role of oxidative stress and mitochondrial dysfunction in pathophysiology of epilepsy. Hesperidin (Hesp) acts as a powerful anti-oxidant agent against superoxide, singlet oxygen, and hydroxyl radicals. Thus, this study was undertaken to evaluate the possible neuroprotective mechanism of Hesp against pentylenetetrazole (PTZ)-induced convulsions in mice., Materials and Methods: Sixty males Laca mice (20-25 g) were randomly divided into 10 treatment groups (n = 6). Seven days pretreatment of Hesp (100, 200 mg/kg, p.o.) was carried out before PTZ (80 mg/kg, intraperitoneal [i.p.]) challenge, whereas diazepam (DZP) (0.2, 0.5 mg/kg) and gabapentin (Gbp) (10, 20 mg/kg) were administered i.p. 30 min before PTZ administration, that is, on 7(th) day. Following PTZ challenge, severity of convulsions (onset of jerks, myoclonic seizures, extensor phase and death), brain anti-oxidant enzyme levels and mitochondrial complex enzymes activities were estimated., Results: Single i.p. PTZ (80 mg/kg) challenge demonstrated severe convulsions, oxidative damage (raised lipid peroxidation [LPO], nitrite concentration as well as depleted reduced glutathione, superoxide dismutase and catalase levels), and depletion of mitochondrial enzyme Complex (I, II, IV) activities. Hesp (200 mg/kg), DZP (0.5 mg/kg) and Gbp (20 mg/kg) pretreatments attenuated PTZ induced behavioral, biochemical and mitochondrial alterations. However, administration of Hesp (100 mg/kg) in combination with DZP (0.2 mg/kg) or Gbp (10 mg/kg) potentiated their neuroprotective effect, which was significant as compared to their effects in PTZ treated animals., Conclusion: Hesp possesses potent anticonvulsant activity which might be mediated through modulation of gamma-amino butyric acid/benzodiazepine receptor action.

Published

2014

2. Minocycline modulates neuroprotective effect of hesperidin against quinolinic acid induced Huntington's disease like symptoms in rats: behavioral, biochemical, cellular and histological evidences.

Author

Kumar A, Chaudhary T, and Mishra J

Subjects

Animals, Behavior, Animal drug effects, Brain drug effects, Brain metabolism, Caspase 3 metabolism, Disease Models, Animal, Drug Synergism, Electron Transport Complex IV metabolism, Glutathione metabolism, Hesperidin therapeutic use, Huntington Disease chemically induced, Huntington Disease metabolism, Huntington Disease physiopathology, Male, Maze Learning drug effects, Minocycline therapeutic use, Motor Activity drug effects, Neuroprotective Agents therapeutic use, Nitrites metabolism, Quinolinic Acid, Quinone Reductases metabolism, Rats, Rats, Wistar, Succinate Dehydrogenase metabolism, Superoxide Dismutase metabolism, Tumor Necrosis Factor-alpha metabolism, Hesperidin pharmacology, Huntington Disease drug therapy, Minocycline pharmacology, Neuroprotective Agents pharmacology

Abstract

Emerging evidences indicate hesperidin, a citrus flavanone, attenuates neurodegenerative processes and related complications. Besides its anti-oxidant properties, the other probable mechanisms which underpin its neuroprotective potential are still not clear. In light of emerging role of flavonoids in modulating oxidative stress and neuro-inflammation, the study has been designed to explore the possible neuroprotective effect of hesperidin and its combination with minocycline (microglial inhibitor), against quinolinic acid (QA) induced Huntington's disease (HD) like symptoms in rats. Unilateral intrastriatal administration of QA (300 nmol/4 µl) significantly reduced body weight, impaired behavior (locomotor activity, beam balance and memory performance), caused oxidative damage (increased lipid peroxidation, nitrite concentration, depleted super oxide dismutase and reduced glutathione), demonstrated mitochondrial dysfunction (decreased Complex-I, II, III, and IV activities), increased striatal lesion volume and altered the levels of TNF-α, caspase-3 as well as BDNF expression, as compared to sham group. Meanwhile, chronic hesperidin (100mg/kg, p.o.) and minocycline (25mg/kg, p.o.) treatment for 21 days significantly attenuated the behavioral, biochemical and cellular alterations as compared to QA treated (control) animals, whereas hesperidin (50mg/kg, p.o.) treatment was found to be non-significant. However, treatment of hesperidin (50mg/kg) in combination with minocycline (25mg/kg) potentiated their neuroprotective effect, which was significant as compared to their effects per se in QA treated animals. Taken altogether, the results of the present study suggest a possible interplay of microglial modulation and anti-oxidant effect in neuroprotective potential of hesperidin against QA induced HD like symptoms in rats., (© 2013 Published by Elsevier B.V.)

Published

2013

3. Possible nitric oxide mechanism in the protective effect of hesperidin against pentylenetetrazole (PTZ)-induced kindling and associated cognitive dysfunction in mice.

Author

Kumar A, Lalitha S, and Mishra J

Subjects

Animals, Avoidance Learning drug effects, Brain drug effects, Brain metabolism, Cognition Disorders etiology, Convulsants toxicity, Disease Models, Animal, Dose-Response Relationship, Drug, Drug Interactions, Enzyme Inhibitors administration & dosage, Enzyme Inhibitors pharmacology, Epilepsy, Generalized chemically induced, Epilepsy, Generalized complications, Lipid Peroxidation drug effects, Male, Maze Learning drug effects, Mice, Pentylenetetrazole toxicity, Reinforcement, Psychology, Time Factors, Cognition Disorders drug therapy, Epilepsy, Generalized drug therapy, Hesperidin pharmacology, Hesperidin therapeutic use, Kindling, Neurologic drug effects, Nitric Oxide metabolism

Abstract

Epilepsy is a complex neurological disorder manifested by recurrent episodes of convulsive seizures, loss of consciousness, and sensory disturbances. Pentylenetetrazole (PTZ)-induced kindling primarily represents a model of generalized epilepsy. The present study has been undertaken to evaluate the neuroprotective potential of hesperidin and its interaction with nitric oxide modulators against PTZ-induced kindling and associated cognitive dysfunction in mice. The experimental protocol comprised of eleven groups (n=6), where a subconvulsive dose of PTZ (40 mg/kg, i.p.) had been administered every other day for a period of 12 days, and seizure episodes were noted after each PTZ injection over a period of 30 min. The memory performance tests were carried out on days 13 and 14 followed by the estimation of biochemical and mitochondrial parameters. Chronic administration of a subconvulsive dose of PTZ resulted in an increase in convulsive activity culminating in generalized clonic-tonic seizures, as revealed by a progressive increase in seizure score as well as alteration in antioxidant enzyme levels (lipid peroxidation, nitrite, glutathione, super oxide dismutase, and catalase) and mitochondrial complex (I, II, and IV) activities, whereas chronic treatment with hesperidin (200 mg/kg) significantly attenuated these behavioral, biochemical, and mitochondrial alterations. Further, treatment with l-arginine (100 mg/kg) or l-NAME (10 mg/kg) in combination with hesperidin significantly modulated the protective effect of hesperidin which was significant as compared to their effects per se in PTZ-treated animals. Thus, the present study suggests a possible involvement of the NO-cGMP pathway in the neuroprotective effect of hesperidin in PTZ-kindled mice., (© 2013.)

Published

2013