2020
Protective Effect of Hemin Against Experimental Chronic Fatigue Syndrome in Mice: Possible Role of Neurotransmitters
Thakur V, Jamwal S, Kumar M, Rahi V, Kumar P. Protective Effect of Hemin Against Experimental Chronic Fatigue Syndrome in Mice: Possible Role of Neurotransmitters. Neurotoxicity Research 2020, 38: 359-369. PMID: 32506340, DOI: 10.1007/s12640-020-00231-y.Peer-Reviewed Original ResearchMeSH Keywords3,4-Dihydroxyphenylacetic AcidAnimalsAnxietyBehavior, AnimalBrainDisease Models, AnimalDopamineElectron Transport Complex IElectron Transport Complex IIElevated Plus Maze TestEnzyme InhibitorsFatigue Syndrome, ChronicGlutathioneHand StrengthHeme Oxygenase-1HeminHomovanillic AcidHydroxyindoleacetic AcidLipid PeroxidationLocomotionMetalloporphyrinsMiceMitochondriaNeurotransmitter AgentsNitritesNorepinephrineProtoporphyrinsSerotoninConceptsChronic fatigue syndromeMitochondrial complex dysfunctionFatigue syndromeProtective effectComplex dysfunctionMale albino miceAnxiety-like behaviorFatigue-like behaviorAntifatigue effectNeurotransmitter alterationsCommon symptomsPresent studyNeurotransmitter levelsSwimming testAlbino miceExperimental miceImmobility periodEnzyme inhibitorsProtective roleCognitive impairmentLocomotor activityBehavioral testsSwimming sessionBiochemical parametersBiochemical alterations
2019
P2‐164: NEUROPROTECTIVE MECHANISM OF SPERMIDINE ALONE AND IN COMBINATION WITH NITRIC OXIDE PATHWAY MODULATORS AGAINST 3‐NP‐INDUCED BEHAVIORAL, BIOCHEMICAL AND NEUROTRANSMITTER ALTERATIONS IN RAT STRIATUM
Jamwal S. P2‐164: NEUROPROTECTIVE MECHANISM OF SPERMIDINE ALONE AND IN COMBINATION WITH NITRIC OXIDE PATHWAY MODULATORS AGAINST 3‐NP‐INDUCED BEHAVIORAL, BIOCHEMICAL AND NEUROTRANSMITTER ALTERATIONS IN RAT STRIATUM. Alzheimer's & Dementia 2019, 15: p638-p638. DOI: 10.1016/j.jalz.2019.06.2571.Peer-Reviewed Original ResearchInsight Into the Emerging Role of Striatal Neurotransmitters in the Pathophysiology of Parkinson’s Disease and Huntington’s Disease: A Review
Jamwal S, Kumar P. Insight Into the Emerging Role of Striatal Neurotransmitters in the Pathophysiology of Parkinson’s Disease and Huntington’s Disease: A Review. Current Neuropharmacology 2019, 17: 165-175. PMID: 29512464, PMCID: PMC6343208, DOI: 10.2174/1570159x16666180302115032.Peer-Reviewed Original ResearchConceptsParkinson's diseaseHuntington's diseaseStriatal neurotransmittersNeuronal deathNeurotransmitter levelsAltered neurotransmitters levelBasal ganglia regionsExcitotoxic neuronal deathNeurotransmitter alterationsBrain dopaminePathophysiological basisBasal gangliaGanglia regionsMovement disordersPreclinical studiesReceptor densitySpecific drugsCoordinated body movementsDiseaseNeurotransmittersAltered levelsOxidative stressExact mechanismMitochondrial dysfunctionImportant neurotransmitter
2017
L-theanine prevent quinolinic acid induced motor deficit and striatal neurotoxicity: Reduction in oxido-nitrosative stress and restoration of striatal neurotransmitters level
Jamwal S, Singh S, Gill JS, Kumar P. L-theanine prevent quinolinic acid induced motor deficit and striatal neurotoxicity: Reduction in oxido-nitrosative stress and restoration of striatal neurotransmitters level. European Journal Of Pharmacology 2017, 811: 171-179. PMID: 28624333, DOI: 10.1016/j.ejphar.2017.06.016.Peer-Reviewed Original ResearchConceptsStriatal neurotransmitter levelsOxido-nitrosative stressNeurotransmitter levelsProtective effectL-NAMEMotor deficitsQuinolinic acidL-arginineL-theanineNitric oxide synthase inhibitorPro-inflammatory cytokinesNitric oxide pathwayOxide synthase inhibitorOpen field testL-theanine treatmentRota-rodBeam walkingNeuro-inflammationNeurotransmitter alterationsNeuroprotective potentialStriatal neurotoxicityOxide pathwayQA injectionGrip strengthMotor coordination
2016
L-theanine, a Component of Green Tea Prevents 3-Nitropropionic Acid (3-NP)-Induced Striatal Toxicity by Modulating Nitric Oxide Pathway
Jamwal S, Kumar P. L-theanine, a Component of Green Tea Prevents 3-Nitropropionic Acid (3-NP)-Induced Striatal Toxicity by Modulating Nitric Oxide Pathway. Molecular Neurobiology 2016, 54: 2327-2337. PMID: 26957301, DOI: 10.1007/s12035-016-9822-5.Peer-Reviewed Original ResearchConceptsHuntington's diseaseStriatal toxicityL-NAMENeuroprotective potentialConcurrent treatmentProtective effectBody weightL-arginineL-theanineGABAergic medium spiny neuronsGreen tea preventsStriatal neurotransmitter levelsPro-inflammatory mediatorsPro-inflammatory cytokinesNitric oxide pathwayBlood-brain barrierMedium spiny neuronsNitric oxide productionL-theanine treatmentNeurotransmitter alterationsOxide pathwayBrain barrierSpiny neuronsNeurotransmitter levelsRat striatum
2015
Protective Effect of Spermidine Against Excitotoxic Neuronal Death Induced by Quinolinic Acid in Rats: Possible Neurotransmitters and Neuroinflammatory Mechanism
Jamwal S, Singh S, Kaur N, Kumar P. Protective Effect of Spermidine Against Excitotoxic Neuronal Death Induced by Quinolinic Acid in Rats: Possible Neurotransmitters and Neuroinflammatory Mechanism. Neurotoxicity Research 2015, 28: 171-184. PMID: 26078029, DOI: 10.1007/s12640-015-9535-y.Peer-Reviewed Original ResearchConceptsQuinolinic acidBody weightQA treatmentGABAergic medium spiny neuronsN-methyl-D-aspartate receptorsOxidative stressGABAergic neuronal lossPro-inflammatory levelsHyperkinetic movement disordersExcitotoxic cell deathAnti-inflammatory propertiesExcitotoxic neuronal deathMedium spiny neuronsReceptor antagonistic propertiesNeuroinflammatory mechanismsPossible neurotransmittersNeuroinflammatory markersNeuronal lossNeuroprotective effectsNeurotransmitter alterationsCatecholamine levelsCascade of eventsNeuronal deathSpiny neuronsMovement disorders