2000
Nitric oxide (NO·) stabilizes whereas nitrosonium (NO+) enhances filopodial outgrowth by rat retinal ganglion cells in vitro
Cheung S, Bhan I, Lipton S. Nitric oxide (NO·) stabilizes whereas nitrosonium (NO+) enhances filopodial outgrowth by rat retinal ganglion cells in vitro. Brain Research 2000, 868: 1-13. PMID: 10841882, DOI: 10.1016/s0006-8993(00)02161-2.Peer-Reviewed Original ResearchConceptsRat retinal ganglion cellsRetinal ganglion cellsGanglion cellsNitric oxideInhibition of NOSNO synthase substrateGrowth-associated proteinFilopodial outgrowthNOS activityGuanylate cyclaseGrowth cone motilityCyclic nucleotide analogsDistinct actionsSynthase substrateCone motilityNOSS-nitrosylationNucleotide analoguesOutgrowth
1999
Attenuation of NMDA Receptor Activity and Neurotoxicity by Nitroxyl Anion, NO−
Kim W, Choi Y, Rayudu P, Das P, Asaad W, Arnelle D, Stamler J, Lipton S. Attenuation of NMDA Receptor Activity and Neurotoxicity by Nitroxyl Anion, NO−. Neuron 1999, 24: 461-469. PMID: 10571239, DOI: 10.1016/s0896-6273(00)80859-4.Peer-Reviewed Original Research
1998
Neuroprotective versus neurodestructive effects of NO‐related species
Lipton S, Choi Y, Sucher N, Chen H. Neuroprotective versus neurodestructive effects of NO‐related species. BioFactors 1998, 8: 33-40. PMID: 9699006, DOI: 10.1002/biof.5520080107.Peer-Reviewed Original ResearchConceptsNMDA receptorsCentral nervous systemNMDA receptor subunitsNeuronal injuryNeurodestructive effectsNervous systemRedox modulationReceptor subunitsNitric oxideExcessive Ca2Protective actionChannel activitySuperoxide anionNO groupReceptorsS-nitrosylationGroupDiverse tissuesNeuroprotectionInjuryBrain