TCA cycle metabolic compromise due to an aberrant S-nitrosoproteome in HIV-associated neurocognitive disorder with methamphetamine use
Doulias P, Nakamura T, Scott H, McKercher S, Sultan A, Deal A, Albertolle M, Ischiropoulos H, Lipton S. TCA cycle metabolic compromise due to an aberrant S-nitrosoproteome in HIV-associated neurocognitive disorder with methamphetamine use. Journal Of NeuroVirology 2021, 27: 367-378. PMID: 33876414, PMCID: PMC8477648, DOI: 10.1007/s13365-021-00970-4.Peer-Reviewed Original ResearchConceptsNeurocognitive disordersMeth usePathogenesis of HIVHuman postmortem brainAberrant protein S-nitrosylationCNS pathologyControl brainsSynaptic damageS-nitrosylationHIV-1Metabolic compromisePostmortem brainsMethamphetamine useNitric oxideDrug abuseRedox stressNitrosative stressBrainHIVProtein S-nitrosylationDisordersS-nitrosoproteomeSystematic inhibitionTCA cycle enzymesPathogenesis