Aberrant protein S-nitrosylation contributes to hyperexcitability-induced synaptic damage in Alzheimer’s disease: Mechanistic insights and potential therapies
Ghatak S, Nakamura T, Lipton S. Aberrant protein S-nitrosylation contributes to hyperexcitability-induced synaptic damage in Alzheimer’s disease: Mechanistic insights and potential therapies. Frontiers In Neural Circuits 2023, 17: 1099467. PMID: 36817649, PMCID: PMC9932935, DOI: 10.3389/fncir.2023.1099467.Peer-Reviewed Original ResearchConceptsAlzheimer's diseaseSynaptic damageReactive oxygen speciesS-nitrosylation contributesNeuronal hyperactivitySynaptic lossSynapse lossSynaptic degenerationCommon causePotential therapyAD modelCognitive declineHyperexcitabilityDiseaseSingle neuronsActivity contributesMolecular changesProtein S-nitrosylationDeleterious effectsNeural network functionS-nitrosylationOxygen speciesEarly signaturesPatientsTherapy