2024
Native-state proteomics of Parvalbumin interneurons identifies unique molecular signatures and vulnerabilities to early Alzheimer’s pathology
Kumar P, Goettemoeller A, Espinosa-Garcia C, Tobin B, Tfaily A, Nelson R, Natu A, Dammer E, Santiago J, Malepati S, Cheng L, Xiao H, Duong D, Seyfried N, Wood L, Rowan M, Rangaraju S. Native-state proteomics of Parvalbumin interneurons identifies unique molecular signatures and vulnerabilities to early Alzheimer’s pathology. Nature Communications 2024, 15: 2823. PMID: 38561349, PMCID: PMC10985119, DOI: 10.1038/s41467-024-47028-7.Peer-Reviewed Original ResearchConceptsBiotinylation of proteinsAlzheimer's diseasePre-synaptic defectsDecreased mTOR signalingAD pathogenesisAD riskCytoskeletal disruptionProteomic alterationsTranslational activityMolecular insightsMTOR signalingProteomic findingsProteomicsProteomic signatureMolecular signaturesProteinOver-representedProgressive neuropathologyAlzheimer pathologyMouse modelPV-INsParvalbumin interneuronsMitochondriaAssociated with cognitive declineFast-spiking parvalbumin interneurons
2023
Age‐Dependent Changes in Perineuronal Nets and Associated Parvalbumin Interneurons in the 5xFAD Amyloidosis Mouse Model
Nelson R, Rangaraju S, Rayaprolu S, Kumar P, Espinosa‐Garcia C, Xiao H. Age‐Dependent Changes in Perineuronal Nets and Associated Parvalbumin Interneurons in the 5xFAD Amyloidosis Mouse Model. Alzheimer's & Dementia 2023, 19 DOI: 10.1002/alz.083101.Peer-Reviewed Original ResearchPV+ neuronsWild typePerineuronal netsAlzheimer's diseaseAD-like pathologyCo-localizationMouse modelAmyloid-betaFast-spiking interneuronsEarly amyloidosisRegulate synaptic transmissionSynaptic maintenanceExtracellular matrix structurePlaque proximityAge-dependent mannerMonths of agePhysiological roleImmunofluorescence microscopyNeuronal roleNeurodegenerative diseasesParvalbumin-positiveParvalbumin interneuronsAge-dependent changesSynaptic transmissionProximal dendrites