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Biomarkers Related to Synaptic Dysfunction to Discriminate Alzheimer’s Disease from Other Neurological Disorders

Tommaso Piccoli, Valeria Blandino, Laura Maniscalco, Domenica Matranga, Fabiola Graziano, Fabrizio Guajana, Luisa Agnello, Bruna Lo Sasso, Caterina Maria Gambino, Rosaria Vincenza Giglio, Vincenzo La Bella, Marcello Ciaccio, Tiziana Colletti

2022International Journal of Molecular Sciences18 citationsDOIOpen Access PDF

Abstract

Recently, the synaptic proteins neurogranin (Ng) and α-synuclein (α-Syn) have attracted scientific interest as potential biomarkers for synaptic dysfunction in neurodegenerative diseases. In this study, we measured the CSF Ng and α-Syn concentrations in patients affected by AD (n = 69), non-AD neurodegenerative disorders (n-AD = 50) and non-degenerative disorders (n-ND, n = 98). The concentrations of CSF Ng and α-Syn were significantly higher in AD than in n-AD and n-ND. Moreover, the Aβ42/Ng and Aβ42/α-Syn ratios showed statistically significant differences between groups and discriminated AD patients from n-AD patients, better than Ng or α-Syn alone. Regression analyses showed an association of higher Ng concentrations with MMSE < 24, pathological Aβ 42/40 ratios, pTau, tTau and the ApoEε4 genotype. Aβ 42/Ng was associated with MMSE < 24, an AD-related FDG-PET pattern, the ApoEε4 genotype, pathological Aβ 42 levels and Aβ 42/40 ratios, pTau, and tTau. Moreover, APO-Eε4 carriers showed higher Ng concentrations than non-carriers. Our results support the idea that the Aβ 42/Ng ratio is a reliable index of synaptic dysfunction/degeneration able to discriminate AD from other neurological conditions.

Topics & Concepts

NeurograninPathologicalApolipoprotein EInternal medicineBiomarkerNeurodegenerationAlzheimer's diseaseMedicineCerebrospinal fluidEndocrinologyDiseaseGastroenterologyBiologyBiochemistryEnzymeProtein kinase CParkinson's Disease Mechanisms and TreatmentsAlzheimer's disease research and treatmentsNeuroscience and Neuropharmacology Research
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