6533b858fe1ef96bd12b64f1
RESEARCH PRODUCT
Oxidative signature of cerebrospinal fluid from mild cognitive impairment and Alzheimer disease patients
Fabio Di DomenicoGilda PupoEsther GiraldoMari-carmen Badã¬aPaloma MonllorAna LloretEugenia Schininã Maria Alessandra GiorgiChiara CiniAntonella TramutolaD. Allan ButterfieldJosã© Viã±aMarzia Perluigisubject
0301 basic medicineOncologyPathologyDiseasephysiology (medical)medicine.disease_causeProtein oxidationtau proteins0302 clinical medicineCerebrospinal fluidmiddle aged80 and overoxidative stresshumansAged 80 and overamyloid beta-peptidesredox proteomicsagedfemale030220 oncology & carcinogenesisBiomarker (medicine)Alzheimer's diseaseAlzheimer diseaseAPOEmedicine.medical_specialtyoxidation-reductionproteomeCSFmolecular sequence data03 medical and health sciencesmalecognitive dysfunctionInternal medicinemental disordersmedicineDementiabiochemistryprotein oxidationbusiness.industrypeptide fragmentscase-control studiesCase-control studybiomarkersmedicine.diseaseAPOE; biomarkers; CSF; extracellular chaperones; protein oxidation; redox proteomics; aged; aged 80 and over; Alzheimer disease; amino acid sequence; amyloid beta-peptides; apolipoproteins E; biomarkers; case-control studies; cognitive dysfunction; female; humans; male; middle aged; molecular sequence data; oxidation-reduction; oxidative stress; peptide fragments; proteome; tau proteins; biochemistry; physiology (medical)extracellular chaperonesamino acid sequence030104 developmental biologybusinessOxidative stressapolipoproteins Edescription
Abstract Background Several studies suggest that pathological changes in Alzheimer’s disease (AD) brain begin around 10–20 years before the onset of cognitive impairment. Biomarkers that can support early diagnosis and predict development of dementia would, therefore, be crucial for patient care and evaluation of drug efficacy. Although cerebrospinal fluid (CSF) levels of Aβ42, tau, and p-tau are well-established diagnostic biomarkers of AD, there is an urgent need to identify additional molecular alterations of neuronal function that can be evaluated at the systemic level. Objectives This study was focused on the analysis of oxidative stress-related modifications of the CSF proteome, from subjects with AD and amnestic mild cognitive impairment (aMCI). Methods A targeted proteomics approach has been employed to discover novel CSF biomarkers that can augment the diagnostic and prognostic accuracy of current leading CSF biomarkers. CSF samples from aMCI, AD and control individuals (CTR) were collected and analyzed using a combined redox proteomics approach to identify the specific oxidatively modified proteins in AD and aMCI compared with controls. Results The majority of carbonylated proteins identified by redox proteomics are found early in the progression of AD, i.e., oxidatively modified CSF proteins were already present in aMCI compared with controls and remain oxidized in AD, thus suggesting that dysfunction of selected proteins initiate many years before severe dementia is diagnosed. Conclusions The above findings highlight the presence of early oxidative damage in aMCI before clinical dementia of AD is manifested. The identification of early markers of AD that may be detected peripherally may open new prospective for biomarker studies.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2015-09-07 |