grant

Utilizing Plasma Proteomics to Identify Novel Biomarkers of Cognitive Aging

Organization VANDERBILT UNIVERSITYLocation Nashville, UNITED STATESPosted 1 Dec 2023Deadline 30 Nov 2027
NIHUS FederalResearch GrantFY202621+ years old65 and older65 or older65 years of age and older65 years of age or more65 years of age or older65+ years65+ years oldAD biological markerAD biomarkerAD dementiaAD pathologyAD patientsAD related biomarkerAD riskAD risk factorADAMTSAcademic Medical CentersActive Follow-upAcuteAdultAdult HumanAffectAgeAged 65 and OverAgingAlzheimer Type DementiaAlzheimer disease dementiaAlzheimer risk factorAlzheimer sclerosisAlzheimer syndromeAlzheimer'sAlzheimer's DiseaseAlzheimer's biomarkerAlzheimer's disease biological markerAlzheimer's disease biomarkerAlzheimer's disease pathologyAlzheimer's disease patientAlzheimer's disease related biomarkerAlzheimer's disease riskAlzheimer's pathologyAlzheimer's patientAlzheimer's related biomarkerAlzheimers DementiaAlzheimer’s biological markerAmentiaApoplexyApproaches to preventionAutopsyBlood PlasmaBlood VesselsBrain Vascular AccidentCardiovascularCardiovascular Body SystemCardiovascular Organ SystemCardiovascular systemCerebral StrokeCerebrovascular ApoplexyCerebrovascular StrokeClinicalCognitionCognitiveCognitive DisturbanceCognitive ImpairmentCognitive agingCognitive declineCognitive function abnormalCountryDataDementiaDisease ProgressionDisturbance in cognitionDysfunctionExposure toFellowshipFunctional disorderFutureGeriatricsHeart VascularImpaired cognitionIndividualInflammatoryInstitutionKnowledgeLinkLiteratureMedicineMemoryMentorshipMetallopeptidasesMetalloproteasesMetalloproteinasesMethodologyMethodsModelingMorbidityNeuropsychologiesNeuropsychologyNeurosciencesOutcomeParticipantPathologyPathway interactionsPhysiciansPhysiopathologyPlasmaPlasma ProteinsPlasma SerumPopulationPreventionPrevention approachPrimary Senile Degenerative DementiaProcessProtein AnalysisProteinsProteomicsRecombinantsResearchResearch ResourcesResourcesReticuloendothelial System, Serum, PlasmaRiskRoleScientistSiteStrokeTechnologyTherapeuticThrombosisTrainingUniversity Medical CentersVascular Cognitive ImpairmentVascular DiseasesVascular DisorderWorkabove age 65active followupadulthoodafter age 65age 65 and greaterage 65 and olderage 65 or olderageage of 65 years onwardaged 65 and greateraged 65+aged ≥65agesalzheimer riskbiomarker in ADbiomarker in Alzheimer'sbiomarker in Alzheimer's diseaseblood vessel disorderbrain attackcareercerebral vascular accidentcerebrovascular accidentcerebrovascular contribution to cognitive impairmentcerebrovascular contributions to cognitive dysfunctioncirculatory systemcognitive dysfunctioncognitive losscohortdifferential expressiondifferentially expressedearly biomarkersearly detection biomarkersearly detection markersexecutive controlexecutive functionfollow upfollow-upfollowed upfollowupgeriatric medicinehuman old age (65+)improvedinformation processinginnovateinnovationinnovativeinsightinterestischemia injuryischemic injurymid lifemid-lifemiddle agemiddle agedmidlifemild cognitive declinemild cognitive disordermild cognitive dysfunctionmild cognitive impairmentmild cognitive lossmild neurocognitive impairmentmortalitynecropsyneuropsychologicnew drug targetnew druggable targetnew markernew pharmacotherapy targetnew therapeutic targetnew therapy targetnovelnovel biomarkernovel drug targetnovel druggable targetnovel markernovel pharmacotherapy targetnovel therapeutic targetnovel therapy targetolder adultolder adulthoodover 65 yearspathophysiologypathwaypatient living with Alzheimer's diseasepatient suffering from Alzheimer's diseasepatient with Alzheimer'spatient with Alzheimer's diseasepatients with ADpostmortempredictive biological markerpredictive biomarkerspredictive markerpredictive molecular biomarkerpreventpreventingprimary degenerative dementiaprocessing speedrisk factor for developing Alzheimer'srisk factor in Alzheimer'srisk of developing Alzheimer'ssenile dementia of the Alzheimer typeskillssocial rolestrokedstrokesthrombotic diseasethrombotic disordertraining opportunitytranscriptional differencesvascularvascular and cognitive impairmentvascular cognition impairmentvascular cognitive declinevascular cognitive diseasevascular cognitive disordervascular cognitive dysfunctionvascular contributions to cognitive declinevascular contributions to cognitive impairmentvascular disease and impaired cognitionvascular dysfunctionvascular dysfunction resulting in cognitive declinevascular related cognitive declinevascular related cognitive impairmentvascular risk factorvasculopathy≥65 years
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Full Description

PROJECT SUMMARY
Alzheimer’s disease (AD), a leading cause of morbidity and mortality in older adults, causes significant
cognitive impairment, but current therapeutic approaches targeting core AD pathology have not provided
clinically meaningful improvements in cognition. There is strong evidence suggesting parallel or ‘concomitant’
pathologies, such as vascular dysfunction, contribute to cognitive decline. Approximately 80% of AD patients at
autopsy have evidence of co-occurring vascular pathology, and detectable vascular dysfunction predates
detectable changes in traditional AD biomarkers. Associations between vascular risk and cognitive decline
appear most pronounced in individuals with early or mid-life exposure to vascular risk factors prior to onset of
overt cognitive impairment, suggesting that vascular risk may drive early cognitive decline and contribute to or
exacerbate the effects of core AD pathology. To achieve clinically meaningful improvement in cognition, there
is a dire need to develop multi-faceted approaches to prevention and treatment of cognitive decline to target
concomitant risk pathways, such as vascular risk, alongside efforts targeting core AD pathology. Identifying
novel plasma biomarkers predictive of adverse cognitive aging would greatly aid in these efforts by identifying
novel therapeutic targets, but few plasma proteomic studies of AD to date have focused on early clinical
changes, examined disease progression, or replicated results. This F30 proposal aims to fill those gaps by (a)
focusing on participants with normal cognition and mild cognitive impairment, a prodromal form of AD, (b)
examining longitudinal cognitive outcomes, and (c) replicating all results in a separate cohort. Leveraging these
novel strengths, the applicant will take a two-pronged approach to (1) perform hypothesis-driven candidate
protein analyses, based on prior literature and preliminary data, to characterize associations between
ADAMTS13 and cognition, and (2) perform hypothesis-generating discovery analyses to identify novel
biomarkers for adverse cognitive aging. Pursuing two distinct but complementary approaches offers a unique
training opportunity to develop skills and methodologic approaches for working with ‘omics data and will
directly contribute to efforts to identify novel biomarkers and therapeutic targets for adverse cognitive aging.
The proposed research will leverage the rich resources of the Vanderbilt Memory & Alzheimer’s Center. The
research will be guided by an interdisciplinary mentorship team, including experts in neuropsychology,
neuroscience, plasma proteomics, cardiovascular medicine, and AD. The parallel training plan will facilitate the
candidate’s acquisition of the necessary knowledge and skills to propel her into a successful career as an
independent physician-scientist bridging clinical cardiovascular medicine and cognitive aging research.
Findings from this F30 proposal will provide valuable insight into the role of ADAMTS13 in cognitive decline
and aid in the identification of novel plasma biomarkers predictive of early cognitive decline.

Grant Number: 5F30AG085905-03
NIH Institute/Center: NIH
Principal Investigator: Hailey Adegboye

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