grant

Genetic Contributors to White Matter Microstructure in Aging and Alzheimer’s Disease

Organization VANDERBILT UNIVERSITY MEDICAL CENTERLocation NASHVILLE, UNITED STATESPosted 1 Aug 2021Deadline 31 Jul 2026
NIHUS FederalResearch GrantFY2025AD dementiaAD preventionAPOEAcademic Medical CentersAccelerationAccountingAgingAlzheimer Type DementiaAlzheimer disease dementiaAlzheimer disease preventionAlzheimer preventionAlzheimer risk factorAlzheimer sclerosisAlzheimer syndromeAlzheimer'sAlzheimer's DiseaseAlzheimer's disease riskAlzheimers DementiaAmyloid (Aβ) plaquesAmyloid PlaquesApo-EApoE proteinApolipoprotein EArchitectureAreaAtrophicAtrophyAutomobile DrivingAwardAxonal TransportAxoplasmic TransportBaltimoreBig Data AnalyticsBig Data MethodsBig Data ToolsBiologicalBody TissuesBrainBrain Nervous SystemCandidate Disease GeneCandidate GeneCareer MobilityCell Communication and SignalingCell SignalingClinicalCognitiveCognitive DisturbanceCognitive ImpairmentCognitive declineCognitive function abnormalComplexDWI (diffusion weighted imaging)DWI-MRIDataData AnalysesData AnalysisData SetDedicationsDegenerative Neurologic DisordersDevelopment and ResearchDiffusion MRIDiffusion Magnetic Resonance ImagingDiffusion Weighted MRIDiffusion weighted imagingDiffusion-weighted Magnetic Resonance ImagingDisturbance in cognitionDysfunctionEncephalonEngineering / ArchitectureEnsureEnvironmentEvaluationExtracellular SpaceFoundationsFunctional disorderFundingFutureGWA studyGWASGene ExpressionGene variantGenesGeneticGenetic DiseasesGenetic TechnicsGenetic TechniquesGenetic studyGenomicsGoalsHydrogen OxideImageImpaired cognitionIntercellular SpaceIntracellular Communication and SignalingLaboratoriesLeadLong-term cohortLongitudinal StudiesLongitudinal cohortMeasurementMediatingMemoryMentorsMinorityModelingMolecularNerve DegenerationNervous System Degenerative DiseasesNetwork AnalysisNeural Degenerative DiseasesNeural degenerative DisordersNeuritic PlaquesNeurodegenerative DiseasesNeurodegenerative DisordersNeurologic Degenerative ConditionsNeuron DegenerationOligodendrocytesOligodendrocytusOligodendrogliaOligodendroglia CellParticipantPathway AnalysisPathway interactionsPb elementPhysiopathologyPositionPositioning AttributePrimary Senile Degenerative DementiaProcessR & DR&DRegistriesResearchResearch ResourcesResolutionResourcesRisk-associated variantRoleSenile PlaquesSignal TransductionSignal Transduction SystemsSignalingStructureTechniquesTechnologyTestingTissuesTrainingUniversity Medical CentersValidationVariantVariationWaterWisconsinWorkabnormally aggregated tau proteinallelic variantalzheimer riskamyloid beta plaqueamyloid-b plaqueaβ plaquesbiobankbiologicbiological signal transductionbiorepositorycareercareer advancementcareer developmentcareer transitioncatalystcognitive dysfunctioncognitive losscohortcomputational resourcescomputing resourcescored plaquedMRIdata harmonizationdata interpretationdegenerative diseases of motor and sensory neuronsdegenerative neurological diseasesdiffuse plaquediffusion tensor imagingdrivingfilamentous tau inclusiongenetic analysisgenetic architecturegenetic conditiongenetic disordergenetic variantgenome resourcegenome scalegenome wide analysisgenome wide associationgenome wide association scangenome wide association studygenome wide studiesgenome-widegenome-wide analysisgenome-wide identificationgenomewidegenomewide association scangenomewide association studygenomic data resourcegenomic resourcegenomic sequencing resourcegenomic variantgray matterharmonized dataheavy metal Pbheavy metal leadhippocampal atrophyhippocampal atropyimagingimaging geneticsin vivolarge scale datalarge scale data setslarge scale datasetslife spanlifespanlong-term studylongitudinal outcome studiesmedial temporal areamedial temporal lobemesial temporal areamesial temporal lobemicrotubule associated protein tau aggregationmicrotubule associated protein tau depositmultidisciplinarymyelinationneural degenerationneural imagingneural inflammationneuro-imagingneurodegenerationneurodegenerativeneurodegenerative illnessneuroimagingneuroinflammationneuroinflammatoryneurological degenerationneurological imagingneuronal degenerationnew drug targetnew druggable targetnew pharmacotherapy targetnew therapeutic targetnew therapy targetnovelnovel drug targetnovel druggable targetnovel pharmacotherapy targetnovel therapeutic targetnovel therapy targetpaired helical filament of taupathophysiologypathwaypolygenetic risk scorespolygenic risk scorepre-clinicalpreclinicalprimary degenerative dementiaprofessorreligious order studyresearch and developmentresearch studyresolutionsrisk allelerisk generisk genotyperisk locirisk locusrisk variantself-aggregate tausenile dementia of the Alzheimer typeskillssocial rolesubstantia albasubstantia griseatau PHFtau accumulationtau aggregatetau aggregationtau fibrillizationtau filamenttau neurofibrillary tangletau oligomertau paired helical filamenttau polymerizationtau-tau interactiontractographytraitvalidationswhite matterwhite matter damagewhole genome association analysiswhole genome association studyτ aggregation
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Full Description

PROJECT SUMMARY
While reductions in medial temporal lobe (MTL) white matter tract microstructure have been suggested to have
a central role in longitudinal cognitive decline in aging and Alzheimer’s disease (AD), it is unknown what
genetic factors drive these reductions. The objective of this proposal is to use MTL white matter tract templates
in conjunction with genome-wide analyses to identify the genetic drivers of white matter tract microstructure.
This proposal will leverage several aging datasets, including the Alzheimer’s Disease Neuroimaging Initiative
(n=525), Baltimore Longitudinal Study of Aging (n=295), Religious Orders Study/Memory and Aging
Project/Minority Aging Research Study (n=414), Vanderbilt Memory & Aging Project (n=319), Wisconsin
Alzheimer’s Disease Research Center (n=488), and Wisconsin Registry for Alzheimer’s Prevention (n=468) to
conduct all analyses, totaling in 2,509 participants. Moreover, validation of all results will be conducted using
data from a well-established lifespan study (UK Biobank (n=14,701)) and data from the AD Genetics
Consortium. The central hypothesis is that MTL white matter tract microstructure is driven by genes and
pathways related to myelination, axonal transport, and neuroinflammation in aging and AD. Based on this
hypothesis, the primary aims of this proposal will take a multi-level approach to understand which genes and
pathways lead to MTL white matter microstructure by using: (1) a candidate gene approach to determine with
AD-risk genes are associated with MTL white matter microstructure, (2) a genome-wide approach to identify
novel variants which contribute to MTL white matter microstructure and quantify genetic overlap with other
traits, and (3) a genome-wide approach to identify how gene expression is associated with MTL white matter
tract microstructure and localize signals to relevant biologic pathways. The complementary training plan will
equip me with the skills necessary to transition to an independent career focused on imaging genetics by
emphasizing the following training objectives: (a) expand expertise in computational genetics, (b) acquire a
practical understanding of the pathophysiology and clinical manifestation of AD, and (c) enhance my skillset in
data harmonization and big data analytical techniques. The mentoring team is made up of experts in each of
these areas, and their training will be augmented through formal coursework, interdisciplinary training at the
Vanderbilt Memory & Alzheimer’s Center, and cutting-edge computational and genomic resources available at
the Vanderbilt University Medical Center. Together, these practical and intellectual resources provide the ideal
training environment, and my primary mentor, Dr. Timothy Hohman, has a well-funded laboratory which will
provide all the necessary resources for career transition. These resources will allow me to dedicate 100%
protected effort as an Assistant Professor to focus on research and career development. This will ensure that I
can competitively compete for independent funding (R01) over the course of the proposed award period.

Grant Number: 5K01AG073584-05
NIH Institute/Center: NIH
Principal Investigator: Derek Archer

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