grant

Microvascular endothelial lipid metabolism as a target for age-related vascular cognitive impairment

Organization UNIVERSITY OF OKLAHOMA HLTH SCIENCES CTRLocation OKLAHOMA CITY, UNITED STATESPosted 15 Sept 2025Deadline 31 Aug 2027
NIHUS FederalResearch GrantFY20252-photon65 and older65 or older65 years of age and older65 years of age or more65 years of age or older65+ years65+ years oldAD related dementiaADRDAblationAdipose tissueAffectAgeAge associated cognitive deficitAge associated cognitive dysfunctionAge related memory declineAge related memory deficitAge related memory impairmentAge-associated cognitive declineAge-related cognitive declineAged 65 and OverAgingAlzheimer's and related dementiasAlzheimer's dementia and related dementiaAlzheimer's dementia or related dementiaAlzheimer's disease and related dementiaAlzheimer's disease and related disordersAlzheimer's disease or a related dementiaAlzheimer's disease or a related disorderAlzheimer's disease or related dementiaAlzheimer's disease related dementiaAnimal ModelAnimal Models and Related StudiesAssayAutomobile DrivingAutoregulationBBB disruptionBBB functionBehavioralBenign senescent forgetfulnessBioassayBioenergeticsBiological AssayBlood - brain barrier anatomyBlood VesselsBlood capillariesBlood-Brain BarrierBrainBrain Nervous SystemBrain VascularCAT scanCT X RayCT XrayCT imagingCT scanCapillary PermeabilityCaringCell BodyCellsCerebral endotheliumCerebrovascular CirculationCognitive DisturbanceCognitive ImpairmentCognitive declineCognitive function abnormalComputed TomographyDataData SetDegenerative Neurologic DisordersDisturbance in cognitionDrynessElderlyEncephalonEndothelial CellsEndotheliumEnzyme GeneEnzymesExhibitsExpenditureFatty TissueFutureGenus HippocampusGliaGlial CellsHealthHemato-Encephalic BarrierHomeostasisHumanImageImpaired cognitionImpairmentIncidenceInflammationInterventionInvestigatorsKO miceKnock-out MiceKnockout MiceKolliker's reticulumLeadLipaseLipidsMediatingMetabolicMiceMice MammalsMicrovascular DysfunctionMiningMitochondriaModelingModern ManMolecularMurineMusNerve DegenerationNervous System Degenerative DiseasesNeural Degenerative DiseasesNeural degenerative DisordersNeurodegenerative DiseasesNeurodegenerative DisordersNeurogliaNeuroglial CellsNeurologic Degenerative ConditionsNeuron DegenerationNon-neuronal cellNonneuronal cellNull MouseOrganellesPET/CTPET/CT scanPathogenesisPathologicPb elementPersonsPhenotypePhysiologicPhysiologicalPhysiological HomeostasisPilot ProjectsPlayPreventionPublic HealthRadialRadiusResearch PersonnelResearchersRoleSeahorseSerotypingSortingStructureTechniquesTestingTherapeutic InterventionTomodensitometryTriacylglycerolTriacylglycerol HydrolaseTriacylglycerol LipaseTriacylglycerol acylhydrolaseTributyrinaseTriglyceridaseTriglyceride LipaseTriglyceridesTriolean HydrolaseVascular Cognitive ImpairmentVascular Endothelial CellVascular EndotheliumWeightX-Ray CAT ScanX-Ray Computed TomographyX-Ray Computerized TomographyXray CAT scanXray Computed TomographyXray computerized tomographyabove age 65adiposeadvanced ageafter age 65age 65 and greaterage 65 and olderage 65 or olderageage associatedage associated cognitive impairmentage associated memory declineage associated memory deficitage correlatedage dependentage linkedage of 65 years onwardage relatedage related cognitive deficitage related cognitive dysfunctionage related cognitive impairmentage related memory dysfunctionage specificage-associated memory impairmentage-induced cognitive declineage-related decline in cognitionage-related decline in cognitive functionagedaged 65 and greateraged 65+aged brainaged groupaged groupsaged individualaged individualsaged peopleaged personaged personsaged populationaged populationsaged ≥65agesaging brainaging populationaging related cognitive declinearmblood flow in brainblood-brain barrier disruptionblood-brain barrier functionbloodbrain barrierbloodbrain barrier disruptionbloodbrain barrier functionbrain blood circulationbrain blood flowbrain cellbrain endothelial cellbrain endotheliumbrain microvascular endothelial cellbrain microvasculaturebrain microvesselsbrain vascular endothelial cellcapillarycardiac disease induced cognitive impairmentcatscancell transductioncellular transductioncerebral blood flowcerebral circulationcerebral endothelial cellcerebral microvascular endothelial cellcerebral microvasculaturecerebral microvesselscerebral vascularcerebral vascular endothelial cellcerebro-vascularcerebrocirculationcerebrovascularcerebrovascular blood flowcerebrovascular contribution to cognitive impairmentcerebrovascular contribution to cognitive impairment and dementiacerebrovascular contributions to cognitive dysfunctioncognitive dysfunctioncognitive functioncognitive losscomputed axial tomographycomputer tomographycomputerized axial tomographycomputerized tomographycortical endotheliumcostdegenerative diseases of motor and sensory neuronsdegenerative neurological diseasesdensitydrivingendothelial dysfunctionfat metabolismgeriatricglucose uptakeheavy metal Pbheavy metal leadhuman old age (65+)imagingin vivoinsightintervention therapyknock-downknockdownlipid metabolismmicrovascular agingmicrovascular complicationsmicrovascular diseasemitochondrialmodel of animalnerve cementneural degenerationneural inflammationneuro-vascular couplingneurodegenerationneurodegenerativeneurodegenerative illnessneuroinflammationneuroinflammatoryneurological degenerationneuronal degenerationneurovascular couplingnew drug targetnew druggable targetnew pharmacotherapy targetnew therapeutic approachnew therapeutic interventionnew therapeutic strategiesnew therapeutic targetnew therapy approachesnew therapy targetnew treatment approachnew treatment strategynon-contrast CTnoncontrast CTnoncontrast computed tomographynovelnovel drug targetnovel druggable targetnovel pharmacotherapy targetnovel therapeutic approachnovel therapeutic interventionnovel therapeutic strategiesnovel therapeutic targetnovel therapy approachnovel therapy targetobject recognitionolder adultolder adulthoodover 65 yearspilot studypopulation agingpositron emission computed tomographypreventpreventingresponsescRNA sequencingscRNA-seqsenior citizenshRNAshort hairpin RNAsingle cell RNA-seqsingle cell RNAseqsingle cell expression profilingsingle cell transcriptomic profilingsingle-cell RNA sequencingsmall hairpin RNAsmall vessel diseasesocialsocial roletranscriptomicstransduced cellstributyrasetwo-photonultrasoundvascularvascular and cognitive impairmentvascular cognition impairmentvascular cognitive declinevascular cognitive diseasevascular cognitive disordervascular cognitive dysfunctionvascular cognitive impairment and dementiavascular contribution to impairment or dementiavascular contributions to cognition/dementiavascular contributions to cognitive declinevascular contributions to cognitive decline and dementiavascular contributions to cognitive impairmentvascular contributions to cognitive impairment and dementiavascular disease and impaired cognitionvascular dysfunction resulting in cognitive declinevascular endothelial dysfunctionvascular related cognitive declinevascular related cognitive impairmentwater mazeweightswhite adipose tissueyellow adipose tissue≥65 years
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Full Description

PROJECT SUMMARY/ABSTRACT
Lipids constitute ~50% of the brain’s dry weight, yet very little is known about how brain lipid metabolism
is regulated in both physiological and pathological states. Lipid droplets (LDs) are lipid-storing organelles that
play a significant role in regulating cellular lipid metabolism. Dysregulated lipid homeostasis, resulting in
excessive accumulation of LDs in brain cells, has been implicated in neuroinflammation associated with aging
and other neurodegenerative diseases. While most studies have focused on lipotoxicity in glial cells, our
single-cell RNA-sequencing (scRNA-seq) analysis reveals that brain endothelial cells are equally vulnerable to
age-related LD accumulation. Endothelial cells accumulating LDs in the aged brain displayed a
transcriptomic signature associated with reduced LD turnover, increased neuroinflammation, and impaired
blood-brain barrier (BBB) function. However, the mechanisms by which age-related lipid dysregulation in brain
vascular cells, specifically endothelial cells, contribute to cognitive impairment remain poorly understood. In
this novel pilot study, we build on our exciting preliminary data and propose that decreased lipid turnover
induces microvascular endothelial dysfunction, which impairs cerebral blood flow responses,
promotes BBB disruption, and triggers neuroinflammation, ultimately leading to cognitive decline in aging.
To test this hypothesis, we will knock down the critical triglyceride hydrolytic enzyme, adipose triglyceride
lipase (ATGL), specifically in brain endothelial cells using the recently developed AAV serotype BI30. We will
utilize this model to evaluate how LD accumulation in endothelial cells drives microvascular aging and
cognitive impairment. In Aim 1, we will assess the effects of LD accumulation on endothelial structure and
function. In Aim 2, we will evaluate how endothelial LD accumulation impacts endothelial bioenergetics and
cognitive function in aging. The successful completion of these studies will pave the way for novel
therapeutic strategies targeting endothelial lipid metabolism to delay or prevent cognitive decline
associated with aging and neurodegenerative diseases.

Grant Number: 1R03AG095868-01
NIH Institute/Center: NIH
Principal Investigator: Priya Balasubramanian

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