grant

Epigenetic Mechanisms of Memory Storage

Organization UNIVERSITY OF IOWALocation IOWA CITY, UNITED STATESPosted 16 Jul 2010Deadline 30 Apr 2027
NIHUS FederalResearch GrantFY2025ASDATAC sequencingATAC-seqATACseqAcetyl CoAAcetyl Coenzyme AAcetylationAcylationAmmon HornAssay for Transposase-Accessible Chromatin using sequencingAutismAutistic DisorderBipolar Affective PsychosisBipolar DisorderBody TissuesCell BodyCell NucleusCellsChIP SequencingChIP-seqChIPseqChromatinCoACoenzyme ACognitive deficitsComplexCornu AmmonisDNADataDefectDeoxyribonucleic AcidDevelopmentDorsalEarly Infantile AutismEpigeneticEpigenetic ChangeEpigenetic MechanismEpigenetic ProcessEventExpression SignatureFunctional RNAFundingGene Action RegulationGene ActivationGene ExpressionGene Expression ProfileGene Expression RegulationGene RegulationGene Regulation ProcessGene TargetingGene TranscriptionGenesGeneticGenetic TranscriptionGoalsHippocampusHistone AcetylationHistonesHourIndividualInfantile AutismKanner's SyndromeKnowledgeLearningLinkMachine LearningManic-Depressive PsychosisMediatingMemoryMental DepressionMental disordersMental health disordersMessenger RNAMetabolicMethodsMiceMice MammalsMicroRNAsModelingModificationMolecularMurineMusMutant Strains MiceNerve CellsNerve UnitNeural CellNeurocyteNeuronsNeurosciencesNon-Polyadenylated RNANoncoding RNANontranslated RNANuclear RNANucleusPTSDPatternPositionPositioning AttributePost-Traumatic NeurosesPost-Traumatic Stress DisordersPosttraumatic NeurosesProcessProteinsPsychiatric DiseasePsychiatric DisorderRNARNA ExpressionRNA Gene ProductsRNA NucleasesRNA SeqRNA sequencingRNAseqRNaseRegulationResearchRibonuclease Family ProteinRibonucleasesRibonucleic AcidRoleS-acetate Coenzyme ASchizophreniaSchizophrenic DisordersSeminalSingle-Nucleus SequencingSortingSourceStatistical MethodsSynapsesSynapticSynaptic plasticitySystemTechniquesTechnologyTimeTissuesTranscriptionTranslational DerepressionTranslational InhibitionTranslational RegulationTranslational RepressionTranslationsUntranslated RNAUpregulationWorkassay for transposase accessible chromatin followed by sequencingassay for transposase accessible chromatin seqassay for transposase accessible chromatin sequencingassay for transposase-accessible chromatin with sequencingautism spectral disorderautism spectrum disorderautistic spectrum disorderbio-informatics toolbioinformatics toolbipolar affective disorderbipolar diseasebipolar illnessbipolar mood disorderbrain tissuecell typechromatin immunoprecipitation coupled with sequencingchromatin immunoprecipitation followed by sequencingchromatin immunoprecipitation with sequencingchromatin immunoprecipitation-seqchromatin immunoprecipitation-sequencingcognitive defectscombinatorialdementia praecoxdepressiondevelopmentalepigenetic regulationepigeneticallyexperimentexperimental researchexperimental studyexperimentsfrontiergene expression patterngene expression signaturehippocampalhistone modificationinsightknock-downknockdownlong-term memorymRNAmachine based learningmanic depressive disordermanic depressive illnessmemory consolidationmemory retrievalmental illnessmiRNAmouse mutantneuronalnew drug targetnew drug treatmentsnew druggable targetnew drugsnew pharmacological therapeuticnew pharmacotherapy targetnew therapeutic targetnew therapeuticsnew therapynew therapy targetnext generation therapeuticsnon-geneticnoncodingnongeneticnovelnovel drug targetnovel drug treatmentsnovel druggable targetnovel drugsnovel pharmaco-therapeuticnovel pharmacological therapeuticnovel pharmacotherapy targetnovel therapeutic targetnovel therapeuticsnovel therapynovel therapy targetpharmacologicpost-trauma stress disorderposttranscriptionalposttrauma stress disorderpsychiatric illnesspsychological disordersNuc-Seqschizophrenicsingle nucleus RNA-sequencingsingle nucleus seqsingle-nucleus RNA-seqsnRNA sequencingsnRNA-seqsocial rolestatistic methodssynapsetranscriptional profiletranscriptional signaturetranscriptome sequencingtranscriptomic sequencingtranscriptomicstranslationtraumatic neurosis
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Full Description

Project Summary / Abstract
In the hours after learning, the activation of gene expression follows a specific pattern, producing transient
waves of expression needed for long-term memory consolidation. These changes require non-genetic (i.e.,
“epigenetic”) events, including modifications to: DNA-organizing proteins known as histones, the DNA itself,
and the accessibility of DNA to proteins. Additionally, the molecular changes necessary for memory require a
form of RNA-based regulation. In the absence of such changes, the long-lasting regulation of gene expression
during memory storage fails, and this could account for defects in memory that accompany many psychiatric
disorders. Our long-term goal is to define novel epigenetic mechanisms underlying memory storage and
synaptic plasticity by taking advantage of recent advances in our understanding of histone modifications, in the
development of single-cell RNA technology, and in the function of regulatory mechanisms mediated by small
noncoding RNAs. During the previous funding period, we defined a novel metabolic source of acetyl-CoA in the
nucleus and have obtained preliminary data about new forms of histone acylation and crotonylation associated
with spatial learning. We also developed bioinformatic tools to analyze single nuclear RNA sequencing data to
identify neurons activated by learning. We further established the reversal of microRNA (miRNA)-mediated
mRNA silencing as a novel epigenetic means of regulating activity-dependent translation, linking synaptic
activity to translational upregulation of key memory-related targets. These major findings provide the basis of
our proposed experiments that we believe will define the next frontiers in our understanding of the epigenetic
mechanisms of memory consolidation. In Specific Aim 1, we will examine the impact of a novel histone
modification, histone crotonylation, on the epigenetic landscape and gene expression during memory
consolidation. In Specific Aim 2, we will define cell type-specific transcriptional signatures of the hippocampal
neurons during memory consolidation and retrieval. In Specific Aim 3, we will elucidate the microRNA-
dependent mechanisms that regulate long-term memory and synaptic plasticity driven by a microRNA
processing complex. An understanding of these key epigenetic regulatory mechanisms involved in the
consolidation and storage of long-term memories is expected to ultimately lead to the development of new
treatments for the debilitating cognitive deficits associated with psychiatric disorders such as schizophrenia,
autism, bipolar disorder, post-traumatic stress disorder and depression.

Grant Number: 5R01MH087463-15
NIH Institute/Center: NIH
Principal Investigator: EDWIN TED ABEL

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