grant

Paternal stress epigenetic programming of offspring neurodevelopment

Organization UNIVERSITY OF COLORADO DENVERLocation Aurora, UNITED STATESPosted 1 Jan 2023Deadline 31 May 2026
NIHUS FederalResearch GrantFY20240-11 years old12-20 years old4-Aminobutanoic Acid4-Aminobutyric Acid4-amino-butanoic acidAdolescenceAdolescentAdolescent YouthAdverse ExperienceAdverse eventAffectAminalonAminaloneBBB permeabilizationBBB permeableBehavioralBiologyBrainBrain Nervous SystemCell BodyCell Communication and SignalingCell Culture SystemCell NucleusCell SignalingCell-Extracellular MatrixCellsChildChild YouthChildren (0-21)Chronic stressCommunitiesDeveloping fetusDevelopmentDysfunctionECMElderlyElectrophysiologyElectrophysiology (science)EmbryoEmbryo DevelopmentEmbryo TransferEmbryogenesisEmbryonicEmbryonic DevelopmentEncephalonEnvironmentEpididymisEpigeneticEpigenetic ChangeEpigenetic MechanismEpigenetic ProcessEpithelial CellsExposure toExtracellular MatrixFertilizationFertilized EggFertilized OvumFetal DevelopmentFiberFunctional disorderFuture GenerationsGABAGametesGene x Environment InteractionGenerationsGerm CellsGerm LinesGerm-Line CellsGestationGlucocorticoid ReceptorGlutamatesGxE interactionHearingHistonesHomeHumanHypothalamic dysfunctionHypothalamic structureHypothalamusICSIIn VitroInfectionIntracellular Communication and SignalingIntracytoplasmic Sperm InjectionsL-GlutamateLinkMalnutritionMiceMice MammalsMicro RNAMicroRNAsMicroinjectionsMitochondriaModelingModern ManMurineMusNerve CellsNerve UnitNeural CellNeural DevelopmentNeurocyteNeurodevelopmental DisorderNeurological Development DisorderNeuronsNeurophysiology / ElectrophysiologyNucleusNutritional DeficiencyOlfactionOocytesOutcomeOvocytesPerformancePhenotypePhotometryPhysiopathologyPregnancyProteinsReaction TimeRecoveryRegulationReproduction TechnicsReproduction TechniquesReproductive CellsReproductive TechniquesResearchResponse RTResponse TimeRiskRoleSex CellSignal TransductionSignal Transduction SystemsSignalingSliceSmellSmell PerceptionSocial isolationSpecificitySpermSpermatozoaStressStructural ProteinTechnologyTestingTransfer RNATransgenic MiceTransmissionTriplet Codon-Amino Acid AdaptorUndernutritionadolescence (12-20)advanced ageallostasesallostasisassisted reproductionbiological signal transductionblood-brain barrier permeabilizationblood-brain barrier permeablebloodbrain barrier permeabilizationbloodbrain barrier permeabledevelopmentaldietary deficiencydisease riskdisorder riskelectrophysiologicalembryo transplantationenvironment effect on geneepigeneticallyexecutive controlexecutive functionexperienceextracellular vesiclesfertilizationsfetalgamma-Aminobutyric Acidgene environment interactiongenital tractgeriatricglobal gene expressionglobal transcription profileglutamatergichomeshypothalamicin vivoinitial cellinsightintergenerationaljuvenilejuvenile animaljuvenile humankidsmalemalnourishedmiRNAmiRNAsmitochondrialmouse modelmurine modelneurodevelopmentneurodevelopmental diseaseneuronalneuropsychiatric diseaseneuropsychiatric disordernext generationnovelnutrition deficiencynutrition deficiency disordernutritional deficiency disorderodor perceptionoffspringolfactory perceptionpathophysiologypiRNApiwi RNApsychomotor reaction timereproductive tractresponsesenior citizensexual cellsocial rolesperm cellstress reactivitysynapse functionsynaptic functiontRNAtooltranscriptometransfer Ribonucleic acidstransmission processyoung animalyoungsterzoospermzygoteγ-Aminobutyric Acid
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Full Description

Parental lifetime exposures to perturbations such as stress, infection, malnutrition, and to advanced age have
been linked with an increased risk for neurodevelopmental disorders in their children. While maternal insults
during pregnancy can directly impact fetal development, the mechanisms by which paternal lifelong
experiences can alter germ cell programming and affect offspring neurodevelopment are not known. However,
transmission of these epigenetic marks to the next generation can significantly elevate disease risk, and if
programmed into the germline can affect future generations as well. Using male stress experience as a model
in which we can examine mechanisms involved in offspring neurodevelopmental programming, we found that
paternal stress significantly altered offspring HPA stress axis regulation and reprogrammed the hypothalamus.
Mechanistically, we identified 9 specific miRNAs in the mature sperm from stressed males that contributed to
the offspring phenotype. Further, we were able to completely recapitulate the offspring phenotype by
microinjection of these 9 miRNAs into fertilized zygotes. Using single-cell amplification technology, we were
identified a novel role for these miRNAs to significantly affect post-fertilization embryo development, providing
substantial evidence that sperm miRNAs are programmable by the environment and are able to transmit this
information allowing for paternally directed embryo development. Therefore, our proposal will utilize our mouse
model of paternal stress to examine: 1) the mechanisms whereby stress alters paternal germ cell miRNA that
affect neurodevelopment and give rise to the offspring phenotype, 2) the transgenerational transmission of
stress dysregulation to a second generation programmed by paternal stress and sperm miRNAs, and 3) the
mechanism within the offspring brain that promotes the paternal stress phenotype through increased BBB
permeability and repressive histone epigenetic programming.

Grant Number: 5R37MH108286-12
NIH Institute/Center: NIH
Principal Investigator: Tracy Bale

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