grant

Neuronal IL-1R1 Signaling in Mild Closed Head Injury

Organization UNIVERSITY OF KENTUCKYLocation LEXINGTON, UNITED STATESPosted 1 Jul 2022Deadline 31 May 2027
NIHUS FederalResearch GrantFY2025AcuteAddressAgeAnimal Disease ModelsAnti-InflammatoriesAnti-Inflammatory AgentsAnti-inflammatoryAttentionAutoimmune DiseasesAxonBehaviorBehavioral AssayBody TissuesBrainBrain Nervous SystemBrain TraumaCell BodyCell Communication and SignalingCell SignalingCellsChronicClosed Head TraumaClosed head injuriesComplexDataDegenerative Neurologic DisordersDevelopmentDysfunctionElectrophysiologyElectrophysiology (science)EncephalonExhibitsExpression SignatureFDA approvedFormulationFunctional disorderGene Expression ProfileGenesGliaGlial CellsGoalsIL-1IL-1 ReceptorsIL-1RAcPIL1IL1 ReceptorsInflammationInflammatoryInflammatory ResponseInjuryInterleukin IInterleukin SuppressionInterleukin-1Interleukin-1 ReceptorsInterventionIntracellular Communication and SignalingKO miceKnock-out MiceKnockout MiceKnowledgeKolliker's reticulumLoxP-flanked alleleLymphocyte-Stimulating HormoneMacrophage Cell FactorMaintenanceMediatingMemoryMiceMice MammalsModelingMurineMusNatureNerve CellsNerve DegenerationNerve UnitNervous System Degenerative DiseasesNervous System DiseasesNervous System DisorderNervous System InjuriesNervous System TraumaNervous System damageNeural CellNeural Degenerative DiseasesNeural degenerative DisordersNeurocyteNeurodegenerative DiseasesNeurodegenerative DisordersNeurogliaNeuroglial CellsNeurologic Degenerative ConditionsNeurologic DisordersNeurological DamageNeurological DisordersNeurological InjuryNeurological traumaNeuron DegenerationNeuronsNeurophysiology / ElectrophysiologyNon-neuronal cellNonneuronal cellNonpenetrating Head InjuriesNull MousePathway interactionsPeripheralPhasePhenotypePhysiologyPhysiopathologyProcessReceptor SignalingRecoveryRiboTagRoleSignal TransductionSignal Transduction SystemsSignalingSynapsesSynapticSynaptic plasticitySystemT Helper FactorTestingTherapeuticTissuesTraumatic Brain Injuryagesautoimmune conditionautoimmune disorderautoimmunity diseasebiological signal transductioncell typecognitive functioncognitive recoverycytokinedegenerative diseases of motor and sensory neuronsdegenerative neurological diseasesdevelopmentalelectrophysiologicalexperimentexperimental researchexperimental studyexperimentsfloxedfloxed allelegene expression patterngene expression signaturegenetic approachgenetic strategyinduced Creinducible Creinflammatory environmentinflammatory milieuinjuriesinterleukin-1 receptor accessory proteinknock-downknockdownlymphocyte activating factormouse modelmurine modelnerve cementnerve injuryneural controlneural degenerationneural inflammationneural injuryneural regulationneurodegenerationneurodegenerativeneurodegenerative illnessneuroinflammationneuroinflammatoryneurological degenerationneurological diseaseneuromodulationneuromodulatoryneuronalneuronal degenerationneuroprotectionneuroprotectiveneuroregulationneurotraumanon-penetrating head injuriesnovelpathophysiologypathwaypreservationresponsesocial rolesynapsesynapse functionsynaptic functiontranscriptional profiletranscriptional signaturetraumatic brain damage
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Full Description

ABSTRACT
The cytokine interleukin-1 (IL-1) is well known to mediate detrimental inflammatory processes in peripheral
tissues. IL-1 is elevated in age and in neurodegenerative disease. As a result, IL-1 has become a major focus
of anti-inflammatory strategies to treat neuroinflammation following acute injury and in chronic
neurodegenerative disease. Surprisingly, there is scant evidence that neurons are damaged through the direct
actions of IL-1. To the contrary, a neuron-specific “non-canonical” IL-1 receptor (IL-1R1) pathway that
promotes, rather than erodes, neuronal viability has been identified. Despite this paradigm-shifting observation,
the non-canonical pathway has received little attention. Much remains unknown about how neuronal IL-1R1
signaling contributes to the brain's inflammatory milieu, synaptic physiology, and cognitive function, and
recover from injury and progression of neurodegeneration. This knowledge gap could undermine potential
neuroprotective approaches that target suppression of IL-1 as part of the mechanism-of-action.
To address this knowledge gap, we will use novel mouse models exhibiting neuron-specific modulation of IL-1
signaling (i.e., IL-1R1-floxed mice to look at neuron-specific knockdown and IL-1R1-restore mice to look at the
neuron-specific expression of IL-1R1). Our overarching hypothesis is that neuronal IL-1R1 signaling is
inherently protective.
We will test this hypothesis in the following Specific Aims:
SA1 Define the role of the neuronal IL-1R1 pathway in the inflammatory response to a CHI in mice.
SA2 Define the neuronal IL-1R1 pathway in homeostatic synaptic plasticity after a CHI in mice.
SA3 Determine the temporal role of neuronal IL-1R1 in the cognitive recovery following a CHI.
If our hypothesis is affirmed, we will provide knowledge of a new neuroprotective approach and enable the
development of new formulations of existing anti-inflammatory interventions that preserve the neuroprotective
functions of IL-1. The development of novel IL-1R1 therapies would include agents that only suppress the
inflammatory IL-1R1 pathway or only activate the neuroprotective IL-1R1 pathway.

Grant Number: 5R01NS120882-04
NIH Institute/Center: NIH
Principal Investigator: ADAM BACHSTETTER

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