grant

Role of HMGB1 in an experimental model of Bacterial ligand induced Vasculitis

Organization CEDARS-SINAI MEDICAL CENTERLocation LOS ANGELES, UNITED STATESPosted 20 Jun 2025Deadline 31 May 2027
NIHUS FederalResearch GrantFY20250-11 years oldAcuteAddressAmphoterinAmphoterin GeneAngiitisAortic AneurysmBacterial ModelBeta Proprotein Interleukin 1Blood NeutrophilBlood PlateletsBlood Polymorphonuclear NeutrophilBlood SerumBlood leukocyteCardiac DiseasesCardiac DisordersCardiovascularCardiovascular AbnormalitiesCardiovascular Body SystemCardiovascular DiseasesCardiovascular Organ SystemCardiovascular systemCausalityCell BodyCell WallCellsChildChild YouthChildhoodChildren (0-21)Chromosomal Protein, Nonhistone, HMG1Chromosomal Protein, Nonhistone, HMG1 GeneClinical Treatment MoabCoronary AneurysmCoronary artery aneurysmDataDeveloped CountriesDevelopmentDisease ProgressionDoseEtiologyExperimental ModelsFM1 Gene ProductFeverGenetic PolymorphismGenetic studyGlycyrrhizic AcidGlycyrrhizinGlycyrrhizinic AcidHMG-1HMG-1 GeneHMG-1 ProteinHMG1HMG1 GeneHMG3HMG3 GeneHMGB1HMGB1 ProteinHMGB1 geneHeart DiseasesHeart VascularHeparin-Binding Protein p30High Mobility Group Box Protein 1High Mobility Group Protein 1High Mobility Group Protein 1 GeneHigh-Mobility Group (Nonhistone Chromosomal) Protein 1High-Mobility Group (Nonhistone Chromosomal) Protein 1 GeneHigh-Mobility Group Box 1High-Mobility Group Box 1 GeneHumanIGIVIL-1 betaIL-1 βIL-1-bIL-1βIL1-BetaIL1-βIL1B ProteinIL1F2IL1βIV ImmunoglobulinsIVIGImmuneImmune globulin IVImmunesIndustrialized CountriesIndustrialized NationsInflammasomeInflammation MediatorsInflammatoryInnate Immune ResponseInterleukin 1betaInterleukin-1 betaInterleukin-1βIntravenous AntibodiesIntravenous IGIntravenous Immune GlobulinIntravenous ImmunoglobulinsKO miceKawasaki DiseaseKnock-outKnock-out MiceKnockoutKnockout MiceKnowledgeL caseiL. caseiLactobacillus caseiLesionLeukocytesLeukocytes Reticuloendothelial SystemLigandsMarrow NeutrophilMarrow leukocyteMarrow plateletMediatingMiceMice MammalsModelingModern ManMonoclonal AntibodiesMucocutaneous Lymph Node SyndromeMurineMusNeutrophilic GranulocyteNeutrophilic LeukocyteNonhistone Chromosomal Protein HGM1Nonhistone Chromosomal Protein HGM1 GeneNull MousePathogenesisPathway interactionsPatientsPeptidesPlateletsPlayPolymorphonuclear CellPolymorphonuclear LeukocytesPolymorphonuclear NeutrophilsPreinterleukin 1 BetaPreventionProductionProteinsPyrexiaResistanceRoleSBP-1SBP-1 GeneSerumSourceSulfoglucuronyl Carbohydrate Binding ProteinSulfoglucuronyl Carbohydrate Binding Protein GeneTherapeuticThrombocytesVascular DiseasesVascular DisorderVasculitisWhite Blood CellsWhite CellWhole Bloodblood vessel disordercardiovascular disordercausationcirculatory systemcoronary artery lesionscoronary lesioncytokinedeveloped countrydeveloped nationdeveloped nationsdevelopmentaldisease causationeffective therapyeffective treatmentexperimentexperimental researchexperimental studyexperimentsextracellularfebrilefebrisheart disorderhigh riskimprovedinflammatory mediatorinhibitorinjury to tissueinnate immune pathwayskidslater in lifelater lifelesions in coronary arteriesmAbsmonoclonal Absmouse modelmurine modelneutrophilnew drug targetnew drug treatmentsnew druggable targetnew drugsnew markernew pharmacological therapeuticnew pharmacotherapy targetnew therapeutic targetnew therapeuticsnew therapynew therapy targetnext generation therapeuticsnovelnovel biomarkernovel drug targetnovel drug treatmentsnovel druggable targetnovel drugsnovel markernovel pharmaco-therapeuticnovel pharmacological therapeuticnovel pharmacotherapy targetnovel therapeutic targetnovel therapeuticsnovel therapynovel therapy targetpathogenpathwaypediatricpharmacologicpolymorphismresistantsocial rolestandard carestandard treatmenttissue injurytranscriptomicsvascular dysfunctionvascular inflammationvasculitidesvasculopathywhite blood cellwhite blood corpuscleyoungster
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Full Description

ABSTACT
Kawasaki Disease (KD) is an acute febrile pediatric systemic vasculitis of unknown etiology and is the
leading cause of acquired heart disease among children. Untreated children develop coronary artery
aneurysms (CAAs) leading to cardiovascular abnormalities later in life. Intravenous immunoglobulin
(IVIG) is the standard treatment, however up to 20% of patients are non-responsive to IVIG, with a higher
risk of developing CAAs. Therefore, better understanding of KD pathogenesis is crucial for developing
novel and more efficient therapies. High mobility group box 1 (HMGB1) is a pro-inflammatory mediator
that is released primarily from activated leukocytes and platelets and activates NF-κB and the NLRP3
inflammasome via RAGE-dependent manner, releasing inflammatory cytokines such as IL-1β. Serum
levels of HMGB1 are elevated during acute KD, and HMGB1 polymorphism is associated with CAA
development in KD. Using the Lactobacillus casei cell wall extract (LCWE), a bacterial ligand-induced
murine model of KD vasculitis, which mimics immunopathologic features of human KD, we have
generated critical preliminary data on the contribution of HMGB1 in the development of the
cardiovascular lesions of KD vasculitis. Our preliminary data show increased levels of HMGB1 in LCWE-
induced WT KD mice, but diminished serum levels of HMGB1 in platelet-depleted mice following
LCWE-induced KD vasculitis. In preliminary experiments, we observed that blocking HMGB1 with the
anti-HMGB1 molecule (Glycyrrhizin) significantly improved KD vasculitis in this experimental model.
However, the exact role of HMGB1 in the pathogenesis of KD vasculitis and the cellular sources of
HMGB1 during KD vasculitis are unknown. Therefore, in this study, we aimed to explore the role and the
cellular source of circulating HMGB1 in the LCWE-mediated murine KD vasculitis model. We
hypothesize that HMGB1 plays an important role in the pathogenesis of KD vasculitis and that blocking
the activity of HMGB1 may be beneficial in LCWE-induced KD vasculitis. Specific Aims: 1-) Determine
the role of HMGB1 in LCWE-induced KD vasculitis, using anti-HMGB1 mAb and a peptide/protein
inhibitor of HMGB1; Aim2-) Determine the role of HMGB1 in platelets and neutrophils in LCWE-
induced KD vasculitis, using cell-specific HMGB1 knockout mice. If successful, our studies will reveal
the contribution of HMGB1 in regulating innate immune response during LCWE-induced KD vasculitis,
as well as potential novel biomarkers and therapeutic targets for KD.

Grant Number: 1R21AI193709-01
NIH Institute/Center: NIH
Principal Investigator: Moshe Arditi

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