grant

Synoviocyte endothelial cell cross talk in rheumatoid arthritis

Organization CEDARS-SINAI MEDICAL CENTERLocation LOS ANGELES, UNITED STATESPosted 20 Jun 2025Deadline 31 May 2027
NIHUS FederalResearch GrantFY20254q ChemokineAddressAffectAnti-Rheumatic AgentsAnti-Rheumatic DrugsAreaArthritisAtrophic ArthritisAttentionB220BiologyBlood SerumBlood VesselsBody TissuesC-X-C ChemokinesCD31CD45CXC ChemokinesCartilageCartilaginous TissueCell BodyCell CommunicationCell Communication and SignalingCell CountCell InteractionCell Migration AssayCell NumberCell SignalingCell-to-Cell InteractionCellsChronicCirculationComplexDMARDDMARDsDataDegenerative ArthritisDegenerative polyarthritisDiseaseDisease-Modifying Antirheumatic DrugsDisease-Modifying Second-Line DrugsDisorderDistantEndothelial CellsEndotheliumEnzyme GeneEnzymesEpigeneticEpigenetic ChangeEpigenetic MechanismEpigenetic ProcessFibroblastsFlareGP180Generalized GrowthGenesGenomic approachGoalsGrantGrowthGrowth AgentsGrowth FactorGrowth SubstancesHumanHyperplasiaHyperplasticImmuneImmune TargetingImmunesImmunosuppressionImmunosuppression EffectImmunosuppressive EffectIn Situ HybridizationIn VitroInfiltrationInflammationInflammatoryIntracellular Communication and SignalingInvadedJointsKnock-outKnockoutLY5LabelLigandsLocationMediatingMembrana Synovialis Capsulae ArticularisMesenchymalMiceMice MammalsMicroscopyMigration AssayMissionMitochondriaModelingModern ManMurineMusNIAMSNational Institute of Arthritis, and Musculoskeletal, and Skin DiseasesOsteoarthritisOsteoarthrosisOxygen ConsumptionPECAM1PECAM1 genePKD1 proteinPTPRCPTPRC geneParentsPathogenesisPathogenicityPathway interactionsPatientsPenetrationPermeabilityPhenotypeProcessProteins Growth FactorsReportingResearch SpecimenRheumatoid ArthritisRoleSchemeScientistSerumSeveritiesSignal TransductionSignal Transduction SystemsSignalingSpecimenSynoviaSynovial FluidSynovial MembraneSynoviumSystemT200TNF-alpha inhibitorTNF-α inhibitorTNFα inhibitorTestingTissue GrowthTissuesUmbilical veinVascular Permeabilitiesalpha-Chemokinesangiogenesisarthriticbiological signal transductioncell typedegenerative joint diseasedesigndesigningdisease modeldisorder modeleditorialepigeneticallygenomic effortgenomic strategygenomic toolshuman modelhypertrophic arthritisimmune suppressionimmune suppressive activityimmune suppressive functionimmunosuppressive activityimmunosuppressive functionimmunosuppressive responsein situ Hybridization Geneticsin situ Hybridization Staining Methodin vitro Modelin vivoin vivo Modelinflamed jointinnovateinnovationinnovativeinterestjoint degenerationjoint degradationjoint destructionjoint inflammationjoint swellingjoint tissue degenerationknock-downknockdownmigrationmitochondrialmodel of humanmouse modelmurine modelneovascularizationnew drug treatmentsnew drugsnew pharmacological therapeuticnew therapeuticsnew therapynext generation therapeuticsnotchnotch proteinnotch receptorsnovel drug treatmentsnovel drugsnovel pharmaco-therapeuticnovel pharmacological therapeuticnovel therapeuticsnovel therapyontogenyosteoclast activating factorparentpathwaypcy proteinpodoplaninpolycystic breakpoint proteinpolycystic kidney disease 1 proteinpolycystin 1programspromoterpromotorrate of changerecruitresponserheumatic arthritissocial rolespatial RNA sequencingspatial gene expression analysisspatial gene expression profilingspatial resolved transcriptome sequencingspatial transcriptome analysisspatial transcriptome profilingspatial transcriptome sequencingspatial transcriptomicsspatially resolved transcriptomicsspatio transcriptomicssubcutaneoussubdermaltumortumor necrosis factor-alpha inhibitorvascular
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Full Description

ABSTRACT
The management of rheumatoid arthritis (RA) has been transformed by immune targeted disease-modifying anti-
rheumatic agents such as tumor necrosis factor alpha inhibitors. However, an unmet need persists for therapies
that would be more tailored against local and disease-specific mechanisms and thus be less
immunosuppressive. The application of genomic approaches to the study of cells and tissues from patient
synovium has recently allowed scientists to focus on the complex relationship between different cell types and
between cells and matrix in RA synovium. This brough a renewed attention to the role of stromal joint cells such
as fibroblast like synoviocytes (FLS) and blood vessel endothelial cells (EC). It has been recently observed that
cells similar to FLS are found in the circulation of patients with RA suggesting that FLS can egress the synovium
through blood vessels. However, transvascular FLS migration has not been reported in RA and its mechanisms
remain unknown.
We have collected initial evidence of FLS transmigration through EC layers in the synovium of RA patients and
a mouse model of RA and have data suggesting that vascular FLS transmigration promotes vascular permeability
in vivo. We also have developed an in vitro system to study RA FLS-EC transmigration process and collected
evidence that transmigration of FLS alters the phenotype of EC. Finally, we have identified a gene that selectively
controls the transmigration of RA FLS through EC layers. The aims of this grant are to validate a pathway that
we believe connects FLS transmigration with EC-mediated inflammation using RA synovial specimens, in vitro
and in vivo models (Aim 1), and assess whether the FLS gene that we have discovered influences FLS
transmigration and arthritis severity (Aim 2).

Grant Number: 1R21AI190985-01
NIH Institute/Center: NIH
Principal Investigator: Nunzio Bottini

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