grant

Emerging role of tumor-derived exosomes in immune modulation and breast cancer health disparity.

Organization UNIVERSITY OF NORTH TEXAS HLTH SCI CTRLocation FORT WORTH, UNITED STATESPosted 1 Aug 2023Deadline 31 Jul 2026
NIHUS FederalResearch GrantFY2024(TNF)-αAccountingActinsAffectAfrican American FemalesAfrican American WomenAmericanAnnexinsApoptosis Antigen Ligand 1B-Cell Differentiation Factor GeneB-Cell Stimulatory Factor 2 GeneBSF-2 GeneBSF2 GeneBeta-2 Gene InterferonBiologic ModelsBiological ModelsBiologyBlood SerumBody FluidsBody TissuesBone-Derived Transforming Growth FactorBrainBrain Nervous SystemBreast CancerBreast Cancer PatientBreast MetastasisBreast TissueBreast Tumor PatientCD178 AntigenCD8 CellCD8 T cellsCD8 lymphocyteCD8+ T cellCD8+ T-LymphocyteCD8-Positive LymphocytesCD8-Positive T-LymphocytesCD95 LigandCD95 antigen ligandCSAID-Binding Protein 1CSAID-Binding Protein 2CSBP2CachectinCalcimedinsCancersCell AdhesionCell LineCell to Cell Communication and SignalingCell-Cell SignalingCell-Extracellular MatrixCellLineCellular AdhesionCellular MatrixCommunicationCytokine-Suppressive Antiinflammatory Drug-Binding Protein 1Cytokine-Suppressive Antiinflammatory Drug-Binding protein 2Cytoskeletal SystemCytoskeletonCytotoxic cellDataDeath RateDepressed moodDetectionDiseaseDisease-Free SurvivalDisorderDisparitiesDisparityDistantDistant CancerDistant MetastasisEC 3.4.21.7ECMEncephalonEndocytosisEvent-Free SurvivalExocytosisExtracellular MatrixExtracellular Signal-Regulated Kinase GeneFas LigandFas-LFasL proteinFrequenciesGoalsGrowth AgentsGrowth FactorGrowth SubstancesHSF GeneHepatocyte Stimulatory Factor GeneHybridoma Growth Factor GeneIFNB2 GeneIL-6 GeneIL6IL6 geneImmune systemImmunomodulationIn VitroIn vivo analysisInterleukin 6 (Interferon, Beta 2) GeneInterleukin-6 GeneK lymphocyteLipocortinsLiteratureLiverLocationLungLung Respiratory SystemMAP Kinase GeneMAPKMAPK14MAPK14 Mitogen-Activated Protein KinaseMAPK14 geneMacrophageMacrophage-Derived TNFMalignant Breast NeoplasmMalignant NeoplasmsMalignant TumorMammary Gland ParenchymaMammary Gland TissueMeasuresMediatingMediatorMembraneMetastasisMetastasizeMetastatic LesionMetastatic MassMetastatic NeoplasmMetastatic TumorMilk Growth FactorMitogen-Activated Protein Kinase 14Mitogen-Activated Protein Kinase GeneModel SystemMolecularMonocyte-Derived TNFMxi2NK CellsNatural Killer CellsNeoplasm MetastasisNon-MalignantNucleic AcidsOncogenesisOrganPathway interactionsPatientsPeptidesPlasminogenPlatelet Transforming Growth FactorPlayPopulationPreventionProcessProfibrinolysinPrognosisProteinsProteins Growth FactorsPublishingRaceRacesRegulatory T-LymphocyteResearchRoleSAPK2ASTAT3STAT3 geneSamplingSecondary NeoplasmSecondary TumorSerumSiteStrains Cell LinesStress-Activated Protein Kinase 2AStromal CellsT-CellsT-LymphocyteT8 CellsT8 LymphocytesTGF BTGF-betaTGF-βTGFbetaTGFβTNBCTNFTNF ATNF AlphaTNF geneTNF-αTNFATNFαTherapeuticTissuesTransforming Growth Factor betaTransforming Growth Factor-Beta Family GeneTregTumor CellTumor Necrosis FactorTumor Necrosis Factor Ligand Superfamily Member 6Tumor Necrosis Factor-alphaTumor TissueTumor-DerivedWomanaccess to health careaccess to healthcareaccessibility of health careaccessibility to health careaccessibility to healthcareangiogenesisbonebreast cancer diagnosisbreast cancer metastasiscancer disparitycancer health disparitycancer metastasiscancer sub-typescancer subtypescancer-related health disparitycaucasian Americanclinical translationclinically translatableco-morbidco-morbiditycomorbiditycultured cell linecytokinecytotoxic CD8 T cellscytotoxic CD8 T lymphocytedepresseddisparity in cancerdisparity in caredisparity in healthcareexosomeextracellularextracellular vesicleshealth care accesshealth care availabilityhealth care disparityhealth care inequalityhealth care inequityhealth care service accesshealth care service availabilityhealthcare accesshealthcare accessibilityhealthcare availabilityhealthcare disparityhealthcare inequalityhealthcare inequityhealthcare service accesshealthcare service availabilityhepatic body systemhepatic organ systemhumanized micehumanized mouseimmune modulationimmune regulationimmunologic reactivity controlimmunomodulatoryimmunoregulationimmunoregulatoryimprovedin vivoin vivo evaluationin vivo testingintercellular communicationintracellular skeletonmalignancymalignant breast tumormembrane structuremigrationmortality ratemortality ratiomouse modelmurine modelneoplasm/cancerneoplastic cellnew therapeutic approachnew therapeutic interventionnew therapeutic strategiesnew therapy approachesnew treatment approachnew treatment strategynonmalignantnovelnovel therapeutic approachnovel therapeutic interventionnovel therapeutic strategiesnovel therapy approachp38p38 MAP Kinasep38 MAPK Genep38 Mitogen Activated Protein Kinasep38 Protein Kinasep38 SAPKp38-Alphap38Alphapathwayperipheral bloodprognosticpulmonaryracialracial backgroundracial originregulatory T-cellssadnessshRNAshort hairpin RNAsmall hairpin RNAsocial rolesocio-economicsocio-economicallysocioeconomicallysocioeconomicsstemtherapeutic targettherapeutically effectivethymus derived lymphocytetriple-negative breast cancertriple-negative invasive breast carcinomatumortumor cell metastasistumorigenesiswhite American
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Full Description

Project Abstract
Triple-negative breast cancer (TNBC) is an aggressive and invasive breast cancer subtype, accounting for
10-15% of breast cancer diagnoses. TNBC affects African-American (AA) women three times more than
Caucasian-American (CA) women. Metastasis to distant vital organs such as bone, liver, lung, and brain is the
most devastating feature of TNBC in AA women. Tumor-derived exosomes are mediators of aggressive distant
metastasis by contributing to the establishment of a pre-metastatic niche. Therefore, it is critical to investigate
the molecular mechanism(s) that drive tumor-derived exosome-mediated immune modulation and pre-
metastatic niche formation for aggressive metastasis in TNBC. Annexin A2 (AnxA2) is an often identified
exosomal protein with elevated levels in TNBC patient sera and cell lines. The higher expression of exosomal
AnxA2 (exo-AnxA2) in serum samples is associated with poor overall survival and poor disease-free survival
in breast cancer patients. In addition, the expression of serum exo-AnxA2 is significantly high in AA women
with TNBC and promotes angiogenesis. Our data suggest a role for Exo-AnxA2 in establishing a pre-
metastatic niche by immune modulation, which subsequently promotes TNBC metastasis. The goal of our
research is to develop improved therapeutic options for TNBC. We hypothesize that high expression of Exo-
AnxA2 plays a vital role in immune modulation at the pre-metastatic niche, thereby promoting TNBC
metastasis. We will address this hypothesis by the following two specific aims: Aim 1: Determine the
mechanism(s) that drive exo-AnxA2-mediated immune modulation and metastatic niche formation for
aggressive metastasis in breast cancer. Aim 2: Determine the role of patient-derived exo-AnxA2 with
measures of disease aggressiveness among racially distinct populations of TNBC patients using humanized
mouse model system. We predict that high concentrations of exo-AnxA2 in the sera of TNBC patients will be
shown to contribute to the aggressive biology of this disease, especially in AA women, by immune modulation
at the pre-metastatic niche site.

Grant Number: 5R21CA283524-02
NIH Institute/Center: NIH
Principal Investigator: PankaJ Chaudhary

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