grant

The role of local iron homeostasis in inflammatory bowel disease

Organization RUTGERS BIOMEDICAL AND HEALTH SCIENCESLocation Newark, UNITED STATESPosted 6 Aug 2021Deadline 31 Jul 2026
NIHUS FederalResearch GrantFY2025(TNF)-αAcuteAddressAffectAnatomic SitesAnatomic structuresAnatomyAnemiaAutoregulationBacteriaBiological MarkersBiologyBlood NeutrophilBlood Polymorphonuclear NeutrophilBody TissuesCSIFCSIF-10CachectinCell BodyCell FunctionCell PhysiologyCell ProcessCellsCellular FunctionCellular PhysiologyCellular ProcessCellular biologyChildhoodChronicColitisComplicationCrohn diseaseCrohn'sCrohn's diseaseCrohn's disorderCytokine Synthesis Inhibitory FactorDataDendritic CellsDiabetes MellitusDietary IronDiseaseDisorderEndocrine Gland SecretionFe elementFe supplementationGeneralized GrowthGeneticGranulomatous EnteritisGrowthH hepaticusH. hepaticusHealthHelicobacter hepaticusHepatic CancerHepatic CirrhosisHepc peptideHomeostasisHormonesHumanIL-10IL10IL10AInfectionInflammationInflammatoryInflammatory Bowel DiseasesInflammatory Bowel DisorderInterleukin 10 PrecursorInterleukin-10IntestinalIntestinesIronKnowledgeLinkLiver CirrhosisMacrophageMacrophage-Derived TNFMalignant neoplasm of liverMammaliaMammalsMarrow NeutrophilMediatingMiceMice MammalsMicrobeModern ManMonocyte-Derived TNFMucosaMucosal TissueMucous MembraneMurineMusMyeloid CellsNeutrophilic GranulocyteNeutrophilic LeukocytePathologyPatient riskPatientsPediatric Crohn's diseasePersonal SatisfactionPhagocytesPhagocytic CellPhysiological HomeostasisPolymorphonuclear CellPolymorphonuclear LeukocytesPolymorphonuclear NeutrophilsPredispositionPublishingRecyclingRefractoryRegulationResearch ProposalsResistanceRoleSamplingSmall IntestinesSodium Dextran SulfateSubcellular ProcessSusceptibilityT-CellsT-LymphocyteTNFTNF ATNF AlphaTNF geneTNF-αTNFATNFαTherapeuticTherapeutic HormoneTissue GrowthTissuesTumor Necrosis FactorTumor Necrosis Factor-alphaVariantVariationVeiled CellsWorkamebocytebio-markersbiologic markerbiomarkerbowelbowel inflammationcell biologycell typediabetesdietary Feeleocolitisexperienceextracellularferroportinferroportin1 proteingut inflammationhealinghepcidininflamed bowelinflamed gutinflamed intestineinflammatory disease of the intestineinflammatory disorder of the intestineinnovateinnovationinnovativeintestinal autoinflammationintestinal inflammationiron supplementationliver cancerliver malignancymalignant liver tumormetal transporting protein 1microbial consortiamicrobial floramicrobiotamicrofloramouse modelmultispecies consortiamurine modelneutrophilnew therapeutic approachnew therapeutic interventionnew therapeutic strategiesnew therapy approachesnew treatment approachnew treatment strategynovelnovel therapeutic approachnovel therapeutic interventionnovel therapeutic strategiesnovel therapy approachontogenypediatricregional enteritisresistantsenescent cellsmall bowelsocial rolesolute carrier family 40 (iron-regulated transporter), member 1standard carestandard treatmenttherapeutic targetthymus derived lymphocytetissue repairtooluptakewell-beingwellbeing
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Full Description

PROJECT ABSTRACT
Anemia is the most common complication of inflammatory bowel disease (IBD). IBD-associated anemia is
often refractory to treatment, and the role of dysregulated iron homeostasis in IBD pathology is unknown.
Accordingly, a better understanding of intestinal iron homeostasis may facilitate new therapeutic strategies for
IBD and IBD-associated anemia. Anemia and inflammation are directly linked by the hormone hepcidin, which
critically inhibits iron release from intracellular stores via the iron transporter ferroportin. In new data, I've
identified that hepcidin produced by dendritic cells (DCs) is critical for tissue healing after intestinal
inflammation, and that hepcidin is highly expressed by DCs in inflamed tissues of pediatric Crohn's disease
(CD) patients. Moreover, hepcidin promoted healing by limiting iron availability to tissue-associated bacteria via
iron sequestration in intestinal myeloid cells. The focus of this research proposal is to investigate the
hypothesis that intestinal iron homeostasis is regulated by hepcidin in chronic intestinal inflammation and in
pediatric Crohn's patients to promote tissue healing. In Aim 1, I will interrogate the role of hepcidin and
ferroportin in chronic intestinal inflammation, iron homeostasis, and myeloid cell biology. In Aim 2, I will define
the regulation of hepcidin and ferroportin expression in humans, and I will probe correlations between this axis,
iron homeostasis, and TNF blockers in pediatric Crohn's disease. I will employ innovative technical approaches
to characterize anatomical iron levels in mice and IBD patient samples, and I will develop new genetic tools to
study the role of hepcidin and ferroportin in myeloid cells. Collectively, results from these studies will define the
regulation and functional significance of intestinal iron homeostasis in IBD, with the potential to define novel
therapeutic strategies for pediatric CD patients.

Grant Number: 5K01DK128308-05
NIH Institute/Center: NIH
Principal Investigator: Nicholas Bessman

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