grant

Restoring Tolerance in Inflammatory Bowel Disease with an Oral AMPK agonist Nanomedicine that Targets Antigen Presenting Cells.

Organization QRONO, INCLocation PITTSBURGH, UNITED STATESPosted 20 Sept 2024Deadline 31 Jul 2026
NIHUS FederalResearch GrantFY2025(TNF)-α(hydroxymethylglutaryl-CoA reductase (NADPH)) kinase21+ years old5'-AMP-activated protein kinaseAMP-activated kinaseAMP-activated protein kinaseAMPK enzymeAbsolute ethanolAcuteAdultAdult HumanAdverse effectsAffectAgonistAlimentary CanalAnal Drug AdministrationAnimalsAnti-InflammatoriesAnti-Inflammatory AgentsAnti-inflammatoryAntibodiesAntigen TargetingAntigen-Presenting CellsB cell differentiation factorB cell stimulating factor 2B-Cell Differentiation FactorB-Cell Differentiation Factor-2B-Cell Stimulatory Factor-2BALB C MouseBALB/cBCDFBSF-2BSF2Blood SerumBody TissuesBody WeightCSIFCSIF-10CachectinCardiacCell BodyCellsChronicClinicalClinical TrialsColitisCollaborationsColonColorectal CancerCoupledCustomCytokine Synthesis Inhibitory FactorDataDendritic CellsDevelopmentDigestive TractDiseaseDisorderDoseDrugsDysfunctionETOHEdodekin AlfaEnteralEntericEthanolEthyl AlcoholFibrosisFlow CytofluorometriesFlow CytofluorometryFlow CytometryFlow MicrofluorimetryFlow MicrofluorometryFunctional disorderFutureGI TractGI microbiotaGastrointestinal TractGastrointestinal microbiotaGastrointestinal tract structureGrain AlcoholHMG CoA reductase (NADPH) kinaseHMG CoA reductase kinaseHMG coenzyme A reductase (NADPH) kinaseHPGFHPLCHeart HypertrophyHepatocyte-Stimulating FactorHigh Performance Liquid ChromatographyHigh Pressure Liquid ChromatographyHigh Speed Liquid ChromatographyHistologyHumanHybridoma Growth FactorIFN-beta 2IFNB2IL-10IL-12IL-6IL10IL10AIL12IL6 ProteinImmuneImmune infiltratesImmune mediated therapyImmune responseImmunesImmunologically Directed TherapyImmunologyImmunomodulationImmunotherapyInbred BALB C MiceInflammationInflammatoryInflammatory Bowel DiseasesInflammatory Bowel DisorderInterleukin 10 PrecursorInterleukin-10Interleukin-12Interleukin-6IntestinalIntestinal DiseasesIntestinal DisorderIntestinesInvestmentsLabelLactic AcidosisLamina PropriaLengthMGI-2MacrophageMacrophage-Derived TNFMediatingMedicationMetabolicMethylcarbinolMiceMice MammalsModelingModern ManMonocyte-Derived TNFMurineMusMyeloid Differentiation-Inducing ProteinNKSFNatural Killer Cell Stimulatory FactorNatureOralOral AdministrationOral Drug AdministrationPathogenesisPathogenicityPathological ConstrictionPathway interactionsPatientsPharmaceutical PreparationsPhasePhenotypePhysiopathologyPilot ProjectsPlasmacytoma Growth FactorPlayPrivatizationProductionRectal AdministrationRectal Drug AdministrationRectal InstillationRecurrenceRecurrentRegulatory T-LymphocyteRelapseRhodamineRiskRoleSTTRSerious Adverse EventSerumSevere Adverse EventSeveritiesSeverity of illnessSmall Business Technology Transfer ResearchSplenocyteStenosisT cell responseT-CellsT-LymphocyteTNBS colitisTNBS miceTNBS modelTNBS mouse modelTNBS-induced colitisTNFTNF ATNF AlphaTNF geneTNF-αTNFATNFαTestingTherapeuticTissuesToxic effectToxicitiesTreatment ProtocolsTreatment RegimenTreatment ScheduleTregTumor Necrosis FactorTumor Necrosis Factor-alphaUnited StatesUniversitiesValidationVeiled CellsWorkaccessory celladulthoodalimentary tractanal administrationbowelbowel inflammationcardiac hypertrophyclinical developmentcommensal floracommensal microbescommensal microbiotacommensal microfloracustomscytokinedeliver rectallydesigndesigningdetermine efficacydevelop therapydevelopmentaldigestive canaldisease severitydrug/agentefficacy analysisefficacy assessmentefficacy determinationefficacy evaluationefficacy examinationenteric microbial communityenteric microbiotaevaluate efficacyexamine efficacyexperienceflow cytophotometrygastrointestinal homeostasisgastrointestinal microbial floragut communitygut floragut inflammationgut microbe communitygut microbial communitygut microbial compositiongut microbial consortiagut microbiotagut microbioticgut microflorahigh riskhost responsehydroxymethylglutaryl-CoA-reductase kinaseimmune cell infiltrateimmune modulationimmune regulationimmune system responseimmune therapeutic approachimmune therapeutic interventionsimmune therapeutic regimensimmune therapeutic strategyimmune therapyimmune-based therapiesimmune-based treatmentsimmuno therapyimmunologic reactivity controlimmunomodulatoryimmunoregulationimmunoregulatoryimmunoresponsein vivoindexinginflamed bowelinflamed gutinflamed intestineinflammatory disease of the intestineinflammatory disorder of the intestineinstill rectallyinterestinterferon beta 2intervention developmentintestinal autoinflammationintestinal floraintestinal homeostasisintestinal inflammationintestinal microbiotaintestinal microfloraintestinal tract microfloraintestine diseaseintestine disorderintraoral drug deliverymanage symptommouse modelmurine modelnano medicinalnano medicinenano particlenano therapynano-sized particlenanomedicinalnanomedicinenanoparticlenanosized particlenanotherapynovelpathophysiologypathwaypilot studypre-clinicalpre-clinical studypreclinicalpreclinical studypreservationrectal deliveryrectal drug deliveryregulatory T-cellsserious adverse experienceserious adverse reactionsite targeted deliverysocial rolesymptom managementtargeted deliverytargeted drug therapytargeted drug treatmentstargeted therapeutictargeted therapeutic agentstargeted therapytargeted treatmenttherapy developmentthymus derived lymphocytetreatment developmenttrinitrobenzene sulfonic acid colitistrinitrobenzene sulfonic acid induced colitistrinitrobenzene sulfonic acid induced mouse modeltrinitrobenzene sulfonic acid modeltrinitrobenzene sulfonic acid mouse modeluptakevalidations
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Full Description

PROJECT SUMMARY
In the United States alone, approximately 3.1 million adult patients suffer from inflammatory bowel disease (IBD),
a group of disorders characterized by chronic or recurring inflammation of the gastrointestinal (GI) tract. Although
several therapeutics, including anti-TNF antibodies, have been approved for the treatment of IBD, many patients
do not respond to current treatments or experience relapse, highlighting an urgent need for the development of
more effective long-term therapies.
Antigen presenting cell (APC) dysfunction drives IBD initiation by encouraging a breakdown in intestinal
homeostasis and promoting pathogenic proinflammatory circuits against harmless commensal microbes.
Although APCs are considered critical to IBD pathogenesis, there have been no APC-targeted therapies
developed to date for the treatment of IBD. Qrono Inc is developing QR401, a first-in-class, oral, APC-specific
AMPK pathway agonist for the treatment of IBD. QR401 uses custom nanoparticles to directly promote an AMPK-
induced immunoregulatory APC phenotype. This work is inspired by studies demonstrating 1) that the AMPK
pathway is downregulated by intestinal APCs in IBD patients and 2) that activation of the AMPK pathway via oral
or systemic administration of AMPK pathway agonists can successfully alleviate disease severity in preclinical
mouse studies. While AMPK has long been a target of interest for IBD, clinical development of AMPK agonists
has been limited by severe adverse effects associated with systemic administration including metabolic
complications (i.e. lactic acidosis) and cardiac hypertrophy. Thus, approaches like the one we propose that can
target AMPK agonists specifically to intestinal APCs are vital to safely activating the AMPK pathway that’s
dampened in IBD and restoring tolerance. Our preliminary data identify the AMPK agonist PF-739 as having
tolerogenic activity, marked by a dampening of pro-inflammatory IL-12p70 production coupled with a significant
increase in anti-inflammatory IL-10 secretion in LPS stimulated dendritic cells (DCs), features that promote Treg
induction. We hypothesize that targeting AMPK-activating compounds to APCs will decrease intestinal
inflammation during experimental colitis and human IBD without the metabolic and cardiac risks
historically associated with untargeted AMPK agonists. Accordingly, we will prepare and characterize
enteric-coated nanoparticles of PF-739 (QR401) that can be used for the proposed in vivo studies.
Successful completion of this project will establish proof-of-concept for a first-in-class APC-targeted
immunotherapy for IBD. A future Phase II STTR proposal would continue development in IND-enabling studies.
Qrono is committed to developing oral tolerogenic therapies for IBD, and these data will help us raise private
investment necessary for future clinical trials.

Grant Number: 5R41DK142311-02
NIH Institute/Center: NIH
Principal Investigator: Christina Cargill

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