grant

CANCAN - Kaiser

Organization KAISER FOUNDATION RESEARCH INSTITUTELocation Oakland, UNITED STATESPosted 22 Jun 2022Deadline 31 May 2026
NIHUS FederalResearch GrantFY202220S Catalytic Proteasome20S Core Proteasome20S Proteasome20S ProteosomeAPF-1ATP-Dependent Proteolysis Factor 1AddressAdipose tissueAffectAlgorithmic AnalysesAlgorithmic AnalysisAnalyses of AlgorithmsAnalysis of AlgorithmsAnimalsAnorexiaAppetiteAppetitive BehaviorAtlasesAtrophicAtrophyAutophagocytosisB cell differentiation factorB cell stimulating factor 2B-Cell Differentiation FactorB-Cell Differentiation Factor-2B-Cell Stimulatory Factor-2BCDFBSF-2BSF2Basic ResearchBasic ScienceBehaviorBiological MarkersBloodBlood Reticuloendothelial SystemBody CompositionBody TissuesBody Weight decreasedCRISPRCRISPR/Cas systemCachecticCachexiaCancer CauseCancer EtiologyCancer ModelCancer PatientCancer TreatmentCancerModelCancersCatabolic ProcessCausalityCell BodyCellsCharacteristicsClassificationClinicClinicalClinical ResearchClinical StudyClinical TrialsCluster AnalysesCluster AnalysisClustered Regularly Interspaced Short Palindromic RepeatsCombined Modality TherapyCytometryDataDesire for foodDiagnosisEatingEndocrineEndocrine Gland SecretionEnergy ExpenditureEnergy MetabolismEpidemiologyEtiologyFatsFatty TissueFatty acid glycerol estersFeeding behaviorsFood IntakeFoundationsFutureGDF15GDF15 geneGI microbiomeGene Expression MonitoringGene Expression Pattern AnalysisGene Expression ProfilingGenerationsGenesGeneticGeographyGoalsHMG-20HPGFHepatocyte-Stimulating FactorHeterograftHeterologous TransplantationHigh Mobility Protein 20High-Risk CancerHistologicHistologicallyHormonalHormonesHost-Tumor InteractionHumanHybridoma Growth FactorIFN-beta 2IFNB2IL-6IL6 ProteinImageImmuneImmunesImmunologyInflammatoryInflammatory ResponseIngestive BehaviorInstitutesInterleukin-6Intermediary MetabolismInternationalInterventionIntervention StrategiesIntrinsic factorInvestigationIsotopesLeadLife ExpectancyLinkLipolysisMGI-2MIC-1 gene productMIC1MacropainMacrophage Inhibitory Cytokine-1MacroxyproteinaseMalignant Neoplasm TherapyMalignant Neoplasm TreatmentMalignant NeoplasmsMalignant TumorMapsMass Photometry/Spectrum AnalysisMass SpectrometryMass SpectroscopyMass SpectrumMass Spectrum AnalysesMass Spectrum AnalysisMeasuresMediatorMediator of ActivationMediator of activation proteinMedicalMetabolicMetabolic DiseasesMetabolic DisorderMetabolic ProcessesMetabolic dysfunctionMetabolismMethodsMiceMice MammalsModern ManMulticatalytic ProteinaseMultimodal TherapyMultimodal TreatmentMurineMusMuscleMuscle TissueMyeloid Differentiation-Inducing ProteinNAG-1 proteinNAG1NSAID activated gene-1 productNSAID-Activated Protein 1NSAID-Regulated Protein 1NSCLCNSCLC - Non-Small Cell Lung CancerNeuroendocrineNeuroendocrine SystemNeurologicNeurologicalNeurosecretory SystemsNon-Small Cell Lung CancerNon-Small-Cell Lung CarcinomaNonsmall Cell Lung CarcinomaNonsteroidal Anti-Inflammatory Drug-Activated Protein 1NutrientObservation researchObservation studyObservational StudyObservational researchOrganOrganoidsPLABPLAB ProteinPTGF-BetaPathway interactionsPatient RecruitmentsPatient outcomePatient-Centered OutcomesPatient-Focused OutcomesPatientsPb elementPerformance StatusPeripheralPharmacologyPhenotypePhysical FunctionPhysiologicPhysiologicalPlacental Bone Morphogenic ProteinPlacental TGF-BetaPlasmacytoma Growth FactorPre-Clinical ModelPreclinical ModelsProsomeProspective cohort studyProstate Differentiation FactorProteasomeProteasome Endopeptidase ComplexProteosomeQOLQuality of lifeRecoveryRiskScienceScientistSearching BehaviorSightSkeletal MuscleSpecialistSystemSystematicsTherapeuticTherapeutic HormoneThesaurismosisTimeTissuesToxinTranscript Expression AnalysesTranscript Expression AnalysisTranslationsTumor CellUbiquitinValidationVisionVoluntary MuscleWasting DiseaseWasting SyndromeWeight LossWeight ReductionWhole OrganismWorkXenograftXenograft procedureXenotransplantationadiposeanorexicanti-cancer therapyanti-cancer treatmentanticancer therapyanticancer treatmentautophagybasebehavior studybehavioral studybio-markersbiologic markerbiomarkerbody weight losscancer associated cachexiacancer cachexiacancer cell metabolismcancer induced cachexiacancer metabolismcancer microenvironmentcancer progressioncancer riskcancer therapycancer-associated muscle wastingcancer-directed therapycancer-induced muscle atrophycancer-induced muscle losscancer-induced muscle wastingcancer-related cachexiacausationchemotherapyclinical biomarkersclinical careclinical phenotypeclinical relevanceclinical subtypesclinically relevantclinically useful biomarkerscohortcombination therapycombined modality treatmentcombined treatmentcytokinedietarydigestive tract microbiomedisease causationeffective therapyeffective treatmententeric microbiomeepidemiologicepidemiologicalexpression subtypesfeeding-related behaviorsgastrointestinal microbiomegene expression analysisgene expression assaygrowth differentiation factor 15gut microbiomegut-associated microbiomeheavy metal Pbheavy metal leadhost neoplasm interactionimagingimaging Segmentationimprovedimproved outcomein vivoinnovateinnovationinnovativeinsulin signalinginterferon beta 2interventional strategyintestinal biomeintestinal microbiomelung microbiomemalignancymetabolic phenotypemetabolism disordermetabotypemicrobialmicrobial consortiamicrobial floramicrobiomemicrobiotamicrofloramolecular sub-typesmolecular subsetsmolecular subtypesmortalitymouse modelmulti-modal therapymulti-modal treatmentmulticatalytic endopeptidase complexmultidisciplinarymultispecies consortiamurine modelmuscularneoplasm progressionneoplasm/cancerneoplastic cellneoplastic progressionnonsmall cell lung cancernovelnuclear imagingnutrient intake activityoptogeneticsparticipant recruitmentpathwaypatient populationpulmonary microbiomerecruitresponseresponse to therapyresponse to treatmenttherapeutic responsetherapy responsetooltranscriptional profilingtreatment responsetreatment strategytreatment trialtumortumor cell metabolismtumor metabolismtumor microenvironmenttumor progressiontumor-induced cachexiatumor-induced muscle wastinguptakevirtualvisual functionwastingwasting conditionwasting disorderwhite adipose tissuewt-lossxeno-transplantxeno-transplantationyellow adipose tissue
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Full Description

Background
Cancer cachexia (CC) is a systemic, metabolic wasting syndrome featuring body weight loss due to skeletal muscle and adipose tissue wasting. CC is suffered by ~80% of cancer patients that causes reduced performance status, intolerance to chemotherapy, and increased mortality. This debilitating condition is poorly understood and has no effective treatment. If CC therapy existed, it would improve treatment responses, increase quality of life, and prolong survival. With 50 years of study, the field has focused on defining pathways that promote atrophy in the end-organs most affected by cachexia. While this work has been fruitful, it has not led to identification of the upstream mediators of CC, nor has it generated effective therapies. There is an urgent need for high-quality discovery science and more detailed clinical phenotyping. We have created a virtual institute comprised of diverse, international, multidisciplinary scientists and clinicians with expertise in cancer, metabolism, neuroendocrine function, immunology, human metabolic diseases, preclinical models, and clinical phenotyping. We hypothesize that CC is driven by tumor-intrinsic factors that activate neurohormonal sickness pathways, which then induce anorexia, metabolic dysfunction, and tissue atrophy.
Methods
Our approach involves sophisticated measures of host-tumor interactions including innovative investigation of (1) systemic metabolic flux in mice using isotope tracing, imaging mass spectroscopy, dynamic nuclear imaging, and dietary and pharmacologic interventions; (2) cellular components and secreted factors from the tumor microenvironment using imaging mass cytometry, patient-derived organoid xenografts, microbial toxins, and CRISPR-based manipulations; (3) central pathways regulating appetite, behavior, and peripheral organ metabolism using human metabolic phenotyping, optogenetic, and pharmacological methods. We will perform the largest, most comprehensive observational study in CC subjects to thoroughly define CC subtypes and their clinical biomarkers using epidemiologic tools, novel image segmentation algorithms, and cluster analyses.
Project Goals
Our vision is to develop mechanistically informed treatments for cancer cachexia (CC) to improve quality of life and life expectancy for patients. Working as a multidisciplinary team with expertise in basic science, clinical research, and epidemiology, we will establish a therapeutically relevant classification of molecular and clinical subtypes of CC. We will build therapies to normalize metabolism and neuroendocrine dysregulation in CC to enable successful anti-cancer treatment and systemic recovery for patients. In 5 years, we will have laid the foundation for a new generation of CC treatment trials and strategies that will, for the first time, deliver practice-changing evidence for improved outcomes for patients with cancer who are at risk of or suffer from CC.

Grant Number: 1OT2CA278691-01
NIH Institute/Center: NIH
Principal Investigator: BETTE CAAN

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