grant

MATCHMAKERS

Organization UNIVERSITY OF WASHINGTONLocation SEATTLE, UNITED STATESPosted 1 May 2024Deadline 30 Apr 2027
NIHUS FederalResearch GrantFY20243-D structure3-dimensional structure3D structureAddressAffinityAlgorithmsAllelesAllelomorphsAntibodiesAntigen PresentationAntigen TargetingAntigen-Antibody ComplexAntigensBenchmarkingBest Practice AnalysisBindingBiochemicalCancer TreatmentCancersCodeCoding SystemComplexComputer ModelsComputerized ModelsComputing MethodologiesDataData SetDevelopmentDrugsEngineeringEventFDA approvedFaceFeedbackGenerationsGenetics-MutagenesisGoalsGrantHumanImmune ComplexImmune mediated therapyImmune responseImmune systemImmunityImmunological responseImmunologically Directed TherapyImmunologyImmunotherapyIncrease lifespanIndividualInstitutionInvestigatorsLibrariesLinkLytotoxicityMHC ReceptorMachine LearningMajor Histocompatibility Complex ReceptorMalignant MelanomaMalignant Neoplasm TherapyMalignant Neoplasm TreatmentMalignant NeoplasmsMalignant TumorMalignant Tumor of the LungMalignant neoplasm of lungMeasuresMedicationMelanomaMethodsModelingModern ManMolecularMolecular InteractionMutagenesisMutagenesis Molecular BiologyOutputPeptide-MHCPeptide-Major Histocompatibility Protein ComplexPeptide/MHC ComplexPeptidesPharmaceutical PreparationsProbabilityProtein EngineeringProteinsPulmonary CancerPulmonary malignant NeoplasmReagentResearch PersonnelResearchersRestSightSiteSourceSpecificityStructureSystemT cell based therapeuticsT cell based therapyT cell directed therapiesT cell responseT cell targeted therapeuticsT cell therapyT-Cell Antigen Receptor SpecificityT-Cell Antigen ReceptorsT-Cell ReceptorT-Cell Receptor SpecificityT-Cell Receptor TherapyT-Cell Receptor TreatmentT-Cell Receptor based TherapyT-Cell Receptor based TreatmentT-CellsT-LymphocyteT-cell diversityT-cell receptor repertoireT-cell therapeuticsT-cell transfer therapyTCR TherapyTCR based TherapyTCR based treatmentTCR repertoireTestingTherapeuticToxic effectToxicitiesTrainingTumor AntigensTumor-Associated AntigenUncertaintyUniversitiesVisionWashingtonWorkadoptive T cell transferadoptive T-cell therapyalgorithm developmentanti-cancer therapyatomic databenchmarkcancer antigenscancer therapycancer typecancer-directed therapycheck point blockadecheckpoint blockadecombinatorialcomputational methodologycomputational methodscomputational modelingcomputational modelscomputer based methodcomputer based modelscomputer methodscomputerized modelingcomputing methodcytotoxicitydata to traindataset to traindesigndesigningdevelopmentaldoubtdrug/agentelongating the lifespanextend life spanextend lifespanfacesfacialgenetic protein engineeringhost responseimmune check point blockadeimmune checkpoint blockadeimmune system responseimmune therapeutic approachimmune therapeutic interventionsimmune therapeutic regimensimmune therapeutic strategyimmune therapyimmune-based therapiesimmune-based treatmentsimmuno therapyimmunogenimmunoresponseimprovedinsightinterestintervention designlarge data setslarge datasetslarge scale datalarge scale data setslarge scale datasetslifespan extensionlung cancermachine based learningmalignancymethod developmentmonomermouse modelmurine modelneoplasm/cancernew drug classnext generationnovel drug classpMHCpersonalization of treatmentpersonalized medicinepersonalized therapypersonalized treatmentprotein complexprotein designquantumreceptor bindingreceptor boundresponsestructural biologytherapeutic T-cell platformtherapy designthree dimensional structurethymus derived lymphocytetraining datatreatment designtumortumor-specific antigenvisual function
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Full Description

Abstract
Understanding how T cell receptors (TCRs) see tumor antigens presented by MHCs is necessary to fully
understand how the immune system recognizes tumor antigens, and to reap the full potential of antigen-specific
immunotherapy. To achieve this goal, a quantum leap forward is required in which the revolutionary advances in
machine learning are combined with a large volume of structure, function, data on matched TCR-pMHC pairs.
The development of accurate predictors of TCR-antigen recognition will be dependent on the creation and
integration sequencing-based datasets with high-throughput structural and functional insights. Our proposal,
submitted as a CRUK/NCI Grand Challenge team (MATCHMAKERS) will combine researchers with expertise in
immunology, methods development, structural biology, and computation to enable generalized prediction and
design of TCR recognition. This work will be spread across four Work Packages (WPs):
WP1: Large-scale generation of TCR-pMHC pairs from naturally occurring sources. We will build datasets of
naturally occurring TCR-pMHC pairs. Our team will use an array of approaches to collect these datasets, from
humans and from mouse models, and in the context of both cancer and immunity more generally.
WP2: Ultra-high throughput TCR-pMHC matching using molecular engineering. Efforts to create general models
will require a broader array of data than feasible to collect from natural TCR systems. We will use an array of
synthetic approaches developed by our team to comprehensively match TCRs with pMHCs to train
computational models.
WP3: Large-scale structural and biochemical analyses of TCR-pMHC interactions. A key to our team’s vision is
to match interaction datasets with high throughput structural and functional insights. A deep understanding of
how the TCR contacts with MHC helices control function and orientation will be essential for training and testing
computational models.
WP4 AI-based prediction and design of TCR-pMHC interactions. We will integrate our data to train next-
generation algorithms capable of generally predicting and designing TCR-pMHC interactions. These predictions
will proceed through a reiterative testing and feedback circuits for further model optimization.

Grant Number: 1OT2CA297288-01
NIH Institute/Center: NIH
Principal Investigator: DAVID BAKER

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