grant

Exploring the combinatorial efficacy between chemotherapy and T cell checkpoint inhibition and the role of cellular senescence

Organization SLOAN-KETTERING INST CAN RESEARCHLocation NEW YORK, UNITED STATESPosted 1 Jul 2020Deadline 30 Jun 2026
NIHUS FederalResearch GrantFY2024AffectAntioncogene Protein p53AssayAutologousBasic ResearchBasic ScienceBioassayBiological AssayCDDPCDK4CDK4 geneCancer BiologyCancer CauseCancer EtiologyCancer TreatmentCell AgingCell BodyCell Cycle ArrestCell DeathCell Division Kinase 4Cell SenescenceCell secretionCellsCellular AgingCellular SecretionCellular SenescenceCellular Tumor Antigen P53Checkpoint inhibitorCis-diammine-dichloroplatinumCis-diamminedichloridoplatinumCis-diamminedichloro Platinum (II)Cis-dichloroammine Platinum (II)Cis-platinous Diamine DichlorideCis-platinum IICis-platinum II Diamine DichlorideCisplatinCisplatinaCisplatinumClinicalCo-cultureCocultivationCocultureCoculture TechniquesCombination Drug TherapyCombined Modality TherapyCurriculumCyclin-Dependent Kinase 4CysplatynaDataDevelopmentDichlorodiammineplatinumDrug CombinationsEducational CurriculumEnvironmentExpression SignatureFacultyFutureGene Expression ProfileGeneralized GrowthGenesGenotoxinsGoalsGrowthHumanImmuneImmune SurveillanceImmune checkpoint inhibitorImmune mediated therapyImmunesImmuno-ChemotherapyImmunochemotherapyImmunocompetentImmunologic StimulationImmunologic SurveillanceImmunologic SurveillancesImmunological StimulationImmunological SurveillanceImmunological SurveillancesImmunologically Directed TherapyImmunomodulationImmunooncologyImmunostimulationImmunosurveillanceImmunotherapyIn VitroInduced DNA AlterationInduced MutationInduced Sequence AlterationInfiltrationInflammation MediatorsInternationalInvestigatorsKinasesKnowledgeLaboratoriesLung NeoplasmsLung TumorLytotoxicityMEKsMSKCCMalignant Neoplasm TherapyMalignant Neoplasm TreatmentMalignant Tumor of the LungMalignant neoplasm of lungMediatingMediatorMemorial Sloan-Kettering Cancer CenterMentorshipMethodsModelingModern ManMultimodal TherapyMultimodal TreatmentMutagensMutation SpectraNSCLCNSCLC - Non-Small Cell Lung CancerNon-Small Cell Lung CancerNon-Small-Cell Lung CarcinomaOncoprotein p53OrganoidsP53PSK-J3Pathway interactionsPatient CarePatient Care DeliveryPatient outcomePatient-Centered OutcomesPatient-Focused OutcomesPatientsPeyrone's ChloridePeyrone's SaltPhenotypePhosphoprotein P53Phosphoprotein pp53Phosphotransferase GenePhosphotransferasesPlatinumPlatinum BlackPlatinum DiamminodichloridePolychemotherapyPopulationPrediction of Response to TherapyProductionProtein TP53Pt elementPulmonary CancerPulmonary NeoplasmsPulmonary malignant NeoplasmRandomization trialRegimenReplicative SenescenceResearchResearch PersonnelResearch SpecimenResearchersResectedRoleSamplingScientific InquirySignal PathwaySpecimenStimulator of Interferon GenesStructureSystemT-CellsT-LymphocyteTP53TP53 geneTRP53Technical ExpertiseTestingThoracic SurgeryThoracic Surgical ProceduresTissue GrowthTranslational ResearchTranslational ScienceTransphosphorylasesTumor CellTumor ImmunityTumor Protein p53Tumor Protein p53 GeneTumor-Infiltrating LymphocytesWorkaPD-L1aPDL1anti programmed cell death ligand 1anti programmed cell death protein ligand 1anti-PD-(L)1anti-PD-L1anti-PDL-1anti-PDL1anti-cancer therapyanti-tumor immunityantiPD-L1antiPDL1antitumor immunitycGAMP STINGcGAMP-STINGcGAMP/STINGcGAS/STINGcancer immunitycancer therapycancer-directed therapycare for patientscare of patientscareercaring for patientscheck point blockadecheck point inhibitioncheckpoint blockadecheckpoint inhibitionchemo-immuno therapychemoimmunotherapychemotherapychest surgerycis dichlorodiammineplatinumcis platinum compoundcis-Diaminedichloroplatinumcis-Diamminedichloroplatinumcis-Diamminedichloroplatinum(II)cis-Dichlorodiammineplatinum(II)cis-Platinumcombination chemotherapycombination pharmacotherapycombination therapycombinatorialcombined modality treatmentcombined treatmentconventional therapyconventional treatmentcyclic GMP-AMP synthase/STINGcytokinecytotoxicitydetermine efficacydevelopmentaldrug discoveryefficacy analysisefficacy assessmentefficacy determinationefficacy evaluationefficacy examinationevaluate efficacyexamine efficacygene expression patterngene expression signaturegenotoxic agentimmune check point blockadeimmune check point inhibitionimmune check point inhibitorimmune checkpoint blockadeimmune checkpoint inhibitionimmune competentimmune modulationimmune regulationimmune therapeutic approachimmune therapeutic interventionsimmune therapeutic regimensimmune therapeutic strategyimmune therapyimmune-based therapiesimmune-based treatmentsimmune-oncologyimmuno oncologyimmuno therapyimmunogenicityimmunologic reactivity controlimmunology oncologyimmunomodulatoryimmunoregulationimmunoregulatoryimproved outcomein vitro Assayin vivoinflammatory mediatorinhibitorinterestknowledge baselesson planslung cancerlung cancer cellmembermortalitymouse modelmulti-modal therapymulti-modal treatmentmurine modelnecrocytosisneoplastic cellnoveloncoimmunologyontogenyp53 Antigenp53 Genesp53 Tumor Suppressorpathwaypatient oriented outcomespatient populationpredict therapeutic responsepredict therapy responseprotein p53randomized trialrandomized, clinical trialsrational designresponseresponse to therapyresponse to treatmentsenescencesenescentsenescent cellsocial rolestandard of caresurgical servicetargeted drug therapytargeted drug treatmentstargeted therapeutictargeted therapeutic agentstargeted therapytargeted treatmenttechnical skillstherapeutic responsetherapy predictiontherapy responsethymus derived lymphocytetranscriptional profiletranscriptional signaturetranscriptome profilingtranscriptomic profilingtranslation researchtranslational investigationtransplant modeltreatment predictiontreatment responsetreatment response predictiontreatment responsivenesstumorαPD-L1αPDL1
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Full Description

PROJECT SUMMARY / ABSTRACT
Lung cancer is the leading cause of cancer-related mortality nationwide. In patients with metastatic non-small
cell lung cancer, recent randomized trials have demonstrated superior efficacy of combined chemotherapy and
T cell checkpoint blockade over conventional treatment. These studies have made combination chemotherapy
and T cell checkpoint blockade the new standard of care for patients with lung cancer. However, the
mechanisms contributing to the combinatorial efficacy of chemo-immunotherapy remain unknown. Therefore,
drug combinations are determined based on historical regimens for lung cancer rather than scientific rationale.
Our laboratory has a strong interest in understanding the mechanisms underlying treatment responses as a
means of discovering new cancer treatments. The proposal described here builds on our previous work, which
identified a combination of targeted therapies that potently induces cellular senescence. In addition to
demonstrating durable growth arrest, these senescent cells secrete an array of cytokines that facilitate immune
surveillance and tumor cell clearance. Interestingly, our preliminary data suggest that a similar senescent state
can be induced by the standard chemotherapy for lung cancer. We hypothesize that this senescence may
contribute to the clinically observed combinatorial efficacy between chemotherapy and T cell checkpoint
blockade.
We propose to characterize chemotherapy-induced senescence, with a particular emphasis on secreted
immunomodulatory cytokines. We will leverage orthogonal in vitro and in vivo systems to explore the relevance
of senescence to adaptive immunosurveillance, with the goal of determining whether senescence indeed
contributes to cytotoxicity in the context of T cell checkpoint inhibition. In addition, we will interrogate tumor
specimens from patients treated with chemotherapy, immune checkpoint blockade, or the combination to
document the relevance of chemotherapy-induced senescence in patients with NSCLC. The data generated by
this proposal will have direct relevance to the current state of NSCLC treatment, and they will facilitate the
development of additional, potentially novel, drug combinations.
These studies will be led by Dr. Matthew Bott, a junior faculty member on the thoracic surgical service at
Memorial Sloan Kettering Cancer Center (MSK) with an interest in lung cancer and immunotherapy. The
research will be carried out under the combined mentorship of Dr. Scott Lowe, an international leader in cancer
biology, and Dr. Jedd Wolchok, a highly accomplished expert in translational immuno-oncology. MSK offers an
outstanding environment for a career in basic and translational research. To achieve his goal of becoming an
independent researcher, Dr. Bott has developed a structured curriculum of activities aimed at broadening his
knowledge base, expanding his technical skills, and sharpening his methods for scientific inquiry.

Grant Number: 5K08CA245206-05
NIH Institute/Center: NIH
Principal Investigator: MATTHEW BOTT

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