grant

Targeting CDK6 expression/activity in Ph+ and Ph1-like acute lymphoblastic leukemia (ALL)

Organization THOMAS JEFFERSON UNIVERSITYLocation PHILADELPHIA, UNITED STATESPosted 1 Jul 2021Deadline 30 Jun 2027
NIHUS FederalResearch GrantFY202521+ years oldAcuteAcute B-Lymphocytic LeukemiaAcute Lymphoblastic LeukemiaAcute Lymphocytic LeukemiaAcute Lymphoid LeukemiaAdultAdult HumanB cell progenitor acute lymphoblastic leukemiaB-ALLB-Cell Acute Lymphocytic LeukemiaB-Cell Acute Lymphoblastic LeukemiaB-Cell Lymphoblastic LeukemiaB-cell ALLB-cell precursor acute lymphoblastic leukemiaBiologicalBloodBlood PlasmaBlood Reticuloendothelial SystemCCND1 ProteinCDK4CDK4 InhibitorCDK4 geneCDK6 proteinCDKN2A ProteinCancer BiologyCancer TreatmentCancersCatalytic CoreCatalytic DomainCatalytic RegionCatalytic SiteCatalytic SubunitCdk4-Associated Protein p16Cell CycleCell Cycle Negative Regulator BetaCell Cycle ProteinsCell Division CycleCell Division Cycle ProteinsCell Division Kinase 4Cell LineCell-Cycle Regulatory ProteinsCellLineCellular ExpansionCellular GrowthClinicClinicalCombination Drug TherapyComplexCyclin D1Cyclin-Dependent Kinase 4Cyclin-Dependent Kinase Inhibitor 2ACyclin-Dependent Kinase Inhibitor p12Cyclin-Dependent Kinase Inhibitor p16CytoplasmDNA TherapyDNA mutationDevelopmentDoseDown-RegulationDrug KineticsDrug TherapyExhibitsExpression SignatureFDA approvedG1/S-Specific Cyclin D1Gene Action RegulationGene ExpressionGene Expression ProfileGene Expression RegulationGene RegulationGene Regulation ProcessGene TranscriptionGene Transfer ClinicalGeneralized GrowthGenerationsGenesGenetic ChangeGenetic InterventionGenetic TranscriptionGenetic defectGenetic mutationGoalsGrowthHD1HDAC1HDAC1 geneHalf-LifeHematologic CancerHematologic MalignanciesHematologic NeoplasmsHematological MalignanciesHematological NeoplasmsHematological TumorHematopoietic CancerHigh Throughput AssayHistone Deacetylase 1HumanINK4A Gene ProductINK4A ProteinImatinibIn VitroKinasesKnowledgeLaboratoriesLeadLinkLiver MicrosomesMLL rearrangedMLL rearrangementMLL-rearranged leukemiaMalignant Hematologic NeoplasmMalignant Neoplasm TherapyMalignant Neoplasm TreatmentMalignant NeoplasmsMalignant TumorMedicinal ChemistryMetabolicMetabolic PathwayMiceMice MammalsMitochondriaModern ManMolecularMultiple Tumor Suppressor-1MurineMusMutationNuclearOralOutcomePDX modelPLSTIRE gene productPRAD1 ProteinPSK-J3PTK InhibitorsPatient derived xenograftPatientsPb elementPharmaceutic ChemistryPharmaceutical ChemistryPharmacokineticsPharmacological TreatmentPharmacotherapyPhiladelphiaPhosphotransferase GenePhosphotransferasesPlasmaPlasma SerumPolychemotherapyPre-B-Cell LeukemiaPrecursor B Lymphoblastic LeukemiaPrecursor Cell Lymphoblastic LeukemiaPrecursor Lymphoblastic LeukemiaPrognosisProliferatingPropertyProtacProtein CDKN2Protein MTS1Protein Tyrosine Kinase InhibitorsProtein p16Proteolysis targeting chimericProto-Oncogene Proteins c-bcl-1RNA ExpressionRPD3-Like 1RPD3L1Recurrent diseaseReduced Potassium Dependency 3, Yeast, Homolog-Like 1RelapseRelapsed DiseaseResistanceResistance developmentResistant developmentReticuloendothelial System, Serum, PlasmaRoleRouteS PeriodS phaseSpecificityStrains Cell LinesStructure-Activity RelationshipSubgroupSynthesis PeriodSynthesis PhaseTK InhibitorsTestingTherapeutic AgentsTherapeutic EffectTissue GrowthTranscriptionTransphosphorylasesTyrosine Kinase Inhibitoracute lymphatic leukemiaacute lymphoblastic leukemia cellacute lymphocytic leukemia cellacute lymphogenous leukemiaacute lymphoid leukemia cellacute lymphomatic leukemiaadulthoodadvanced breast canceradvanced stage breast canceranti-cancer therapybcl-1 Proto-Oncogene Productsbcl-1 Proto-Oncogene Proteinsbcl1 Proto-Oncogene Proteinsbiologicc-bcl-1 Proteinscancer therapycancer-directed therapycdc Proteinscdk6 gene productcell growthchemical structure functioncombination chemotherapycombination pharmacotherapycompound optimizationcultured cell linecyclin Dcyclin-dependent kinase 6developing resistancedevelopmentaldrug interventiondrug treatmenteffective therapyeffective treatmentformulation optimizationgene expression patterngene expression signaturegene repair therapygene therapygene-based therapygenetic therapygenome mutationgenomic therapyheavy metal Pbheavy metal leadhigh riskhigh throughput screeningimprovedimproved outcomein vitro activityin vivoinhibitorinnovateinnovationinnovativeintraperitonealleukemialeukemia treatmentleukemic therapymalignancymitochondrialmouse modelmurine modelneoplasm/cancernew drug treatmentsnew drugsnew pharmacological therapeuticnew therapeuticsnew therapynext generation therapeuticsnovelnovel drug treatmentsnovel drugsnovel pharmaco-therapeuticnovel pharmacological therapeuticnovel therapeuticsnovel therapyontogenyp16(INK4A)p16-INK4p16INK4 Proteinp16INK4A Proteinpatient derived xenograft modelpharmaceutical interventionpharmacologicpharmacological interventionpharmacological therapypharmacology interventionpharmacology treatmentpharmacotherapeuticspre-clinicalpreclinicalproteolysis targeting chimaeraproteolysis targeting chimeraprototyperesistantsocial rolestructure function relationshiptherapeutically effectivetranscriptional profiletranscriptional signaturevalidation studies
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Full Description

Abstract
Philadelphia-positive acute lymhoblastic leukemia (Ph+ ALL) and Ph1-like B-ALL account for most cases of
“high-risk” adult B-ALL. Current therapies with tyrosine kinase inhibitors (TKIs) have improved the outcome of
Ph+ ALL, but resistance to TKIs develops rapidly in most patients. Ph1-like B-ALL is currently treated with
intensive combination chemotherapy but disease relapse is common with a 5-year survival in only ~25% of
patients. As a result, the prognosis of Ph+ ALL and Ph1-like B-ALL remains dismal. In previous studies, we
showed that Ph+ and Ph1-like ALL cells exhibit a selective requirement for CDK6 expression while CDK4
expression is dispensable. CDK6 is the catalytic subunit of the cyclin D/CDK6 complex which is essential for
the G1 to S-phase cell cycle transition and has kinase-independent growth-promoting effects in hematological
malignancies. Our preliminary studies indicate that CDK6 silencing is more effective than CDK6 enzymatic
inhibition in suppressing Ph+ ALL in mice. To block kinase-dependent and independent effects of CDK6, we
have developed CDK4/6-targeted proteolysis-targeting chimera (PROTACs) that inhibit CDK4/6 enzymatic
activity in vitro and promote the preferential degradation of CDK6 over CDK4 in Ph+ and Ph1-like ALL cells,
providing durable suppression of CDK6 function. In this proposal, we will assess the requirement of CDK6 in
Ph+ and Ph1-like ALL by comparing the effects of CDK6 degradation by PROTAC YX-2-107 and
pharmacological inhibition using Palbociclib, an FDA-approved CDK4/6 inhibitor (Aim 1.1). We will also
determine whether the more potent leukemia suppression induced by CDK6 down-regulation in comparison to
CDK6 enzymatic inhibition can be explained by changes in gene expression induced selectively by CDK6
silencing. Such changes involve the histone deacetylase 1(HDAC1) gene and several others involved in
mitochondrial metabolic pathways (Aims 1.2 and 1.3). Although we have been able to achieve high specificity
of CDK6 versus CDK4 targeting and biological/therapeutic effects comparable/superior to Palbociclib ex vivo
and in PDXs of Ph+ ALL, we will continue to improve our lead compound PROTAC YX-2-107 by medicinal
chemistry approaches in order to develop derivatives with enhanced in vivo efficacy. In Aim 2, we will assess
metabolic properties of select CDK6-degrading PROTACs and test their biological/therapeutic effects in Ph+
and Ph1-like ALL cells ex vivo and in mice injected with de novo or relapsed/TKI-resistant patient-derived
Ph+/Ph1-like ALL cells. Collectively, our PROTAC-based approach which leverages the expertise in cancer
biology and medicinal chemistry of the Calabretta and Salvino's laboratories holds promise to develop novel
and more effective therapeutic agents for the treatment of CDK6-dependent high-risk B-ALL in pre-clinical PDX
models and, potentially, in the clinic.

Grant Number: 5R01CA257251-05
NIH Institute/Center: NIH
Principal Investigator: BRUNO CALABRETTA

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