grant

Targeting Constitutively Active SUMO Modified Androgen Receptors in Endocrine Resistant Breast Cancer

Organization UNIVERSITY OF HOUSTONLocation HOUSTON, UNITED STATESPosted 1 Sept 2021Deadline 30 Jun 2027
NIHUS FederalResearch GrantFY2025APF-1AR geneATP-Dependent Proteolysis Factor 1Androgen AntagonistsAndrogen ReceptorAndrogenic AgentsAndrogenic CompoundsAndrogensAnti-AndrogenAnti-Androgen AgentsBasic Mechanisms of SUMOylationBindingBreast CancerBreast Cancer CellBreast Cancer PatientBreast Tumor PatientCancer GenesCancer ModelCancer-Promoting GeneCancerModelCancersCell FunctionCell PhysiologyCell ProcessCellular FunctionCellular PhysiologyCellular ProcessChaperoneChemosensitizationChemosensitization/PotentiationChromatinClinical TrialsDataDihydrotestosterone ReceptorDiseaseDisorderE3 LigaseE3 Ubiquitin LigaseEndocrineEndocrine TherapyEnzyme GeneEnzymesExhibitsGene TranscriptionGeneralized GrowthGenetic TranscriptionGenomicsGrowthHMG-20HR positiveHSP27HSPB1HSPB1 geneHeat Shock 27 kD Protein 1Heat Shock 27kD Protein 1 GeneHeat Shock Protein 27Heat-Shock Protein 27 GeneHigh Mobility Protein 20Hormonal TherapyInvestigatorsLaboratoriesLigandsLigaseLigase GeneMalignant Breast NeoplasmMalignant NeoplasmsMalignant TumorMetastasisMetastasizeMetastatic LesionMetastatic MassMetastatic NeoplasmMetastatic TumorMiceMice MammalsMolecular ChaperonesMolecular InteractionMurineMusNR3C4Neoplasm MetastasisNuclearOncogenesOncogenesisPatientsPhosphorylationPilot ProjectsPost-Translational Modification Protein/Amino Acid BiochemistryPost-Translational ModificationsPost-Translational Protein ModificationPost-Translational Protein ProcessingPosttranslational ModificationsPosttranslational Protein ProcessingPotentiationProcessProliferatingPropertyProtein ModificationProtein PhosphorylationProteinsPutative RNA-Binding RegionQualifyingRNA BindingRNA Binding DomainRNA ExpressionRNA Recognition MotifRNA boundRNP DomainRNP MotifRNP-1 SignatureReceptor ProteinReportingResearch PersonnelResearchersResistanceRoleSMAX1SUMO ProteinsSUMOylationSecondary NeoplasmSecondary TumorSentrin ProteinsSentrinsSmall Ubiquitin-Related Modifier ProteinsSubcellular ProcessSumoylation PathwaySynthetasesSystemTestingTherapeuticTherapeutic AndrogenTissue GrowthTranscriptionTransforming GenesTumor EscapeTumor Immune EscapeUbiquitinUbiquitin Ligase Component GeneUbiquitin Ligase GeneUbiquitin Protein LigaseUbiquitin-Protein Ligase ComplexesUbiquitin-Protein Ligase E3Xtandiadvanced breast canceradvanced stage breast cancerandrogen dependentandrogen inhibitorandrogen receptor geneandrogen responsiveandrogen sensitiveantagonismantagonistbreast cancer progressionbreast tumor cellcancer evasioncancer immune escapecancer immune evasioncancer metastasiscancer sub-typescancer subtypesclinical relevanceclinically relevantdesigndesigningeffective therapyeffective treatmentenzalutamidegene signaturesgenetic signatureglobal gene expressionglobal transcription profilehormone receptor +hormone receptor-positivehormone therapyimprovedindividuals with breast cancerinhibitorinnovateinnovationinnovativeknock-downknockdownmalignancymalignant breast tumormigrationmimeticsneoplasm/cancernew drug treatmentsnew drugsnew markernew pharmacological therapeuticnew therapeuticsnew therapynext generation therapeuticsnovelnovel biomarkernovel drug treatmentsnovel drugsnovel markernovel pharmaco-therapeuticnovel pharmacological therapeuticnovel therapeuticsnovel therapyontogenyoverexpressoverexpressionpatients with breast cancerperson with breast cancerpilot studypreventpreventingreceptorreceptor bindingreceptor boundreceptor functionrecruitrefractory cancerresistance to therapyresistantresistant cancerresistant to therapyresponders and non-respondersresponders from non-respondersresponders or non-respondersresponders versus non-respondersresponders vs non-respondersresponders/nonrespondersresponsesocial rolespheroidstargeted drug therapytargeted drug treatmentstargeted therapeutictargeted therapeutic agentstargeted therapytargeted treatmenttherapeutic evaluationtherapeutic resistancetherapeutic testingtherapy resistanttooltranscriptometranslational studytreatment resistancetumor cell metastasistumor evasiontumor growthtumor immune evasiontumorigenesisubiquitin ligaseubiquitin-protein ligase
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Full Description

PROJECT SUMMARY
Forty percent of patients with the most prevalent luminal hormone receptor positive (HR+) breast cancer (BCa)
subtype are unresponsive to conventional endocrine therapy (ET) and readily present with incurable metastatic
disease. Patients with ET resistant (ET-R) BCa exhibit an “endocrine-switch” to androgen receptor (AR)-
dependent tumor growth and metastasis. Anti-androgens are emerging as promising therapy for other
advanced BCa subtypes but surprisingly, AR overexpressing ET-R BCa cells are unresponsive to AR
antagonists. Our new findings show constitutively active AR accumulate and evade the inhibitory actions of
anti-androgen Enzalutamide (Enz). Hence, the objective of the current project is to design a therapeutic
strategy to effectively target AR and prevent metastatic progression of ET-R BCa.
We demonstrate that unlike other cancer models, persistent SUMO post-translational modification (PTM) of AR
(SUMO-AR) occurs natively in acquired and intrinsic ET-R BCa cells. SUMO-PTM is a critical dynamic cellular
process and an imbalance in SUMO-specific enzymes drive select types of BCa including basal and Myc-
dependent BCa as reported by us and others. Independent of the established SUMO enzymatic system, we
identify a dual SUMO-ubiquitin ligase that is druggable and destabilizes SUMO-AR in ET-R BCa. This proposal
will delineate the regulatory control of this novel ligase in ET-R BCa and its role in Enz-response. Our new data
suggests that constitutive SUMO-AR genomic activity requires interaction with a lncRNA. Hence, we will
delineate how SUMO-AR/lncRNA interaction facilitates ligand-independent genomic activity in ET-R BCa cells.
Finally, the proposed studies will test unique approaches to either 1) inhibit AR activity or 2) potentiate AR
degradation versus the current standard Enz. In the process, we will generate novel therapeutics and evaluate
clinically relevant compounds specifically for advanced ET-R BCa.
Consistently, completion of the project will validate the need and establish the tools for more comprehensive
translational studies on SUMO-AR in ET-R HR+ BCa.

Grant Number: 5R01CA256543-05
NIH Institute/Center: NIH
Principal Investigator: Tasneem Bawa-Khalfe

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