How HSP90 shapes genotype-phenotype relationships to alter treatment outcome in cancer
HSP90 如何塑造基因型-表型关系以改变癌症治疗结果
基本信息
- 批准号:9433259
- 负责人:
- 金额:$ 19.22万
- 依托单位:
- 依托单位国家:美国
- 项目类别:
- 财政年份:2020
- 资助国家:美国
- 起止时间:2020-02-05 至 2023-01-31
- 项目状态:已结题
- 来源:
- 关键词:AddressAddressBRCA1 ProteinBRCA1 ProteinBindingBindingBiologicalBiologicalBuffersBuffersCancer BiologyCancer BiologyCancer PatientCancer PatientCancer cell lineCancer cell lineCell LineCell LineCellsCellsClinicalClinicalClinical InvestigatorClinical InvestigatorCollaborationsCollaborationsComplementComplementDNA RepairDNA RepairDNA Repair GeneDNA Repair GeneDana-Farber Cancer InstituteDana-Farber Cancer InstituteDataDataDiagnosisDiagnosisDisease remissionDisease remissionDrug resistanceDrug resistanceERCC2 geneERCC2 geneElementsElementsEnvironmentEnvironmentEpigenetic ProcessEpigenetic ProcessEvolutionEvolutionFanconi Anemia Complementation Group A ProteinFanconi Anemia Complementation Group A ProteinFanconi Anemia pathwayFanconi Anemia pathwayFanconi&aposs AnemiaFanconi&aposs AnemiaFundingFundingFunding OpportunitiesFunding OpportunitiesGenesGenesGenetic EngineeringGenetic EngineeringGenotypeGenotypeHSP 90 inhibitionHSP 90 inhibitionHeat-Shock Proteins 70Heat-Shock Proteins 70Heat-Shock Proteins 90Heat-Shock Proteins 90HomeostasisHomeostasisHospitalsHospitalsHumanHumanIn VitroIn VitroInstitutesInstitutesInstitutionInstitutionK22 AwardK22 AwardMalignant - descriptorMalignant - descriptorMalignant NeoplasmsMalignant NeoplasmsMammary NeoplasmsMammary NeoplasmsMeasuresMeasuresMediatingMediatingMendelian disorderMendelian disorderMissense MutationMissense MutationMolecular ChaperonesMolecular ChaperonesMutationMutationNon-MalignantNon-MalignantOncogenesOncogenesOncogenicOncogenicOutcomeOutcomePatientsPatientsPharmaceutical PreparationsPharmaceutical PreparationsPhasePhasePhenotypePhenotypePositioning AttributePositioning AttributeProteinsProteinsPublishingPublishingResearchResearchResourcesResourcesRoleRoleSecureSecureShapesShapesTestingTestingTherapeuticTherapeuticTherapeutic InterventionTherapeutic InterventionTrainingTrainingTransformed Cell LineTransformed Cell LineTreatment EfficacyTreatment EfficacyTreatment outcomeTreatment outcomeWomanWomanWorkWorkbasebasecancer cellcancer cellcancer therapycancer therapycareercareerdesigndesigndrug sensitivitydrug sensitivitygene interactiongene interactiongenetic approachgenetic approachgenetically modified cellsgenetically modified cellsgenotoxicitygenotoxicityimprovedimprovedindividual patientindividual patientindividualized medicineindividualized medicineinhibitor/antagonistinhibitor/antagonistinsightinsightloss of functionloss of functionmutantmutantneoplastic cellneoplastic cellnovel strategiesnovel strategiesovarian neoplasmovarian neoplasmpatient oriented researchpatient oriented researchpatient stratificationpatient stratificationprotein foldingprotein foldingprotein protein interactionprotein protein interactionresponseresponsestandard of carestandard of caretherapy resistanttherapy resistanttumortumor
项目摘要
PROJECT SUMMARY
Cancers evolve through the sequential acquisition of mutations that collectively perturb cellular homeostasis
thereby unleashing havoc. How do these deranged cells survive, form tumors, amass additional deleterious
mutations and acquire resistance to therapies? I propose to tackle these important questions using a novel
approach founded on principles of protein folding. My work has demonstrated that the protein-folding
chaperone heat-shock protein 90 (HSP90) alleviates or “buffers” the deleterious biological effects of human
mutations. In doing so, HSP90 alters cellular drug sensitivities and influences the clinical course of diverse
Mendelian disorders. Here, I hypothesize that by buffering mutations, HSP90 enables tumor cells to thwart
cancer therapies. The proposed work will determine how HSP90, acting epigenetically, alters the
consequences of specific DNA repair mutations in cancers, and how HSP90 buffering influences tumor
responses to genotoxic therapies. I will directly address these questions by measuring the effects of malignant
transformation itself on HSP90's ability to buffer mutations in DNA repair proteins. I will determine the ability of
HSP90 to buffer a panel of well-characterized mutants in the Fanconi Anemia (FA) DNA repair pathway, using
cell lines transformed in vitro by transduction with defined oncogenic elements, and using genetically
engineered FA patient-derived cancer cell lines. As a therapeutically relevant complement to these studies, I
will also investigate the role of HSP90 in buffering mutant DNA repair proteins and how HSP90 helps shape
tumor responses to genotoxic drugs. I will employ a high-throughput functional genetics approach to parse
clinical cancers based on the presence of HSP90-buffered vs. non-buffered mutations (defined by my recently
published and ongoing work) in DNA repair proteins. Results will be correlated with clinical outcome following
standard-of-care treatment with genotoxic drugs. This K22 award will help me secure the funds for an
independent position at a leading institution, establish a record of independent research, and generate
preliminary data for the R01 phase of my career. It will also provide me with training in cancer biology and
patient-oriented research skillsets that will help me compete for a broader spectrum of funding opportunities.
The work I propose will determine how the influence of HSP90 on the accumulation of mutations evolves as
cancers progress and how its evolving role enables the emergence of drug resistance. Results will provide a
theoretical framework permitting the identification and use of HSP90-buffered mutations for patient
stratification. This will contribute to the design of individualized treatments likely to provide the most benefit,
including the use of existing HSP90 inhibitors in non-conventional ways. Thus, this work will provide important
insights into fundamental mechanisms of tumor evolution as well as pioneer a strategy for improving the
precision and efficacy of therapeutic interventions relevant to the treatment of many cancers.
项目摘要
癌症的发展是通过突变的连续获得,这些突变共同扰乱了细胞的稳态
从而引发大破坏这些错乱的细胞是如何生存的,形成肿瘤,积累额外的有害物质,
突变并获得对治疗的抗性?我建议用一本小说来解决这些重要问题
基于蛋白质折叠原理的方法。我的研究表明蛋白质折叠
伴侣蛋白热休克蛋白90(HSP 90)抑制或“缓冲”人类免疫缺陷病毒的有害生物效应。
突变。在此过程中,HSP90改变了细胞对药物的敏感性,并影响了多种肿瘤的临床进程。
孟德尔紊乱。在这里,我假设通过缓冲突变,HSP90使肿瘤细胞能够阻碍肿瘤细胞的生长。
癌症治疗这项工作将确定HSP90是如何在表观遗传学上起作用的,
癌症中特定DNA修复突变的后果,以及HSP90缓冲如何影响肿瘤
对遗传毒性治疗的反应。我将通过测量恶性肿瘤的影响来直接解决这些问题。
HSP90对DNA修复蛋白突变的缓冲能力。我将决定
HSP90缓冲范可尼贫血(FA)DNA修复途径中一组充分表征的突变体,使用
通过用确定的致癌元件转导体外转化的细胞系,
工程化的FA患者来源的癌细胞系。作为这些研究的治疗相关补充,我
还将研究HSP90在缓冲突变DNA修复蛋白中的作用,以及HSP90如何帮助塑造
肿瘤对遗传毒性药物的反应。我将采用高通量功能遗传学方法来解析
基于HSP90缓冲与非缓冲突变的存在的临床癌症(由我最近定义)
已发表和正在进行的工作)。结果将与以下临床结局相关
基因毒性药物的标准治疗这个K22奖将帮助我获得资金,
在领先机构的独立职位,建立独立研究的记录,并产生
我职业生涯R01阶段的初步数据。它还将为我提供癌症生物学方面的培训,
以病人为导向的研究技能,这将有助于我竞争更广泛的资助机会。
我提出的工作将确定HSP 90对突变积累的影响如何演变,
癌症的进展以及其不断演变的作用如何导致耐药性的出现。结果将提供
允许鉴定和使用HSP90缓冲突变的理论框架
分层这将有助于设计可能提供最大益处的个性化治疗,
包括以非常规方式使用现有的HSP 90抑制剂。这项工作将提供重要的
深入了解肿瘤演变的基本机制,并开创了一种改善
与许多癌症的治疗相关的治疗干预的精确性和有效性。
项目成果
期刊论文数量(0)
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Georgios Karras其他文献
Georgios Karras的其他文献
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{{ truncateString('Georgios Karras', 18)}}的其他基金
How HSP90 shapes genotype-phenotype relationships to alter treatment outcome in cancer
HSP90 如何塑造基因型-表型关系以改变癌症治疗结果
- 批准号:
10320830 - 财政年份:2020
- 资助金额:
$ 19.22万 - 项目类别:
How HSP90 shapes genotype-phenotype relationships to alter treatment outcome in cancer
HSP90 如何塑造基因型-表型关系以改变癌症治疗结果
- 批准号:
10098008 - 财政年份:2020
- 资助金额:
$ 19.22万 - 项目类别:
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