Interplay Between Tissue Architecture and Nuclear Organization in the DNA Damage
DNA 损伤中组织结构和核组织之间的相互作用
基本信息
- 批准号:8990276
- 负责人:
- 金额:$ 24.9万
- 依托单位:
- 依托单位国家:美国
- 项目类别:
- 财政年份:2012
- 资助国家:美国
- 起止时间:2012-08-21 至 2017-12-31
- 项目状态:已结题
- 来源:
- 关键词:Acinus organ componentAddressAffectArchitectureBasement membraneBiochemicalBreastBreast Cancer DetectionCancer BiologyCancer BurdenCancer ControlCell Culture TechniquesCell Cycle ProgressionCell NucleusCell SurvivalCellsCellular biologyChromatinChromatin Remodeling FactorChromosomal translocationCollaborationsCommunicationCuesCytoskeletonDNADNA DamageDNA Double Strand BreakDNA RepairDNA lesionDataDefectDependencyDevelopmentDiffusionEngineeringEnvironmentEpithelialEpitheliumExcisionExtracellular MatrixFluorescenceFluorescent in Situ HybridizationFosteringFrequenciesGenomic InstabilityGenomicsGoalsHistologicHydrogelsIntegrinsInterphaseJournalsKnowledgeLaboratoriesLeadLocationMaintenanceMalignant NeoplasmsMammary Gland ParenchymaMeasuresMechanicsMediatingMentorsMitotic Spindle ApparatusModelingMolecularMolecular ChaperonesMolecular and Cellular BiologyMonitorMorphogenesisMutationNCI Center for Cancer ResearchNeoadjuvant TherapyNoduleNon-MalignantNoninfiltrating Intraductal CarcinomaNormal tissue morphologyNuclearNuclear ProteinPathway interactionsPatientsPhasePhosphorylationPreventionPrevention strategyPrincipal InvestigatorProteinsProteomicsRadiation therapyRecruitment ActivityResearchRoleSamplingShapesSignal TransductionSiteSolidSpecimenSterile coveringsStructural ProteinStructureTechniquesTestingTetanus Helper PeptideTextureTissue BankingTissue BanksTissue ModelTissue SampleTissuesTrainingUniversitiesWorkanticancer researchanticancer treatmentcancer cellcancer initiationcancer preventioncancer therapycarcinogenesiscareercareer developmentcell assemblychemotherapycopingextracellularfascinatefightinggenome integrityinnovationinsightkillingsmalignant breast neoplasmmedical schoolsmonolayermultidisciplinarynew technologypolarized cellpreventrepairedresearch studyresponsescaffoldtemporal measurementthree-dimensional modelingtumortumor progressiontumorigenesis
项目摘要
7. Project Summary
Double-strand DNA breaks (DSBs) constitute a constant threat for genome integrity. In absence of accurate
repair, they lead to mutations and chromosomal translocations promoting cancer progression. In addition,
anticancer therapies largely rely on genotoxic treatments generating DSBs in cancer cells. How normal tissues
and cancer cells cope with DSBs has therefore major implications for cancer prevention and control. Cells have
evolved elaborate DNA damage response (DDR) mechanisms to sense DSBs, activate repair pathways, and
control cell cycle progression to prevent the propagation of genomic instability. A great challenge is to
understand the DDR in the context of tissues and to define the influence of the tissue architecture (i.e., the
organized assembly of multicellular structures) on the DDR. Basoapical polarity is an essential aspect of
epithelial architecture that is lost during cancer development. Our preliminary data indicate that the DDR is
enhanced in polarized tissues by basement membrane (BM) signaling through hemidesmosomal integrins. This
effect is observed both for non-neoplastic and malignant cells in 3D culture, but not in flat cell monolayers,
indicating dependency on tissue morphogenesis. Nuclear organization is interconnected with tissue
morphogenesis and carcinogenesis. In polarized cells, the nuclear mitotic apparatus (NuMA) protein
redistributes in the nucleus after DSB induction. NuMA is rapidly phosphorylated upon DNA damage, is
necessary for the maintenance of H2AX phosphorylation (a chromatin mark at DSBs), and interacts with the
WICH chromatin remodeling complex that functions in the DDR.
These observations led us to propose a model in which tissue polarity and the nuclear structural protein NuMA
cooperate to maintain genome integrity. The proposed research will test this model from two angles: the cell
nucleus and the cell-BM interphase. Aim 1 will be to characterize the role of NuMA in the DDR. NuMA may
serve as a molecular scaffold facilitating the targeting and anchorage of repair factors and chromatin
remodelers at DNA lesions and/or preventing free diffusion of broken DNA in the nucleus. NuMA
phosphorylation by ATM may confer spatial and temporal resolution within the scaffold. During the mentored
K99 phase, protein interactions involving NuMA and DDR factors will be analyzed. During the independent
R00 phase, the effect of NuMA disruption on genomic translocation frequencies and DSB mobility will be
determined to test the hypothesis that NuMA anchors DNA breaks. The function of NuMA phosphorylation (P-
NuMA) in the DDR will be addressed by identifying P-NuMA interaction partners, localizing, and disrupting P-
NuMA. Aim 2 will be to define the mechanism by which tissue architecture controls DSB repair.
Mechanotransduction or biochemical signaling via hemidesmosomal integrins may convey extracellular cues to
the cell nucleus, leading to changes in nuclear organization affecting the DDR. Experiments in the K99 phase
will examine the influence of basal polarity on DSB repair and nuclear organization in breast tissue samples. In
the R00 phase, the mechanotransduction hypothesis will be tested with engineered hydrogels of defined
stiffness, interference with the cytoskeleton dynamics, and uncoupling integrins from the cytoskeleton. The
possibility that biochemical BM signals mediate the effect of basal polarity on DSB repair and NuMA
distribution will be addressed by inhibiting integrin signaling cascades. A 3D culture model of ductal
carcinoma in situ will be used to test if altering mechanical or biochemical BM signaling leads to decreased
DSB repair in cancer cell.
I am fascinated by the organization of the cell nucleus and by the mechanisms that maintain genome integrity.
My career goal is to expand my current mentored project on DNA repair, initiated three years ago, as an
academic principal investigator and to develop innovative strategies to fight the cancer burden. Before
embracing a career in cancer research, I have built a solid background in molecular and cellular biology and
acquired extensive expertise in fluorescence techniques that will be applied to this project. The K99 mechanism
would offer me a unique opportunity of career development by allowing me to initiate a translational aspect of
research on DNA repair (collaboration with Drs. S. Badve and K. Hodges at the IU School of Medicine). It
would also provide me training in proteomics and micromechanics that I could directly apply to my project.
Importantly, I will seek advice from my Mentor (Dr. S. Lelièvre) and co-mentors (Drs. T. Misteli and J.
Irudayaraj) whose combined expertise include breast cancer biology, 3D tissue models, nuclear organization,
DNA repair, and the application of new technology to cell biology. This mentoring team will assess my progress
in research and chaperone my transition to independence. Purdue University has a very strong focus on cancer
research and offers excellent training in breast cancer detection, treatment, and prevention with seminars,
courses, journal club, and retreats organized within the NCI-designated Purdue Center for Cancer Research.
Purdue is a unique environment for multidisciplinary endeavors between biologists, engineers, and clinicians.
This milieu and my developing scientific network will drive technical advances and foster conceptual
development.
7. 项目总结
项目成果
期刊论文数量(0)
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{{ truncateString('Pierre-Alexandre Vidi', 18)}}的其他基金
Interplay Between Tissue Architecture and Nuclear Organization in the DNA Damage
DNA 损伤中组织结构和核组织之间的相互作用
- 批准号:
8534728 - 财政年份:2012
- 资助金额:
$ 24.9万 - 项目类别:
Interplay Between Tissue Architecture and Nuclear Organization in the DNA Damage
DNA 损伤中组织结构和核组织之间的相互作用
- 批准号:
8994278 - 财政年份:2012
- 资助金额:
$ 24.9万 - 项目类别:
Interplay Between Tissue Architecture and Nuclear Organization in the DNA Damage
DNA 损伤中组织结构和核组织之间的相互作用
- 批准号:
9197272 - 财政年份:2012
- 资助金额:
$ 24.9万 - 项目类别:
Interplay Between Tissue Architecture and Nuclear Organization in the DNA Damage
DNA 损伤中组织结构和核组织之间的相互作用
- 批准号:
8384270 - 财政年份:2012
- 资助金额:
$ 24.9万 - 项目类别:
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