ROS Mechanisms in BAV Aortopathy
BAV 主动脉病中的 ROS 机制
基本信息
- 批准号:8464218
- 负责人:
- 金额:$ 47.86万
- 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:2012-05-01 至 2017-04-30
- 项目状态:已结题
- 来源:
- 关键词:3-DimensionalAbbreviationsAgeAneurysmAortic AneurysmArchitectureBicuspidBiochemistryBiomechanicsBlood VesselsCaliberCaringCause of DeathCell SurvivalCellsClinicalCollagenCollagen FiberConfocal MicroscopyCongenital AbnormalityCongenital Heart DefectsDataDetectionDevelopmentDiagnosticDissectionEarly DiagnosisEhlers-Danlos SyndromeElastinElastin FiberElectron Spin Resonance SpectroscopyEnzymatic BiochemistryExhibitsExtracellular MatrixFluorescenceGenerationsGenesGoalsHigh Pressure Liquid ChromatographyHistologyHospital MortalityHumanImageIn VitroIndividualKnowledgeMatrix MetalloproteinasesMediatingMicroscopyModelingMolecularMorphologyMutationOperative Surgical ProceduresOxidative StressPatientsPhenotypePopulationPropertyReactive Oxygen SpeciesResearchResearch DesignResearch PersonnelRiskRuptureSmooth Muscle MyocytesSpecimenSpin TrappingStagingTechniquesTestingThoracic Aortic AneurysmTimeTissue BankingTissue BanksUnited Statesadjudicateaortic valveascending aortabasebiological adaptation to stresscohortfebuxostatimprovedinhibitor/antagonistinnovationmortalitymulti-photonnovel strategiespreventscaffoldsecond harmonicsextissue culturetool
项目摘要
DESCRIPTION (provided by applicant): This project will test the hypothesis that reactive oxygen species (ROS) accumulation in aortic smooth muscle cells (SMCs) mediates the aortopathy in patients with bicuspid aortic valve (BAV). The interdisciplinary investigative team possesses a unique composition of expertise and has devised a novel approach to prove that ROS accumulation in BAV-ascending aortic aneurysm (TAA) specimens leads to de-differentiation of SMCs, abnormal extracellular matrix (ECM) composition and architecture and altered biomechanical strength of the aortic wall. The hypothesis is supported by the team's strong preliminary data demonstrating ROS accumulation, reduced cell viability in the presence of ROS, diminished oxidative stress responses, de- differentiation of SMCs, disrupted matrix architecture and altered biomechanical tensile and delamination strengths in the ascending aorta of BAV patients compared with tricuspid aortic valve (TAV)-TAA and non- aneurysmal patients. The innovative strategy is accomplished in a two-aim approach: 1) Define what changes in SMC phenotype, ECM composition and architecture, and biomechanical tensile and delamination strengths are associated with ROS accumulation in BAV aortopathy and 2) Prove that ROS accumulation in aortic SMCs mediates the BAV aortopathy. This study will exploit 1) the PI's extensive tissue bank of human ascending aortic specimens and primary SMCs isolated from the following patient cohorts: a) BAV-TAA compared with b) non-aneurysmal BAV, c) TAV-TAA, and d) non-aneurysmal TAV "normal"; and 2) the team's established scaffold-based 3-D tissue culture model. ROS will be evaluated using the investigators' expertise in electron paramagnetic resonance spin trapping and confocal microscopy of fluorescence-based ROS probes. Innovative assessment of ECM composition and architecture will be achieved using multi-photon microscopy with second harmonic generation to define alignment of collagen and elastin fibers, histological detection of collagen and elastin, and quantification of MMP activity.
The team's pioneering techniques for studying blood vessel biomechanics will be utilized throughout the research design. This study will, for the first time, define and prove that ROS mechanisms mediate the BAV aortopathy. The results will potentiate significant long-term clinical benefits including the development of improved diagnostic tools for earlier detection and better surveillance of the BAV aortopathy and the discovery of pharmacologic therapies directed at modulation of ROS in the aortic wall to prevent aneurysm formation in BAV patients.
描述(由申请人提供):该项目将测试主动脉平滑肌细胞(SMC)中活性氧(ROS)积累介导二叶式主动脉瓣(BAV)患者主动脉病变的假设。该跨学科研究团队拥有独特的专业知识,并设计了一种新颖的方法来证明 BAV 升主动脉瘤 (TAA) 标本中 ROS 的积累会导致 SMC 去分化、异常细胞外基质 (ECM) 组成和结构以及主动脉壁生物力学强度的改变。该假设得到了团队强有力的初步数据的支持,这些数据表明,与三尖瓣主动脉瓣 (TAV)-TAA 和非动脉瘤患者相比,BAV 患者升主动脉中 ROS 积累、ROS 存在下细胞活力降低、氧化应激反应减弱、SMC 去分化、基质结构破坏以及生物力学拉伸和分层强度改变。 患者。该创新策略通过两个目标的方法来实现:1) 定义 SMC 表型、ECM 组成和结构以及生物力学拉伸和分层强度的变化与 BAV 主动脉病中 ROS 积累相关;2) 证明主动脉 SMC 中 ROS 积累介导 BAV 主动脉病。本研究将利用 1) PI 广泛的人类升主动脉标本组织库和从以下患者队列中分离的原发性 SMC:a) BAV-TAA 与 b) 非动脉瘤性 BAV、c) TAV-TAA 和 d) “正常”非动脉瘤性 TAV 进行比较; 2)团队建立的基于支架的3D组织培养模型。将利用研究人员在电子顺磁共振自旋捕获和基于荧光的 ROS 探针的共焦显微镜方面的专业知识来评估 ROS。将使用具有二次谐波生成功能的多光子显微镜来实现对 ECM 成分和结构的创新评估,以确定胶原蛋白和弹性蛋白纤维的排列、胶原蛋白和弹性蛋白的组织学检测以及 MMP 活性的量化。
该团队研究血管生物力学的开创性技术将在整个研究设计中得到运用。这项研究将首次定义并证明 ROS 机制介导 BAV 主动脉病变。这些结果将增强显着的长期临床效益,包括开发改进的诊断工具以更早地检测和更好地监测 BAV 主动脉病,以及发现针对调节主动脉壁中 ROS 以预防 BAV 患者动脉瘤形成的药物疗法。
项目成果
期刊论文数量(0)
专著数量(0)
科研奖励数量(0)
会议论文数量(0)
专利数量(0)
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Thomas Gillette Gleason其他文献
Thomas Gillette Gleason的其他文献
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{{ truncateString('Thomas Gillette Gleason', 18)}}的其他基金
BACTERIAL EXPOSURE, T CELLS AND SURGICAL INFECTION
细菌暴露、T 细胞和手术感染
- 批准号:
2059565 - 财政年份:1996
- 资助金额:
$ 47.86万 - 项目类别:
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