Coupling osteoinductive factors to graft materials to promote osteoregeneration
将骨诱导因子与移植材料偶联以促进骨再生
基本信息
- 批准号:8782796
- 负责人:
- 金额:$ 36.75万
- 依托单位:
- 依托单位国家:美国
- 项目类别:
- 财政年份:2014
- 资助国家:美国
- 起止时间:2014-08-01 至 2019-07-31
- 项目状态:已结题
- 来源:
- 关键词:AddressAdverse effectsAllograftingAmino AcidsAnimalsAutologousBMP2 geneBindingBone CementsBone RegenerationBone TransplantationCalciumCalcium BindingCalvariaCataractCell Culture TechniquesChemicalsChronicClinicalCollagenComplexCoupledCouplingDefectDevelopmentDoseEdemaEmployee StrikesEngineeringFibrosisForeign BodiesFoundationsFractureGoalsHA coatingImmuneImmune responseImplantInflammationLengthMalignant NeoplasmsMandibleMedicineMembraneMesenchymal Stem CellsMethodsModelingMolecularMonitorMutationOperative Surgical ProceduresOrgan Culture TechniquesOrgan TransplantationOsteogenesisPathway interactionsPatientsPeptidesPerformancePlagueProteinsRattusRecombinantsRegenerative MedicineResearchSignal TransductionSiteSourceStem cellsSurfaceSystemTherapeuticTissuesTranslationsTransplanted tissueTreatment outcomeVariantXenograft procedureallogenic bone transplantationangiogenesisbonebone healingbone morphogenetic protein receptorsbone morphogenic proteinbone xenograftcalcificationclinical efficacycostcraniofacialimplant materialimplantable deviceimprovedinhibitor/antagonistinnovationinsightlipid biosynthesismimeticsnew technologynovelosteoblast differentiationosteogenicosteoinductive factorosteoprogenitor cellpreclinical studyprotein aminoacid sequencepublic health relevancereceptor bindingrecombinant peptidereconstitutionregenerativeresponsestemsubcutaneouswound
项目摘要
DESCRIPTION (provided by applicant): Due to limitations associated with autografted bone, allograft, xenograft and alloplast materials are commonly used for bone grafting procedures. However these materials lack osteoinductivity. The proposed research aims to couple osteoinductive factors to the surface of these alternative graft sources in order to enhance osteoregeneration in sites of bone deficiency. Our group is utilizing a unique approach involving the addition of a calcium-binding amino acid domain, heptaglutamate (E7), to an osteoinductive peptide derived from BMP2. Preclinical studies show that graft materials coupled with the E7-modified BMP2 peptide (E7-BMP2pep) stimulated significantly greater new bone synthesis than uncoated materials in both a subcutaneous (ectopic) and mandibular defect model. Importantly, bone formation was comparable to, and in some cases greater than, that induced by graft coated with full-length rBMP2, and no side effects were noted for the E7-BMP2pep group. In contrast, animals implanted with rBMP2 developed chronic inflammation and cataracts. We hypothesize that the E7-BMP2pep is an effective, safe, and readily translatable agent that can be used to enhance the performance of a wide array of bone grafting materials including allograft, xenograft and alloplast. There are two major objectives of this proposal: (1) to comprehensively analyze host response to the E7- BMP2pep in order to advance the research toward translation (Aim 1); and (2) to elucidate the mechanism by which BMP2 mimetic peptides activate osteoprogenitor cells, with the broader goal of identifying a BMP2 derivative with maximal osteoinductive potential. AIM 1: Host response to E7-BMP2pep-coupled graft materials A mandibular defect model will be used to assess the effects of E7-BMP2pep coupled materials on immune and foreign body response, fibrosis, angiogenesis, quantity and quality of newly-formed bone, and implant integration. Dissemination of the peptides and rBMP2 away from the implant site will also be monitored. We hypothesize that E7-BMP2pep will remain tightly localized within the defect, promoting rapid and effective bone healing. AIM 2: Molecular characterization and engineering of BMP2 mimetics to enhance osteoinductive potential Using cell culture and calvarial organ culture systems, the mechanisms by which E7-modified BMP2 mimetic peptides regulate stem/progenitor cells will be elucidated. Additionally, BMP2 peptide variants with activating mutations will be developed, and in complementary studies, an E7 domain will be engineered onto full-length rBMP2 to improve coupling to carriers. These BMP variants will be evaluated for receptor binding activity and induction of cell signaling and osteoblastogenesis. Enhanced osteoinductivity of the variants will be confirmed by mandibular implant studies. The broad goal of Aim 2 is to identify the ideal BMP2 cargo molecule for E7- directed coupling to graft materials.
描述(申请人提供):由于与自体骨移植相关的限制,同种异体骨移植、异种骨移植和同种异体骨材料通常用于骨移植手术。然而,这些材料缺乏骨诱导活性。这项拟议的研究旨在将骨诱导因子偶联到这些替代移植物的表面,以增强骨缺损处的骨再生。我们的团队正在利用一种独特的方法,将钙结合氨基酸结构域--七谷氨酸(E7)添加到从BMP2衍生的骨诱导肽中。临床前研究表明,在皮下(异位)和下颌骨缺损模型中,与E7修饰的BMP2肽(E7-BMP2pep)偶联的移植材料比未包覆的材料刺激更多的新骨合成。重要的是,骨形成与全长rBMP2包被的移植物诱导的骨形成相似,在某些情况下甚至更大,并且E7-BMP2pep组没有发现任何副作用。相比之下,植入rBMP2的动物出现了慢性炎症和白内障。我们推测,E7-BMP2pep是一种有效、安全、易翻译的试剂,可用于提高包括同种异体移植、异种移植和同种异体在内的多种骨移植材料的性能。该方案有两个主要目的:(1)全面分析宿主对E7-BMP2pep的反应,以推进翻译研究(目标1);(2)阐明BMP2模拟肽激活骨祖细胞的机制,更广泛的目标是寻找具有最大成骨诱导潜能的BMP2衍生物。目的1:研究E7-BMP2pep偶联移植材料对宿主的影响E7-BMP2pep偶联材料在下颌骨缺损模型中对免疫和异物反应、纤维化、血管生成、新生骨的数量和质量以及种植体结合的影响。还将监测多肽和rBMP2在远离植入部位的传播情况。我们推测E7-BMP2pep将紧密地定位在缺损区内,促进快速有效的骨愈合。目的:利用细胞培养和颅骨器官培养体系,探讨E7修饰的BMP2模拟肽对干/祖细胞的调控机制。此外,还将开发具有激活突变的BMP2多肽变体,在补充性研究中,将把E7结构域工程到全长rBMP2上,以改善与载体的偶联。这些BMP变异体将被评估为受体结合活性以及细胞信号和成骨细胞的诱导。下颌种植研究将证实这些变体具有更强的骨诱导性。目标2的主要目标是确定理想的BMP2货运分子,用于E7定向偶联到接枝材料。
项目成果
期刊论文数量(0)
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