用于再生医学的自组装肽支架。
Self-assembling peptide scaffolds for regenerative medicine.
机构信息
Institute for BioNanotechnology in Medicine, Northwestern University, Chicago, IL 60611, USA.
出版信息
Chem Commun (Camb). 2012 Jan 4;48(1):26-33. doi: 10.1039/c1cc15551b. Epub 2011 Nov 14.
Abstract
Biomaterials made from self-assembling, short peptides and peptide derivatives have great potential to generate powerful new therapies in regenerative medicine. The high signaling capacity and therapeutic efficacy of peptidic scaffolds has been established in several animal models, and the development of more complex, hierarchical structures based on peptide materials is underway. This highlight discusses several classes of self-assembling peptide-based materials, including peptide amphiphiles, Fmoc-peptides, self-complementary ionic peptides, hairpin peptides, and others. The self-assembly designs, bioactive signalling strategies, and cell signalling capabilities of these bioactive materials are reported. The future challenges of the field are also discussed, including short-term goals such as integration with biopolymers and traditional implants, and long term goals, such as immune system programming, subcellular targeting, and the development of highly integrated scaffold systems.
摘要
自组装短肽和肽衍生物制成的生物材料在再生医学中具有产生强大新疗法的巨大潜力。在几种动物模型中已经证实了肽支架的高信号传导能力和治疗功效,并且正在基于肽材料开发更复杂的层次结构。这一重点讨论了几类基于自组装肽的材料,包括肽两亲物、Fmoc-肽、自互补离子肽、发夹肽等。报道了这些生物活性材料的自组装设计、生物活性信号策略和细胞信号转导能力。还讨论了该领域的未来挑战,包括短期目标,如与生物聚合物和传统植入物的整合,以及长期目标,如免疫系统编程、亚细胞靶向和高度集成的支架系统的开发。
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2
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Curr Opin Solid State Mater Sci. 2011 Dec;15(6):225-235. doi: 10.1016/j.cossms.2011.08.001.
3
Enzyme Directed Templating of Artificial Bone Mineral.酶促人工骨矿物质模板化
Adv Mater. 2009 Jan 26;21(4):425-430. doi: 10.1002/adma.200802242.
4
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