Department of Materials Science and Engineering, University of Delaware, Newark, 19716, USA.
Adv Drug Deliv Rev. 2010 Dec 30;62(15):1530-40. doi: 10.1016/j.addr.2010.05.002. Epub 2010 Jun 1.
In this review, we describe our work on the design, characterization, and modification of a series of alanine-rich helical polypeptides with novel functions. Glycosylation of the polypeptides has permitted investigation of polymer architecture effects on multivalent interactions. One of the members of this polypeptide family exhibits polymorphological behavior that is easily manipulated via simple changes in solution pH and temperature. Polypeptide-based fibrils formed at acidic pH and high temperature were shown to direct the one-dimensional organization of gold nanoparticles via electrostatic interactions. As a precursor to fibrils, aggregates likely comprising alanine-rich cores form at low temperatures and acidic pH and reversibly dissociate into monomers upon deprotonation. PEGylation of these polypeptides does not alter the self-association or conformational behavior of the polypeptide, suggesting potential applications in the development of assembled delivery vehicles, as modification of the polypeptides should be a useful strategy for controlling assembly.
在这篇综述中,我们描述了一系列具有新颖功能的富含丙氨酸的螺旋多肽的设计、表征和修饰工作。多肽的糖基化允许研究聚合物结构对多价相互作用的影响。该多肽家族的一个成员表现出多态性行为,通过简单改变溶液 pH 值和温度即可轻松控制。在酸性 pH 值和高温下形成的基于多肽的原纤维被证明可以通过静电相互作用指导金纳米粒子的一维组织。作为原纤维的前体,在低温和酸性 pH 值下可能形成包含富含丙氨酸的核心的聚集体,并在去质子化时可逆地解离成单体。这些多肽的聚乙二醇化不会改变多肽的自组装或构象行为,这表明它们在组装式递药载体的开发中有潜在的应用,因为多肽的修饰应该是控制组装的有用策略。