Gabriel Gregory J, Som Abhigyan, Madkour Ahmad E, Eren Tarik, Tew Gregory N
Polymer Science & Engineering Department, University of Massachusetts, 120 Governors Drive, Amherst, MA 01003.
Mater Sci Eng R Rep. 2007 Aug 1;57(1-6):28-64. doi: 10.1016/j.mser.2007.03.002.
Infectious disease is a critically important global healthcare issue. In the U.S. alone there are 2 million new cases of hospital-acquired infections annually leading to 90,000 deaths and 5 billion dollars of added healthcare costs. Couple these numbers with the appearance of new antibiotic resistant bacterial strains and the increasing occurrences of community-type outbreaks, and clearly this is an important problem. Our review attempts to bridge the research areas of natural host defense peptides (HDPs), a component of the innate immune system, and biocidal cationic polymers. Recently discovered peptidomimetics and other synthetic mimics of HDPs, that can be short oligomers as well as polymeric macromolecules, provide a unique link between these two areas. An emerging class of these mimics are the facially amphiphilic polymers that aim to emulate the physicochemical properties of HDPs but take advantage of the synthetic ease of polymers. These mimics have been designed with antimicrobial activity and, importantly, selectivity that rivals natural HDPs. In addition to providing some perspective on HDPs, selective mimics, and biocidal polymers, focus is given to the arsenal of biophysical techniques available to study their mode of action and interactions with phospholipid membranes. The issue of lipid type is highlighted and the important role of negative curvature lipids is illustrated. Finally, materials applications (for instance, in the development of permanently antibacterial surfaces) are discussed as this is an important part of controlling the spread of infectious disease.
传染病是一个极其重要的全球医疗保健问题。仅在美国,每年就有200万例医院获得性感染新病例,导致9万人死亡,并增加了50亿美元的医疗成本。再加上新的抗生素耐药菌株的出现以及社区型疫情的日益增多,显然这是一个重要问题。我们的综述试图在天然宿主防御肽(HDPs)(先天免疫系统的一个组成部分)和杀菌阳离子聚合物的研究领域之间架起桥梁。最近发现的HDPs的肽模拟物和其他合成模拟物,既可以是短寡聚物,也可以是聚合大分子,在这两个领域之间提供了独特的联系。这类模拟物中一个新兴的类别是表面两亲聚合物,其旨在模拟HDPs的物理化学性质,但利用了聚合物合成的简便性。这些模拟物被设计具有抗菌活性,重要的是,其选择性可与天然HDPs相媲美。除了对HDPs、选择性模拟物和杀菌聚合物提供一些观点外,还重点介绍了可用于研究它们的作用方式以及与磷脂膜相互作用的一系列生物物理技术。突出了脂质类型的问题,并说明了负曲率脂质的重要作用。最后,讨论了材料应用(例如,在开发永久性抗菌表面方面),因为这是控制传染病传播的一个重要部分。