Department of Surgery, Wisconsin Institutes for Medical Research, School of Medicine and Public Health, University of Wisconsin Madison, Madison, WI 53705-2275, USA.
J Voice. 2012 May;26(3):269-75. doi: 10.1016/j.jvoice.2011.05.003. Epub 2011 Jun 25.
Elastic fibers are large, complex, and surprisingly poorly understood extracellular matrix macromolecules. The elastin fiber, generated from a single human gene--elastin, is a self assembling integral protein that endows critical mechanical proprieties to elastic tissues and organs such as the skin, lungs, and arteries. The biology of elastic fibers is complex because they have multiple components, a tightly regulated developmental deposition, a multistep hierarchical assembly, and unique biomechanical functions. Elastin is present in vocal folds, where it plays a pivotal role in the quality of phonation. This review article provides an overview of the genesis of elastin and its wide-ranging structure and function. Specific distribution within the vocal fold lamina propria across the lifespan in normal and pathological states and its contribution to vocal fold biomechanics will be examined. Elastin and elastin-derived molecules are increasingly investigated for their application in tissue engineering. The properties of various elastin-based materials will be discussed and their current and future applications evaluated. A new level of understanding of the biomechanical properties of vocal fold elastin composites and their molecular basis should lead to new strategies for elastic fiber repair and regeneration in aging and disease.
弹性纤维是大型、复杂且出人意料地理解不足的细胞外基质大分子。弹性蛋白纤维由一个人类基因——弹性蛋白生成,是一种自我组装的完整蛋白,为皮肤、肺和动脉等弹性组织和器官赋予关键的机械特性。弹性纤维的生物学特性很复杂,因为它们有多个组成部分、受严格调控的发育沉积、多步骤的层次组装以及独特的生物力学功能。弹性蛋白存在于声带中,在发声质量中起着关键作用。本文综述了弹性蛋白的起源及其广泛的结构和功能。将检查其在正常和病理状态下在声带固有层中的特定分布及其对声带生物力学的贡献。弹性蛋白和弹性蛋白衍生分子因其在组织工程中的应用而受到越来越多的研究。将讨论各种基于弹性蛋白的材料的特性,并评估它们的当前和未来应用。对声带弹性纤维复合材料的生物力学特性及其分子基础的深入了解,应该会为衰老和疾病中的弹性纤维修复和再生提供新策略。