Kielty C M, Whittaker S P, Grant M E, Shuttleworth C A
Department of Biochemistry and Molecular Biology, School of Biological Sciences, University of Manchester, England.
J Cell Biol. 1992 Aug;118(4):979-90. doi: 10.1083/jcb.118.4.979.
Type VI collagen, a widespread structural component of connective tissues, has been isolated in abundance from fetal bovine skin by a procedure involving bacterial collagenase digestion under nonreducing, nondenaturing conditions and gel filtration chromatography. Rotary shadowing electron microscopic analysis revealed that the collagen VI was predominantly in the form of extensive intact microfibrillar arrays. These microfibrils were seen in association with hyaluronan, which was identified by its ability to bind the G1 fragment of cartilage proteoglycan. Treatment with highly purified hyaluronidase largely disrupted the collagen VI microfibrils into component tetramers, double tetramers, and short microfibrillar sections. Subsequent incubation of disrupted collagen VI in the presence of hyaluronan facilitated a partial repolymerization of the microfibrils. In vitro binding studies have also demonstrated that type VI collagen binds hyaluronan with a relatively high affinity. These studies demonstrate that a specific structural relationship exists between type VI collagen and hyaluronan. This association is likely to be of primary importance in the growth and remodeling processes of connective tissues.
VI型胶原是结缔组织中广泛存在的一种结构成分,通过一种在非还原、非变性条件下进行细菌胶原酶消化及凝胶过滤层析的方法,已从胎牛皮肤中大量分离出来。旋转阴影电子显微镜分析表明,VI型胶原主要以广泛完整的微原纤维阵列形式存在。这些微原纤维与透明质酸相关联,透明质酸是通过其结合软骨蛋白聚糖G1片段的能力来鉴定的。用高度纯化的透明质酸酶处理后,VI型胶原微原纤维在很大程度上被破坏成四聚体、双四聚体和短的微原纤维片段。随后在透明质酸存在的情况下孵育被破坏的VI型胶原,促进了微原纤维的部分重新聚合。体外结合研究也表明,VI型胶原与透明质酸以相对较高的亲和力结合。这些研究表明,VI型胶原与透明质酸之间存在特定的结构关系。这种关联在结缔组织的生长和重塑过程中可能至关重要。