Tsilibary E C, Charonis A S
J Cell Biol. 1986 Dec;103(6 Pt 1):2467-73. doi: 10.1083/jcb.103.6.2467.
Type IV collagen incubated at elevated temperatures in physiologic buffers self-associates (a) via its carboxy-terminal (NC1) domain, (b) via its amino-terminal (7S) domain, and (c) laterally; and it forms a network. When examined with the technique of rotary shadowing, isolated domain NC1 was found to bind along the length of type IV collagen to four distinct sites located at intervals of approximately 100 nm each. The same 100-nm distance was observed in domain NC1 of intact type IV collagen bound along the length of the collagen molecules during initial steps of network formation and in complete networks. The presence of anti-NC1 Fab fragments in type IV collagen solutions inhibited lateral association and network formation in rotary shadow images. During the process of self-association type IV collagen develops turbidity; addition of isolated domain NC1 inhibited the development of turbidity in a concentration-dependent manner. These findings indicate that domain NC1 of type IV collagen plays an important role in the process of self-association and suggest that alterations in the structure of NC1 may be partially responsible for impaired functions of basement membranes in certain pathological conditions.
IV型胶原蛋白在生理缓冲液中于高温下孵育时会发生自缔合:(a) 通过其羧基末端(NC1)结构域,(b) 通过其氨基末端(7S)结构域,以及 (c) 侧向自缔合;并形成一个网络。当用旋转阴影技术检测时,发现分离的NC1结构域沿着IV型胶原蛋白的长度与四个不同的位点结合,这些位点彼此间隔约100 nm。在网络形成的初始步骤以及完整网络中,沿着胶原蛋白分子长度结合的完整IV型胶原蛋白的NC1结构域中也观察到相同的100 nm间距。IV型胶原蛋白溶液中抗NC1 Fab片段的存在抑制了旋转阴影图像中的侧向缔合和网络形成。在自缔合过程中,IV型胶原蛋白会出现浊度;添加分离的NC1结构域以浓度依赖的方式抑制了浊度的产生。这些发现表明,IV型胶原蛋白的NC1结构域在自缔合过程中起重要作用,并表明在某些病理条件下,NC1结构的改变可能部分导致基底膜功能受损。