Lamandé S R, Sigalas E, Pan T C, Chu M L, Dziadek M, Timpl R, Bateman J F
Orthopaedic Molecular Biology Research Unit, Department of Paediatrics, University of Melbourne, Royal Children's Hospital, Parkville, Victoria 3052, Australia.
J Biol Chem. 1998 Mar 27;273(13):7423-30. doi: 10.1074/jbc.273.13.7423.
Collagen VI is a microfibrillar protein found in the extracellular matrix of virtually all connective tissues. Three genetically distinct subunits, the alpha1(VI), alpha2(VI), and alpha3(VI) chains, associate intracellularly to form triple-helical monomers, which then assemble into disulfide-bonded dimers and tetramers before secretion. Although sequence considerations suggest that collagen VI monomers composed of all three chains are the most stable isoform, the precise chain composition of collagen VI remains controversial and alternative assemblies containing only alpha1(VI) and alpha2(VI) chains have also been proposed. To address this question directly and study the role of the alpha3(VI) chain in assembly, we have characterized collagen VI biosynthesis and in vitro matrix formation by a human osteosarcoma cell line (SaOS-2) that is deficient in alpha3(VI) production. Northern analysis showed an abundance of alpha1(VI) and alpha2(VI) mRNAs, but no detectable alpha3(VI) mRNA was apparent in SaOS-2 cells. By day 30 of culture, however, small amounts of alpha3(VI) mRNA were detected, although the level of expression was still much less than alpha1(VI) and alpha2(VI). Collagen VI protein was not detected in SaOS-2 medium or cell layer samples until day 30 of culture, demonstrating that despite the abundant synthesis of alpha1(VI) and alpha2(VI), no stable collagen VI protein was produced without expression of alpha3(VI). The alpha1(VI) and alpha2(VI) chains produced in the absence of alpha3(VI) were non-helical and were largely retained intracellularly and degraded. The critical role of the alpha3(VI) chain in collagen VI assembly was directly demonstrated after stable transfection of SaOS-2 cells with an alpha3(VI) cDNA expression construct that lacked 4 of the 10 N-terminal type A subdomains. The transfected alpha3(VI) N6-C5 chains associated with endogenous alpha1(VI) and alpha2(VI) and formed collagen VI dimers and tetramers, which were secreted and deposited into an extensive network in the extracellular matrix. These data demonstrated that alpha3(VI) is essential for the formation of stable collagen VI molecules and subdomains N10-N7 are not required for molecular assembly.
胶原蛋白VI是一种微纤维蛋白,存在于几乎所有结缔组织的细胞外基质中。三种基因不同的亚基,即α1(VI)、α2(VI)和α3(VI)链,在细胞内缔合形成三螺旋单体,然后在分泌前组装成二硫键连接的二聚体和四聚体。尽管从序列上考虑,由所有三条链组成的胶原蛋白VI单体是最稳定的异构体,但胶原蛋白VI的确切链组成仍存在争议,也有人提出了仅包含α1(VI)和α2(VI)链的替代组装形式。为了直接解决这个问题并研究α3(VI)链在组装中的作用,我们通过一种缺乏α3(VI)产生的人骨肉瘤细胞系(SaOS-2)对胶原蛋白VI的生物合成和体外基质形成进行了表征。Northern分析显示α1(VI)和α2(VI) mRNA丰富,但在SaOS-2细胞中未检测到可检测到的α3(VI) mRNA。然而,到培养第30天时,检测到少量的α3(VI) mRNA,尽管表达水平仍远低于α1(VI)和α2(VI)。直到培养第30天,在SaOS-2培养基或细胞层样品中才检测到胶原蛋白VI蛋白,这表明尽管α1(VI)和α2(VI)大量合成,但没有α3(VI)的表达就不会产生稳定的胶原蛋白VI蛋白。在没有α3(VI)的情况下产生的α1(VI)和α2(VI)链是非螺旋的,并且大部分保留在细胞内并被降解。在用缺少10个N端A型亚结构域中的4个的α3(VI) cDNA表达构建体稳定转染SaOS-2细胞后,直接证明了α3(VI)链在胶原蛋白VI组装中的关键作用。转染的α3(VI) N6-C5链与内源性α1(VI)和α2(VI)缔合并形成胶原蛋白VI二聚体和四聚体,这些二聚体和四聚体被分泌并沉积到细胞外基质中的广泛网络中。这些数据表明α3(VI)对于稳定的胶原蛋白VI分子的形成至关重要,并且分子组装不需要N10-N7亚结构域。
