Heitlinger E, Peter M, Häner M, Lustig A, Aebi U, Nigg E A
M. E. Müller-Institute, University of Basel, Switzerland.
J Cell Biol. 1991 May;113(3):485-95. doi: 10.1083/jcb.113.3.485.
Chicken lamin B2, a nuclear member of the intermediate-type filament (IF) protein family, was expressed as a full-length protein in Escherichia coli. After purification, its structure and assembly properties were explored by EM, using both glycerol spraying/low-angle rotary metal shadowing and negative staining for preparation, as well as by analytical ultracentrifugation. At its first level of structural organization, lamin B2 formed "myosin-like" 3.1S dimers consisting of a 52-nm-long tail flanked at one end by two globular heads. These myosin-like molecules are interpreted to represent two lamin polypeptides interacting via their 45-kD central rod domains to form a segmented, parallel and unstaggered 52-nm-long two-stranded alpha-helical coiled-coil, and their COOH-terminal end domains folding into globular heads. At the second level of organization, lamin B2 dimers associated longitudinally to form polar head-to-tail polymers. This longitudinal mode of association of laminin dimers is in striking contrast to the lateral mode of association observed previously for cytoplasmic IF dimers. At the third level of organization, these polar head-to-tail polymers further associated laterally, in an approximately half-staggered fashion, to form filamentous and eventually paracrystal-like structures revealing a pronounced 24.5-nm axial repeat. Finally, following up on recent studies implicating the mitotic cdc2 kinase in the control of lamin polymerization (Peter, M., J. Nakagawa, M. Dorée, J. C. Labbé, and E. A. Nigg. 1990. Cell. 61:591-602), we have examined the effect of phosphorylation by purified cdc2 kinase on the assembly properties and molecular interactions of the bacterially expressed lamin B2. Phosphorylation of chicken lamin B2 by cdc2 kinase interferes with the head-to-tail polymerization of the lamin dimers. This finding supports the notion that cdc2 kinase plays a major, direct role in triggering mitotic disassembly of the nuclear lamina.
鸡层粘连蛋白B2是中间丝(IF)蛋白家族的一个核成员,在大肠杆菌中表达为全长蛋白。纯化后,通过电子显微镜(EM)研究其结构和组装特性,制备时使用甘油喷雾/低角度旋转金属阴影法和负染色法,同时也通过分析超速离心法进行研究。在其结构组织的第一个层次上,层粘连蛋白B2形成了“肌球蛋白样”的3.1S二聚体,由一条52纳米长的尾巴组成,一端两侧各有两个球状头部。这些肌球蛋白样分子被解释为代表两条层粘连蛋白多肽通过其45-kD的中央杆状结构域相互作用,形成一个分段的、平行且未交错的52纳米长的双链α-螺旋卷曲螺旋,其COOH末端结构域折叠成球状头部。在组织的第二个层次上,层粘连蛋白B2二聚体纵向结合形成极性头对尾聚合物。层粘连蛋白二聚体的这种纵向结合模式与之前观察到的细胞质IF二聚体的横向结合模式形成了鲜明对比。在组织的第三个层次上,这些极性头对尾聚合物进一步以大约半交错的方式横向结合,形成丝状并最终形成类副晶体结构,显示出明显的24.5纳米轴向重复。最后,基于最近涉及有丝分裂cdc2激酶对层粘连蛋白聚合控制的研究(彼得,M.,中川,J.,多雷,M.,拉贝,J.C.,和尼格,E.A. 1990. 细胞. 61:591 - 602),我们研究了纯化的cdc2激酶磷酸化对细菌表达的层粘连蛋白B2的组装特性和分子相互作用的影响。cdc2激酶对鸡层粘连蛋白B2的磷酸化干扰了层粘连蛋白二聚体的头对尾聚合。这一发现支持了cdc2激酶在触发核纤层有丝分裂解体中起主要直接作用的观点。