Hisanaga S, Hirokawa N
Department of Anatomy and Cell Biology, Faculty of Medicine, University of Tokyo, Japan.
J Mol Biol. 1990 Feb 20;211(4):871-82. doi: 10.1016/0022-2836(90)90080-6.
Reassembly of the neurofilament (NF) in vitro was studied by low-angle rotary shadowing electron microscopy. Various intermediate stages of the reassembly were reconstructed from the smallest molecular mass subunit (NF-L) under controlled reassembly conditions. NF-L in 6 M-urea took the form of spherical particles with a diameter of about 12 nm. NF-L aggregated into rodlets of 70 to 80 nm long in a low-salt solution at alkaline pH. By reducing the pH of the dialyzing solution to 6.6, a pair of rods was formed by association side-by-side. Increasing the temperature of low-salt solutions from 4 degrees C to 35 degrees C did not produce intermediate-sized filaments. The addition of Mg2+ to the dialyzing solution resulted in the formation of short intermediate-sized filaments even at 4 degrees C. Further dialysis of the short intermediate-sized filaments against reassembly solution containing both NaCl and MgCl2 at 37 degrees C failed to elongate them into longer filaments, suggesting that annealing does not contribute to the elongation of neurofilaments. Different roles for Mg+ and NaCl in neurofilament reassembly were indicated. While Mg2+ strengthened the lateral association between 70 to 80 nm rods, NaCl appeared to promote the end-to-end association of filaments preferentially. Longer filaments were formed by increasing the NaCl concentration. By dialyzing NF-L against a buffer containing 50 mM-NaCl in the absence of Mg2+, unraveled filaments were formed. The many unraveled filaments were composed of four 8 nm wide filaments, which have been called the subfilament or the protofibril. Time-course experiments of the reassembly were performed in the absence of Mg2+, in which condition the rate of neurofilament reassembly appeared to be reduced. Star-like clusters, about four protofibrils joined together at one end, were suggested to be the initial stage of the intermediate-sized filament formation. The following two-step elongation mechanism of neurofilaments was deduced from these results. The pairs of rods were added to the ends of the protofibrils of neurofilaments, and after all four protofibrils were elongated they were then packed into neurofilaments. Distribution of larger molecular mass subunits, NF-M and NF-H, was studied. Addition of NF-M or NF-H to NF-L did not change the assembly properties of neurofilaments. Unraveled filaments reconstituted from NF-L plus either NF-M or NF-H indicated that NF-M and NF-H are incorporated evenly into each protofibril.
通过低角度旋转阴影电子显微镜对神经丝(NF)的体外重装配进行了研究。在可控的重装配条件下,从最小分子量亚基(NF-L)重建了重装配的各个中间阶段。6M尿素中的NF-L呈直径约12nm的球形颗粒形式。在碱性pH的低盐溶液中,NF-L聚集成70至80nm长的小杆。通过将透析溶液的pH降至6.6,一对小杆并排结合形成。将低盐溶液的温度从4℃提高到35℃未产生中等大小的细丝。向透析溶液中添加Mg2+即使在4℃也导致形成短的中等大小的细丝。将短的中等大小的细丝在37℃下进一步透析含有NaCl和MgCl2的重装配溶液未能使其伸长为更长的细丝,这表明退火对神经丝的伸长没有作用。指出了Mg+和NaCl在神经丝重装配中的不同作用。虽然Mg2+加强了70至80nm小杆之间的侧向结合,但NaCl似乎优先促进细丝的端对端结合。通过增加NaCl浓度形成了更长的细丝。在不存在Mg2+的情况下,将NF-L透析到含有50mM-NaCl的缓冲液中,形成了解开状的细丝。许多解开状的细丝由四条8nm宽的细丝组成,这些细丝被称为亚细丝或原纤维。在不存在Mg2+的情况下进行了重装配的时间进程实验,在这种条件下神经丝重装配的速率似乎降低了。星状簇,即大约四条原纤维在一端连接在一起,被认为是中等大小细丝形成的初始阶段。从这些结果推导出神经丝的以下两步伸长机制。小杆对被添加到神经丝原纤维的末端,并且在所有四条原纤维伸长后,它们然后被包装成神经丝。研究了较大分子量亚基NF-M和NF-H的分布。向NF-L中添加NF-M或NF-H不会改变神经丝的装配特性。由NF-L加NF-M或NF-H重构的解开状细丝表明NF-M和NF-H均匀地掺入每个原纤维中。
