Perichromosomal layer proteins associate with chromosome scaffold and nuclear matrix throughout the cell cycle

Abstract

According to the radial loop model of chromosome organization, a major role in the formation and maintenance of chromosomes is played by the residual structures (the nuclear matrix in interphase nuclei and the chromosome scaffold in metaphase chromosomes). However, in vivo microscopy has recently revealed that the components of these “static” structures are highly mobile and continuously exchanged between specific target sites and the nucleoplasm or cytoplasm. This contradiction between predicted stability and observed dynamics led us to reexamine the principles underlying the association of proteins with residual structures. In the present paper, we have analyzed the association of two perichromosomal layer proteins, pKi-67 and B23, with the residual structures. The results show that these two proteins are associated with residual structures throughout the cell cycle; only those structures change that contain proteins precipitated by 2 M NaCl (nucleoli, perichromosomal layer, prenucleolar bodies, cytoplasm of mitotic cells). Both pKi-67 and B23 remain associated with the nuclear matrix even when they are translocated to nucleoplasmic foci due to inhibitor action or hypotonic treatment. However, in most cases it remains possible to extract a structurally visible protein fraction with 2 M NaCl (protein distributed in nucleoplasm). One may suppose that the protein fraction associated with residual structures includes molecules interacting with their binding sites at the moment of permeabilization, while the free proteins are extracted (i.e., during the interaction with binding sites, these proteins form salt-resistant complexes; however, on diffusion the same proteins are extractable by the high-salt solution). The residual structures may be considered as a “snapshot” of all proteins transiently (or statically) bound to their target sites at the moment of permeabilization.