Cytoskeleton in vitro: preparation of isolated cytoskeletons with three-dimensional architecture.

Abstract

Cytoskeletons with three-dimensional architecture were isolated from cultured normal rat kidney cells. The preparation procedure consisted of Triton-demembranization of suspended cells followed by differential and sucrose density gradient centrifugation. By using higher (0.5%) and lower (0.1%) Triton concentrations for demembranization, two kinds of isolated cytoskeletons (CSK), called H-CSK and L-CSK, respectively, were prepared. H-CSK and L-CSK displayed unique morphology and protein composition. Three classes of cytoskeletal filaments, microfilaments, intermediate filaments, and microtubules were shown to be major components in the electron microscopic images of the H-CSK. Stereoscopic electron microscopy of the H-CSK, dried by the critical point method, revealed that the cytoskeletal filaments are arranged in three-dimensional configurations even after isolation in vitro. Two-dimensional gel electrophoresis demonstrated that the H-CSK was composed mainly of actin, tubulin, and vimentin, reflecting its basic architecture. Electron microscopic images of L-CSK were more intricate than images of the H-CSK and showed, in addition to the filament types discussed above, anastomosing networks of short filamentous structures. These short filaments, with diameters of 3-8 nm and lengths of 30-150 nm, seemed to cross-link other elements of the cytoskeleton. The morphology of these short filaments resembles that of microtrabeculae observed in situ. Two-dimensional gels of the L-CSK showed over 100 protein spots when the gels were stained by the silver method. Subsequent treatment of the L-CSK with 0.5% Triton removed the microtrabeculae-like materials leaving as a residue the basic cytoskeleton similar to the H-CSK. Our observations indicate that microtrabeculae are composed of heterogenous proteins associated, in some instances, with a core structure of actin.