Cytoplasmic microtubules in transformed mouse x nontransformed human cell hybrids: correlation with in vitro growth.

Patterns of cytoplasmic microtubules in somatic cell hybrids between transformed mouse cells and nontransformed human skin fibroblasts were examined using antitubulin antibodies as an immunofluorescent probe. Nontransformed cells have been shown to exhibit an extensive cytoplasmic microtubule complex (CMTC), while in transformed cells, this complex is greatly diminished. The hybrid populations contained both types of cells. In addition, they contained cells with previously undescribed intermediate CMTC phenotypes. The percentage of each phenotype present in hybrid populations was determined for sixteen hybrid clones. Seven clones were found which appeared transformed on the basis of their CMTC pattern. The others were comprised of various proportions of all the cell types described. Repeated quantitation of the proportions of these types in the hybrid populations showed them to be stable with time in culture. Growth in vitro of the hybrid clones was assayed by determining their saturation densities, their plating efficiencies on plastic and their colony-forming abilities in soft agar. In vitro growth of a cell population was found to be directly proportional to the percentage of cells in the population which showed the greatly diminished CMTC pattern which has been described for transformed cells. This is strong evidence that a greatly reduced CMTC is associated with transformed behavior, especially the increased capacity of transformed cells for in vitro growth.