Y. Nagasawa et al., Transformation and morphological changes of murine L cells by transfectionwith a mutated form of beta-catenin, CANCER RES, 59(15), 1999, pp. 3539-3542
To shed light on the oncogenic nature of mutant beta-catenin, we introduced
a form of the cDNA that lacked an entire exon 3 into L cells derived from
murine s.c. tissue, Aberrant beta-catenin protein accumulated in the cytopl
asm and nuclei of these cells (designated L-MT), whereas in L cells transfe
cted with wild-type beta-catenin (designated L-N), normal beta-catenin prot
ein was expressed at a level similar to that of parental cells. L-MT cells
also changed morphologically from a fibroblast-like appearance to a more cu
boidal shape. Their rate of proliferation was the same as that of L cells a
nd L-N cells, but the saturation density of L-MT cells appeared to increase
in association with a multilayer growth pattern. Furthermore, L-MT cells r
equired a lower concentration of serum in the growth medium than did parent
al cells, These alterations in cell growth and morphology suggested that mu
tated beta-catenin was stabilized in the transfected cells and induced the
oncogenic phenotype.