Establishment of hormone-dependent and hormone-indhpendent carcinoma cell lines with different metastatic potentials from spontaneous mammary tumors in aged wistar rats (original) (raw)

1994, International Journal of Cancer

Three stable carcinoma cell lines, designated RM22-F5, RM17 5R, and RM 1-4, were established from spontaneously occurring mammary carcinomas in old, outbred, female Wistar rats. The RM22-F5 and RM 17-SR cells were keratin-positive and formed epithelial monolayers, whereas RMI-4 cells exhibited a spindle-like morphology and intense vimentin staining. When injected into nude mice, RM22-F5, RM17-5R and RM1-4 cells formed well-differentiated, poorly differentiated and undifferentiated carcinomas, respectively. The relative growth rates of the tumor cells in vitro were RM1-4 > RM22-F5 > RM17-5R. The growth of RM22-F5, but not of RM17-5R and RM1-4 cells, was significantly stimulated by insulin, epidermal growth factor, dexamethasone, 17β-estradiol and progesterone in vitro. Ovariectomy reduced the growth of RM22-F5 cells in vivo and these cells (but not RM1-4 or RM17-5R) were estrogen-receptor (ER)-positive. None of the lines were positive for the progesterone receptor (PR). Spontaneous lung and lymph-node metastases were observed in nude mice injected with RM22-F5 or RM17-5R cells, respectively. In contrast, RM1-4 cells were non-metastatic but invasive. Karyotype analysis revealed that RM22-FS cells were hyperdiploid, RM 17-SR were hypotetraploid, and RM1-4 were diploid with a sizeable insertion in chromosome I. A point mutation in codon 12 (G to A transition) and loss of the normal aliele of the H-ras-1 gene was detected in the DNA from RM22-FS cells. No p53 mutations were apparent in any of the cell lines. The results indicate that RM22-F5 cells are hormone-dependent with an ER+/PR− phenotype, while the RM 17-SR and RM1-4 lines are hormone-independent and ER−/PR. These cell lines exhibit the spectrum of biological properties and genetic alterations observed in human breast cancers and may, therefore, be novel and useful models for understanding sporadic breast cancer in post-menopausal women.