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Coordinated expression of intermediate biomarkers for tumorigenic transformation in RAS-transfected mouse mammary epithelial cells (1991)

Telang, Nitin T. ; Narayanan, Ramaswamy ; Leon Bradlow, H. ; [et al.]

Springer

Breast cancer research and treatment 18 (1991), S. 155-163

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ISSN: 1573-7217

Keywords: mammary epithelial cells ; RAS-transfection ; biomarkers ; tumorigenicity

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Deregulated expression of the RAS oncogene is associated with tumorigenic transformation of mammary cells. Because of the complex, multiphasic nature of cancer progression, it is important to systematically identify the biomarkers specific for initiation, promotion, and progression of breast cancer. Mouse mammary epithelial cells (MMEC) were transfected with normal c-Ha-RAS proto oncogene (pH06N) and with mutant c-Ha-RAS oncogene (pH06T). The parental MMEC and the cloned transfectants pH06N1, pH06N2, pH06T1, and pH06T12 were evaluated for the acquisition of transformed characteristics by determining altered cellular metabolism of estradiol, increased ability for anchorage-independent growth, and ability to form tumors at the transplant site in athymic ‘nude’ mice. Persistent, functional integration of c-Ha-RAS was evidenced by the presence of a 1.2 kb c-Ha-RAS transcript in the four transfectants but not in MMEC. All the transfectants also exhibited a substantial increase in the binding of c-Ha-RAS p21 to [α-32P] GTP relative to MMEC (P〈0.003). The relative extent of estradiol metabolism leading to the formation of 16α-hydroxyestrone was increased (P〈0.004) in all the four transfectants. These four transfectants also showed a 100–400 fold increase in colony forming efficiency in 0.33% agar, relative to MMEC (P〈0.0009), and formed rapidly growing tumors within 3–5 weeks of transplantation. Our results demonstrate that i) persistent expression of normal and mutant c-Ha-RAS can bring about tumorigenic transformation of mouse mammary epithelial cells; and ii) alteration in estradiol metabolism and acquisition of anchorage-independent growth precede the emergence of a tumorigenic phenotype. These endpoints therefore may constitute useful intermediate biomarkers to examine oncogene-induced tumorigenic transformation of mammary epithelial cells.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01990031

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In vitro biotransformation of estradiol by explant cultures of murine mammary tissues (1989)

Telang, Nitin T. ; Bradlow, H. Leon ; Kurihara, Hiroaki ; [et al.]

Springer

Breast cancer research and treatment 13 (1989), S. 173-181

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ISSN: 1573-7217

Keywords: estradiol metabolism ; mammary tissue ; explant culture

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In vivo experiments have demonstrated a correlation between the extent of 16α-hydroxylation of estradiol and incidence of mammary cancer. The ability of mammary ductal epithelium (MDE), the site for neoplastic transformation, to metabolize estradiol or to accumulate estradiol metabolites has not been unequivocally established. Using a newly developed mammary explant culture system and a radiometric assay, we have compared the site-specific metabolism of estradiol (E2) by the C-17-oxidation and C-16α-hydroxylation pathways in mouse tissues that differ in relative risk for mammary cancer. A comparison between MDE (target tissue) and liver (nontarget tissue) from NFS (low risk) and C3H/ouj (high risk) mice revealed that: a) increase in C-17-oxidation was similar in MDE and liver from the two strains, and b) while C-16α-hydroxylation was similar in liver from the two strains (p = 0.5, n.s.), it was increased 4-fold in the MDE from the high risk C3H/ouj strain relative to that from the low risk NFS strain (p = 0.001). Furthermore,in vivo administration of progesterone resulted in modulation of cell proliferation as well as of E2 metabolism in mammary explant cultures. The effect of progesterone depended upon the presence of the MtV-2 proviral gene. This study demonstrates that mammary explants can extrahepatically metabolize estradiol. The specific risk-related increase in C-16α-hydroxylation suggests that intrinsic metabolic ability of the target tissue leading to the formation of 16α-hydroxyestrone from estradiol may be a determinant in the relative risk for developing mammary cancer.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01806529

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