PMID: 6403233May 1, 1983Paper

Increased DNA binding of the estrogen receptor in an estrogen-resistant mammary cancer

Cancer Research
P P BaskevitchH Rochefort

Abstract

In the C3H mouse mammary adenocarcinoma, estradiol cannot induce the progesterone receptor, and the tumor growth rate is not decreased by ovariectomy. To find an explanation for this estrogen resistance, we have compared the estrogen receptor (ER) from this tumor to the ER of uterus and of the mammary tumors induced in rats by dimethylbenz(a)anthracene. Since the ER concentration of the C3H tumor is low (congruent to 20 fmol/mg protein), we have used iodoestradiol of high specific activity to label the receptor. Several criteria of ER activation were studied. The dissociation rates of estradiol with or without sodium molybdate were similar in all tissues. In metrizamide isopycnic gradients, ER from rat uterus and C3H tumor had a similar density, both in the presence or absence of DNA. The binding of ER to DNA-cellulose was analyzed by incubating to equilibrium a constant amount of ER with a variable amount of DNA, the cellulose concentration being kept constant. The saturation data were plotted according to the method of Scatchard. The apparent affinity for DNA of the cytosol ER was similar for the rat dimethylbenz(a)anthracene tumors and the uterus (Kd congruent to 10 microM) but was significantly higher for the C3H tumor ER (...Continue Reading

Related Concepts

Related Feeds

Breast Tumorigenesis

Breast tumorigenesis involves the production or formation of tumor(s) in breast tissue. Discover the latest research on breast tumorigenesis here.