Progesterone receptor (PgR) is an important clinical marker of endocrine responsiveness and disease prognosis in breast cancer. PgR is also a key regulatory protein in breast cancer cells since it is known to be regulated by estrogens and is the presumed mediator of progestin growth inhibitory effects. We are, therefore, seeking monoclonal antibodies (MAb's) to human PgR for use in development of new clinical assays of PgR in breast tumors and as probes to examine structural and functional properties of receptor not presently accessible by conventional hormone-binding methods of receptor detection. Multiple strategies will be taken to produce a library of MAb's against different functional and structural domains on the receptor molecule. (1) The receptor-hormone complex will be purified from T47D human breast cancer cells by steroid affinity chromatography and used as immunogen to produce MAb's to determinants on the native molecule. (2) To force production of MAb's to the receptor hormone-binding site, anti-idiotypic MAb's will be produced against anti-progesterone antibodies (anti-anti-progesterone). Some of these anti-idiotypes are expected to cross react with the hormone binding site of PgR. (3) Partial proteolytic digestion fragments of PgR will be isolated from SDS-polyacrylamide gels and the individual peptides used as immunogen to produce MAb's to pre-defined structural regions of receptor and to determinants on denatured receptor normally occluded in the native molecule. Selected MA's will be used for ultimate purification of homogeneous human PgR by antibody affinity chromatography. The library of MAb's will be used for structural mapping of the functional domains of receptor polypeptides (i.e., DNA and steroid binding sites) and for critical examination of receptor subunit structure. Finally, MAb's will be used to probe presently inaccessible aspects of receptor dynamics in the cell including, biosynthesis, down regulation, assembly and relationship between A and B-subunits, and mechanism of estrogen regulation. Receptor MAb's will be utilized for the development of an ELISA assay for quantification of PgR in breast tumors and an immunohistochemical procedure for localization of PgR in breast tumor sections. Present methods for clinical assay of PgR often require more tissue than is sometimes available, are expensive and time consuming, are complicated by problems of stability of hormone binding sites, and do not permit histological detection of PgR in the usual heterogeneous tumor specimen. We are seeking, therefore, to develop simpler and more powerful immunological methods for clinical detection of PgR in patient tumors.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
1R01CA041386-01
Application #
3181813
Study Section
Biochemical Endocrinology Study Section (BCE)
Project Start
1986-03-01
Project End
1989-02-28
Budget Start
1986-03-01
Budget End
1987-02-28
Support Year
1
Fiscal Year
1986
Total Cost
Indirect Cost
Name
University of Colorado Denver
Department
Type
Schools of Medicine
DUNS #
065391526
City
Aurora
State
CO
Country
United States
Zip Code
80045
Nordeen, S K; Bona, B J; Beck, C A et al. (1995) The two faces of a steroid antagonist: when an antagonist isn't. Steroids 60:97-104
Edwards, D P; Weigel, N L; Nordeen, S K et al. (1993) Modulators of cellular protein phosphorylation alter the trans-activation function of human progesterone receptor and the biological activity of progesterone antagonists. Breast Cancer Res Treat 27:41-56
Beck, C A; Estes, P A; Bona, B J et al. (1993) The steroid antagonist RU486 exerts different effects on the glucocorticoid and progesterone receptors. Endocrinology 133:728-40
Beck, C A; Weigel, N L; Moyer, M L et al. (1993) The progesterone antagonist RU486 acquires agonist activity upon stimulation of cAMP signaling pathways. Proc Natl Acad Sci U S A 90:4441-5
Beck, C A; Weigel, N L; Edwards, D P (1992) Effects of hormone and cellular modulators of protein phosphorylation on transcriptional activity, DNA binding, and phosphorylation of human progesterone receptors. Mol Endocrinol 6:607-20
Weigel, N L; Beck, C A; Estes, P A et al. (1992) Ligands induce conformational changes in the carboxyl-terminus of progesterone receptors which are detected by a site-directed antipeptide monoclonal antibody. Mol Endocrinol 6:1585-97
Edwards, D P; Estes, P A; Fadok, V A et al. (1992) Heat shock alters the composition of heteromeric steroid receptor complexes and enhances receptor activity in vivo. Biochemistry 31:2482-91
Onate, S A; Estes, P A; Welch, W J et al. (1991) Evidence that heat shock protein-70 associated with progesterone receptors is not involved in receptor-DNA binding. Mol Endocrinol 5:1993-2004
Christensen, K; Estes, P A; Onate, S A et al. (1991) Characterization and functional properties of the A and B forms of human progesterone receptors synthesized in a baculovirus system. Mol Endocrinol 5:1755-70
Edwards, D P; DeMarzo, A M; Onate, S A et al. (1991) Mechanisms controlling steroid receptor binding to specific DNA sequences. Steroids 56:271-8

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