Your search keyword '"Bridget Stensgard"' showing total 2 results

1. The involvement of p23, hsp90, and immunophilins in the assembly of progesterone receptor complexes

Author

Bridget Stensgard, Ronald Corbisier, David O. Toft, and Jill L. Johnson

Subjects

Reticulocytes, Macromolecular Substances, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Biology, Biochemistry, DNA-binding protein, Cell-free system, Tacrolimus Binding Proteins, Cyclophilins, Mice, chemistry.chemical_compound, Adenosine Triphosphate, Endocrinology, Immunophilins, Reticulocyte, Progesterone receptor, medicine, Animals, Humans, HSP70 Heat-Shock Proteins, HSP90 Heat-Shock Proteins, Molecular Biology, Heat-Shock Proteins, Amino Acid Isomerases, Prostaglandin-E Synthases, Molybdenum, Peptidylprolyl isomerase, Cell-Free System, Antibodies, Monoclonal, Cell Biology, Peptidylprolyl Isomerase, Phosphoproteins, Hsp90, DNA-Binding Proteins, Intramolecular Oxidoreductases, medicine.anatomical_structure, chemistry, biology.protein, Molecular Medicine, Rabbits, Carrier Proteins, Receptors, Progesterone, Chickens, Adenosine triphosphate, Cyclophilin D, Molecular Chaperones

Abstract

To better understand the assembly mechanism for the progesterone receptor (PR), we have developed cell-free systems for studying interactions of PR, hsp90, and other associated proteins. When PR is incubated in rabbit reticulocyte lysate, its association with hsp90, hsp70, the three immunophilins FKBP54, FKBP52 and CyP-40, and with p23 is observed. These interactions require ATP Mg 2+ and when ATP is limiting the PR complex is altered to one containing the proteins p60 and p48, but lacking immunophilins and p23. We have studied two pre-formed hsp90 complexes that may participate in the assembly of PR complexes. One contains hsp90 bound to hsp70 and p60 and this complex forms spontaneously in the absence of ATP. A second complex contains hsp90 bound to p23 plus the three immunophilins and some hsp70. The formation of this complex requires ATP. In further studies we have shown that purified hsp90 can bind to purified p23 and this interaction requires both ATP and molybdate. This explains, in part, the known effects of ATP and molybdate on assembly of PR complexes.

Published

1996

2. Assembly of progesterone receptor with heat shock proteins and receptor activation are ATP mediated events

Author

David F. Smith, Bridget Stensgard, David O. Toft, and W J Welch

Subjects

chemistry.chemical_classification, Cell Biology, Biology, Biochemistry, Hsp90, Hsp70, Cell-free system, Enzyme, medicine.anatomical_structure, chemistry, Reticulocyte, Heat shock protein, Progesterone receptor, polycyclic compounds, medicine, biology.protein, Receptor, Molecular Biology

Abstract

To better understand assembly mechanisms of progesterone receptor (PR) complexes, we have developed a cell-free system for studying PR interactions with the 90- and 70-kDa heat shock proteins (hsp90 and hsp70), and we have used this system to examine requirements for hsp90 binding to PR. Purified chick PR, free of hsp90 and immobilized on an antibody affinity resin, will rebind hsp90 in rabbit reticulocyte lysate when several conditions are met. These include: 1) absence of progesterone, 2) elevated temperature (30 degrees C), 3) presence of ATP, and 4) presence of Mg2+. We have obtained maximal hsp90 binding to receptor when lysate is supplemented with 3 mM MgCl2 and an ATP-regenerating system. ATP depletion of lysate by dialysis or by enzymatic means blocks hsp90 binding to PR; likewise, addition of EDTA to lysate blocks hsp90 binding, but binding is restored by the addition of excess Mg2+. Addition to lysate of monoclonal antibody against hsp70 inhibits hsp90 binding to PR and destabilizes preformed complexes. Stabilization of hsp90-receptor complexes also requires ATP, indicating that ATP and hsp70 are needed to form and to maintain hsp90 complexes. Hormone-dependent activation of reconstituted receptor complexes was also examined. The addition of progesterone to the reticulocyte lysate promotes dissociation of hsp90 and hsp70 from the receptor. This also appears to require ATP and dissociation is most efficient in the presence of an ATP-regenerating system. In conclusion, these studies indicate that PR-hsp90 complexes do not self-assemble; instead, assembly is probably a multistep process requiring ATP and other cellular factors.

Published

1992