Abstract

The hormone-binding domain of the glucocorticoid receptor must be bound to heat shock protein (hsp) 90 for it to have a high-affinity steroid binding conformation. We have recently demonstrated that hsp70 is required for cell-free assembly of the receptor.hsp90 complex and concomitant activation of steroid binding activity (Hutchison, K.A., Dittmar, K.D., Czar, M.J., and Pratt, W. B. (1994) J. Biol. Chem. 269, 5043-5049). hsp90 and hsp70 are known to exist together in a cytosolic complex containing several other proteins, and in this work we ask if all of the factors required for proper receptor folding and heterocomplex assembly are preassociated in this multiprotein complex. The multiprotein complex was immunoadsorbed to protein A-agarose from rabbit reticulocyte lysate using the 3G3 monoclonal IgM directed against hsp90. When this immunopellet is mixed with immunadsorbed mouse glucocorticoid receptor and incubated at 30 degrees C with ATP/Mg2+ and KCl, the receptor is converted to the steroid binding conformation. When the immunoadsorbed multiprotein hsp90 complex is washed extensively, it loses a weakly bound protein (not hsp70 or hsp90) that is required for receptor activation. This protein factor is contained in a Centricon C-100 filtrate of lysate which reconstitutes the receptor activating activity of the washed hsp90 complex. The hsp90 complex can be released from the 3G3 antibody, and in the presence of the protein factor in the Centricon C-100 filtrate it converts the receptor into a functional heterocomplex with hsp90. The results support the proposal that the various components of reticulocyte lysate that are required to refold the glucocorticoid receptor to the steroid binding state are preassociated with each other, acting as a self-sufficient protein folding machine.

Highlights

  • The hormone-bindingdomain of the glucocorticoidreceptor must be boundto heat shock protein 90 for it to have a high-affinitysteroid binding conformation

  • Chem.269,50434049).hsp9O and hsp7O receptor.hsp90 complex and theconcomitant conversion of the are known to exist together in a cytosolic complex con- glucocorticoid receptor to the steroid bindincgonformation are taining several other proteins, and in this work we asikf dependent upon the presence of another heat shock protein, all of the factors required for proper receptor folding hsp70 [8]

  • It is thoughthat the proteinunfoldase activity and heterocomplex assembly are preassociated in this of hsp70 is required for hsp90 to bind to thehormone-binding multiprotein complex.The multiprotein complexwas immunoadsorbed to protein A-agarose from rabbit reticulocyte lysate using the 363 monoclonal IgM directed against hsp90.When this immunopellet is mixed with immunadsorbed mouse glucocorticoidreceptor and incubated at 30 “C with A T P / ” and KCl, the receptor is converted to the steroid binding conformation

Read more

Summary

EXPERIMENTAL PROCEDURES

Pacity, and with the amount of BuGR we use we immunoadsorbabout 50% of the glucocorticoid receptor with the immunoadsorbed glucocor-. Noadsorbed from 100-pl aliquots of L cell cytosol by overnight incuba- Centricon Filtration of Lysate-To prepare the Centricon C-100 filtion at 0 "C with BuGR2 at a final concentration of 10pg/ml followed by trate, l ml of rabbit reticulocyte lysate was centrifuged in a Centricon the addition of a 20% slurry of protein A-agarose and 0.5 ml of TEG C-100 concentrator at -2000 x g until about 700 p1 of filtrate was buffer (10rm TES, 50 m~ NaC1,4 mM EDTA, 10% glycerol, pH7.6)and present This filtrate was passed through a secondCentricon rotation for 1h at 4 "C. The associated proteins in the hsp heterocomplex were immunoadsorbed from 400-pl aliquots of rabbit reticulocyte lysate by rotating

RESULTS
Findings
Receptor Heterocclmplex Assembly

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.