Reconstitution of the steroid receptor.hsp90 heterocomplex assembly system of rabbit reticulocyte lysate.

Rabbit reticulocyte lysate contains a multiprotein system that assembles steroid receptors into a heterocomplex with hsp90. In the case of the glucocorticoid receptor (GR), the receptor must be bound to hsp90 to bind steroid, and assembly of the GR.hsp90 complex restores the hormone binding domain of the receptor to the steroid binding conformation. Using both direct assay of heterocomplex assembly by Western blotting and indirect assay of assembly by steroid binding, it has previously been determined that the assembly system is both ATP/Mg2+-dependent and K+-dependent and that hsp70 and an acidic 23-kDa protein (p23) are required to form a functional GR.hsp90 complex. It is also thought that a 60-kDa protein (p60) may be required for progesterone receptor.hsp90 heterocomplex assembly, but a complete heterocomplex assembly system has never been reconstituted from individual components. In this work, we separate the proteins of rabbit reticulocyte lysate into three fractions by DEAE chromatography and then reconstitute the GR.hsp90 heterocomplex assembly system in a manner that requires the presence of each fraction. Fraction A contains most of the hsp70 and all of the p60 in lysate, and elimination of p60 by immunoadsorption inactivates this fraction, with bioactivity being restored by the addition of bacterially expressed human p60. The activity of fraction A is replaced by a combination of highly purified rabbit hsp70 and lysate from p60-expressing bacteria. Fraction B contains hsp90, and its activity is replaced by purified rabbit hsp90. Fraction C contains p23, and its activity is replaced in the recombined system by highly purified bacterially expressed human p23. A minimal GR.hsp90 heterocomplex assembly system was reconstituted with purified rabbit hsp70 and hsp90 and bacterially expressed human p23 and p60. This reports the first reconstitution of this apparently ubiquitous protein folding/heterocomplex assembly system.