Abstract
The presence of intramolecular disulfides in different functional states of the native glucocorticoid receptor in the absence of added oxidants has been examined on nonreducing SDS-polyacrylamide gels. Possible disulfides were trapped by the reaction of thiols in crude receptor solutions with methyl methanethiolsulfonate or iodoacetamide. The presence of diffuse bands at lower molecular weights than either the fully reduced or the thiol-blocked species for both the intact 98-kDa receptor and the 42-kDa chymotryptic fragment was diagnostic of an intramolecular disulfide(s) that had undergone thiol-disulfide rearrangements. However, both the rearrangements and the formation of intramolecular disulfides were found to occur only with denatured receptors during gel analysis. It appears that the thiols normally complexed with zinc in the zinc fingers may be recruited for disulfide bond formation. Finally, even when a documented intramolecular disulfide was formed in solutions of the native protein, thiol-disulfide rearrangements did not occur. The tertiary structure of the receptor is thus constituted in a manner that not only limits the formation of disulfides but also prevents the usually facile rearrangements of disulfide bond-containing structures to receptor forms that may have greatly reduced activity. Therefore, although intramolecular disulfide bonds may be of transitory importance, the structural or functional changes of native glucocorticoid receptors that are associated with steroid binding, activation, and dissociation of heat shock protein 90 neither involve nor require the formation or reduction of stable intramolecular disulfides.
Highlights
Tor in thaebsence of added oxidants habs een examined Most intracellular proteins do not contain an intramolecon nonreducing Sodium dodecyl sulfate (SDS)-polyacrylamide gels
The receptors were visualized by Western blotting with aP1 antireceptor antibody, folsteroid-free rat glucocorticoid receptors were observed on SDS-polyacrylamide gel electrophoresis gels under nonreducing conditions (Fig. lA), just as we have reported previously [22]
The formation of these lower molecular weight species involves the reaction of free thiols, as shown by the ability of added thiols (DTT in lane 2) or methyl methanethiolsulfonate (MMTS) to block lowed byperoxidase staining (A,B ),or by fluorography ( C ) .The two bands a t M,
Summary
Tor in thaebsence of added oxidants habs een examined Most intracellular proteins do not contain an intramolecon nonreducing SDS-polyacrylamide gels. The DNA binding of BPV type 1 E2 protein It appears form of NF-KB[51]. Require the formation or reduction of stable intramo- The first step of glucocorticoid hormone action is steroid lecular disulfides
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