Electrophoretic analysis of the estrogen receptor. Relationship of multiple receptor forms to the molybdate-stabilized form.

Abstract

The origin of and relationships among multiple forms of the estrogen receptor from rat uteri were investigated using electrophoretic and conventional hydrodynamic methods of analysis. Evidence is presented that the molybdate-stabilized, multimeric receptor (Stokes radius approximately 70A; S20,w approximately 9.5 S; Mr approximately 290,000) corresponds to an acidic form of the receptor that has relatively high electrophoretic mobility. This discrete form, which appears to represent the untransformed state that does not bind to DNA, was converted to a number of derived forms by exposure to conditions that result in receptor transformation and/or subunit dissociation. In crude cytosol, transformation always generated receptor forms that were excluded from polyacrylamide gels, and it was shown that these are large heterogeneous aggregates. This explains previous failed attempts to analyze the receptor by polyacrylamide gel electrophoresis. Transformation of partially purified, molybdate-stabilized receptor never led to aggregate formation, but resulted instead in the generation of two relatively basic estrogen-binding species of low electrophoretic mobility. These components may represent the free or dissociated estrogen-binding subunits. Together, the results suggest a model for the molybdate-stabilized receptor wherein at least one of its components is an acidic, nonestrogen-binding subunit.