Synthesis of Human Progesterone Receptors in T47D Cells: Nascent A- and B-receptors are Active without a Phosphorylation-dependent Post-translational Maturation Step

Abstract

Abstract Human progesterone receptors (PR) are structurally complex. At basal states there are two forms: A-receptors of approximately 94 kDa and B-receptors which are triplets of approximately 114, 117, and 120 kDa. All the proteins bind hormone and are phosphorylated. By using PR-rich T47Dco human breast cancer cells, pulse-labeling with [35S]methionine, and receptor immunopurification with anti-PR monoclonal antibodies, we show that PR are synthesized as single B-proteins of 114 kDa and single A-proteins of 94 kDa. The mature B-triplets form 6-10 h later by post-translational phosphorylation at sites restricted to the B-proteins. This slow maturation is not required for PR activation to hormone binding states, however, since A- and B-receptors that are less than 15 min old respond to progestins by undergoing transformation and nuclear binding accompanied by a rapid secondary phosphorylation common to both proteins. These studies explain the complex structure of the mature human B-receptors and the transformed A- and B-receptors, and address issues dealing with A- and B-proreceptor synthesis and receptor activation rates.