Insights into ectopic estrogen receptor expression, nucleocytoplasmic distribution and interaction with chromatin obtained with new antibodies to estrogen receptors α and β.

Recent reports have indicated that in cells ectopically expressing only ERα or the full-length hormone-binding isoform of ERβ (ERβ1), the receptors interact with chromatin with different efficacies and that antibodies capable of probing such interactions by chromatin immunoprecipitation (ChIP) are scarce. We therefore produced nine subtype and isoform-specific antibodies to ERα or ERβ and validated their performance in receptor probing in cell lines and tissue biopsies by various immunochemical methods, including ChIP. We also produced clones of HEK-293 cells stably transfected with an estrogen response element (ERE)-dependent luciferase reporter and ERα or ERβ1, in order to comparatively study their interaction with reporter ERE.

Estrogenic activity of isoflavonoids from Onobrychis ebenoides.

Fractionation of the neutral extract of Onobrychis ebenoides (Leguminosae) yielded a new isoflavone, named ebenosin (1), in addition to the known ones, afrormosin (2), formononetin (3) and daidzein (4). Although the relative binding affinities of 1 - 4 for estrogen receptor alpha (ERalpha) were nearly comparable and matched those of 1-3 for ERbeta, that of 4 for the latter receptor was significantly higher than any of the other. Compounds 1 - 4 induced cell proliferation and gene expression in breast and endometrial cancer cells in an ER-dependent manner.

Pronounced enhancement of glucocorticoid-induced gene expression following severe heat shock of heat-conditioned cells hints to intricate cell survival tactics.

We have previously reported that severe heat shock of HeLa cells stably transfected with a chloramphenicol acetyltransferase (CAT) gene, transcription of which is controlled by two glucocorticoid-responsive elements and a minimal promoter, pronouncedly enhanced glucocorticoid-induced CAT expression compared to that of non-heated cells, in spite of the glucocorticoid-receptor-mediated transcription of the gene being temporarily compromised by the shock. We now report that prolonged severe heat shock of properly heat-conditioned cells resulted in far more pronounced enhancement of glucocorticoid-induced CAT mRNA and protein expressions, in spite of a similar heat-induced loss of receptor-mediated CAT gene transcription. During recovery from the shock the hormonal activation of transcription exceeded that of non-heated cells.

Maintenance of glucocorticoid receptor function following severe heat-shock of heat-conditioned cells.

The competence of the glucocorticoid receptor to regulate gene expression is thought to depend on Hsp70-driven continuous reactivation following spontaneous inactivation of its hormone-binding state. We show here that the glucocorticoid-binding capacity of HeLa cells fell with increasing temperature in the range 43-45 degrees C in a manner that closely paralleled the loss of soluble receptor protein. Receptor activity was maintained during moderate (43 degrees C) but not severe (45 degrees C) heat shock.