Background: The glucocorticoid receptor (GR) is able to participate in regulation of transcription by a variety of mechanisms, one of which involves DNA binding and recruitment of regulatory cofactors. The best-studied forms of the receptor are the 777-amino-acid alpha and the 742-amino-acid beta variants. The beta isoform, which does not bind cortisol in human subjects, has been proposed to be a dominant-negative inhibitor of the transcriptional activation-competent GRalpha isoform.
Objective: GRalpha has roles in both transcriptional activation and repression. We wished to determine the influence of GRbeta on genes that are normally transcriptionally repressed by glucocorticoids. We studied IL5 and IL13, which both contribute to the asthmatic phenotype.
Methods: We used transient transfection systems and coimmunoprecipitation experiments to determine whether GRbeta has repressive activity on the promoters of the human IL5 and IL13 genes.
Results: GRbeta is able to act as a transcriptional repressor of cytokine genes and mediates its function through the recruitment of histone deacetylase complexes.
Conclusion: GRalpha and GRbeta act in a similar manner on IL5 and IL13 promoters, serving to repress transcription. In this circumstance GRbeta does not act as a dominant-negative inhibitor of GRalpha.