Showing papers by "Jürgen M. Lehmann published in 1991"

Identification of Retinoids with Nuclear Receptor Subtype-selective Activities

Abstract: Retinoic acid (RA) and its synthetic analogues, retinoids, have shown promising results in the prevention of epithelial carcinogenesis and in the treatment of acute promyelocytic leukemia and various proliferative skin disorders. Retinoid action on gene regulation is mediated by three distinct nuclear retinoic acid receptor subtypes, RA receptors α, β, and γ. The existence of multiple RA receptors has raised the possibility that receptor subtype-specific retinoids with reduced side effects can be developed. To analyze the activity of retinoids at the molecular level, we used a receptor activation assay. RA and 22 retinoids were compared on the three receptor subtypes. We found the α receptor to be least sensitive to activation by RA and the γ receptor to be most sensitive. Compared with RA, one of the retinoids showed increased activity for the α and β receptors. Three retinoids revealed no gene activation activity and showed no antagonistic effects when assayed in the presence of RA. Surprisingly, several of the retinoids were efficient activators of the β and γ receptors but poor activators or nonactivators of the α receptor. Our data demonstrate that the three RA receptor subtypes have differential ligand activation specificities and that the design of receptor subtype-selective retinoids is possible.

Antagonism between retinoic acid receptors.

Abstract: In the developing mouse, retinoic acid receptors (RARs) beta and gamma 1 are expressed in characteristic spatiotemporal patterns which are correlated with different developmental fates of the respective tissues. Understanding the cues that regulate the expression of the various RARs may therefore provide insights into the process of tissue diversification. Transcription of RAR beta is rapidly upregulated through a retinoic acid-responsive element (here referred to as the beta RARE) in its promoter. Like RAR alpha and RAR beta, RAR gamma 1 has been implicated in the activation of the beta RARE. Therefore, it is puzzling that RAR beta and RAR gamma 1 appear to be expressed in reciprocal patterns. In the present report, we show that RAR gamma 1, one of the two predominant RAR gamma isoforms, can inhibit the activity of RAR gamma 2, RAR beta, and endogenous RAR on the beta RARE. In contrast, the three RAR gamma isoforms tested and RAR beta activated a palindromic thyroid hormone response element with similar levels of efficiency. The differential activity of RAR gamma 1 compared with that of RAR beta appears to reside in both the N-terminal and the C-terminal halves of RAR gamma 1. RAR gamma 1-mediated inhibition of other RARs may involve competition for the response element as well as direct interaction with other receptors and might be part of a regulatory system contributing to the characteristic tissue distribution of the various RARs.