Litcius/Paper detail

Nuclear Hormone Receptors and Their Ligands: Metabolites in Control of Transcription

Lian Tao, Dong Eun Seo, Ben Jackson, Natalia Ivanova, Fabio R. Santori

2020Cells38 citationsDOIOpen Access PDF

Abstract

Nuclear hormone receptors are a family of transcription factors regulated by small molecules derived from the endogenous metabolism or diet. There are forty-eight nuclear hormone receptors in the human genome, twenty of which are still orphans. In this review, we make a brief historical journey from the first observations by Berthold in 1849 to the era of orphan receptors that began with the sequencing of the Caenorhabditis elegans genome in 1998. We discuss the evolution of nuclear hormone receptors and the putative ancestral ligands as well as how the ligand universe has expanded over time. This leads us to define four classes of metabolites—fatty acids, terpenoids, porphyrins and amino acid derivatives—that generate all known ligands for nuclear hormone receptors. We conclude by discussing the ongoing efforts to identify new classes of ligands for orphan receptors.

Topics & Concepts

Nuclear receptorReceptorBiologyCaenorhabditis elegansRhodopsin-like receptorsTranscription factorHormone receptorClass C GPCRPELP-1GenomeHormoneComputational biologyGeneticsBiochemistryCell biologyGeneMetabotropic receptorGlutamate receptorCancerBreast cancerNuclear Receptors and SignalingCholesterol and Lipid MetabolismEstrogen and related hormone effects