Symbol RORA HUGO 10258 PDB 1N83 | Entrez 6095 OMIM 600825 | |
Alt. symbols RZRA, ROR1, ROR2, ROR3, NR1F1 | ||
The RAR-related orphan receptors (RORs) are members of the nuclear receptor family of intracellular transcription factors. There are three forms of ROR, ROR-α, -β, and -γ and each is encoded by a separate gene RORA, RORB, and RORC respectively). The RORs are somewhat unusual in that they appear to bind as monomers to hormone response elements as opposed to the majority of other nuclear receptors which bind as dimers.
Contents
Ligands
While the identify of natural ligands for the RORs remains controversial, similar to the liver X receptors (LXRs), it appears that the RORs are activated oxysterols. Furthermore, the RORs appear to be constitutively active (absence of ligand) and that activity may be due to continuously bound natural ligands. Side chain oxygenated sterols (e.g., 20α-hydroxycholesterol, 22R-hydroxycholesterol, and 25-hydroxycholesterol) are high affinity RORγ agonists while sterols oxygenated at the 7-position, (e.g., (7-hydroxycholesterol and 7-ketocholesterol) function as inverse agonists for both RORa and RORγ. A number of other natural substances have also been reported to bind to the RORs. These include all-trans retinoic acid binds with high affinity to ROR-β and -γ but not ROR-α. Finally the RORs may function as lipid sensors and hence may play a role in the regulation of lipid metabolism.
Melatonin has been claimed to be an endogenous ligand for ROR-α while CGP 52608 has been identified as a ROR-α selective synthetic ligand.
Tissue distribution
RORα, RORβ, and RORγ are primarily expressed the following tissues:
Function
The three forms of RORs fulfill a number of critical roles including:
As drug targets
A number of synthetic RORγt inverse agonists are in various stages of drug development for the treatment of inflammatory diseases. RORγt agonists have also been proposed for use as immunooncology agents to activate the immune system to treat cancer.