Nuclear Receptors

Classification

The nuclear receptor superfamily is classified by sequence alignment and phylogenetic tree construction into six main subfamilies:

• Thyroid Hormone Receptor-like: includes thyroid receptor, retinoic acid receptor, PPAR, LXR, FXR, VDR, PXR and CAR
• Retinoid X Receptor-like: includes RXR
• Estrogen Receptor-like (also known as steroid hormone receptors): includes receptors for estrogen (ER), androgen, glucocorticoid, mineralocorticoid and progesterone
• Nerve Growth Factor IB-like
• Steroidogenic Factor-like
• Germ Cell Nuclear Factor-like

Regulation and Disease

Of the 48 nuclear receptors in the human genome, 24 are ligand-dependent transcription factors. The activity of endogenous ligands on nuclear receptors is normally to upregulate gene expression. Upon ligand-binding a conformation change results in the receptor that regulates the recruitment of coregulators and chromatin-modifying machinery. The majority of nuclear receptors bind-sequence specific promoter elements on target genes either as monomers, homodimers or heterodimers with RXR.

Nuclear receptors are important mediators of disease in general, with receptor mutations responsible for a range of diseases. Mutations in the androgen receptor can cause infertility and prostate cancer; mutations in PPAR can result in colon cancer and diabetes mellitus; and mutations in the estrogen receptor can cause breast cancer.