Flushing out the role of GPR109A (HM74A) in the clinical efficacy of nicotinic acid.

The recent discovery of the G(i) protein-coupled receptor GPR109A (HM74A in humans; PUMA-G in mice) as a receptor for nicotinic acid has provided the opportunity to gain greater understanding of the underlying biology contributing to the clinical efficacy (increases in HDL, decreases in VLDL, LDL, and triglycerides) and the characteristic side-effect profile of nicotinic acid. GPR109A has been proven to be the molecular target for the actions of nicotinic acid on adipose tissue, and in this issue of the JCI, Benyó et al. have confirmed the involvement of GPR109A in the nicotinic acid-induced flushing response, a common side effect.

Identification of a nicotinic acid receptor: is this the molecular target for the oldest lipid-lowering drug?

Nicotinic acid has been used clinically for over 40 years in the treatment of dyslipidemia, producing a desirable normalization of a range of cardiovascular risk factors. The precise mechanism of action of nicotinic acid is unknown, although it is believed that activation of a Gi-type G protein-coupled receptor, resulting in the inhibition of adipocyte lipolysis, may contribute. This review describes the identification of this elusive receptor, and outlines the evidence suggesting that this may be the molecular target for the clinical effects of nicotinic acid.

Molecular identification of high and low affinity receptors for nicotinic acid.

Nicotinic acid has been used clinically for over 40 years in the treatment of dyslipidemia producing a desirable normalization of a range of cardiovascular risk factors, including a marked elevation of high density lipoprotein and a reduction in mortality. The precise mechanism of action of nicotinic acid is unknown, although it is believed that activation of a G(i)-G protein-coupled receptor may contribute. Utilizing available information on the tissue distribution of nicotinic acid receptors, we identified candidate orphan receptors.

The Orphan G protein-coupled receptors GPR41 and GPR43 are activated by propionate and other short chain carboxylic acids.

GPR41 and GPR43 are related members of a homologous family of orphan G protein-coupled receptors that are tandemly encoded at a single chromosomal locus in both humans and mice. We identified the acetate anion as an agonist of human GPR43 during routine ligand bank screening in yeast. This activity was confirmed after transient transfection of GPR43 into mammalian cells using Ca(2+) mobilization and [(35)S]guanosine 5'-O-(3-thiotriphosphate) binding assays and by coexpression with GIRK G protein-regulated potassium channels in Xenopus laevis oocytes.