Nicotinic acid– and monomethyl fumarate–induced flushing involves GPR109A expressed by keratinocytes and COX-2–dependent prostanoid formation in mice
Julien Hanson, … , Angela Wirth, Stefan Offermanns
Julien Hanson, … , Angela Wirth, Stefan Offermanns
Published July 26, 2010
Citation Information: J Clin Invest. 2010;120(8):2910-2919. https://doi.org/10.1172/JCI42273.
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Research Article

Nicotinic acid– and monomethyl fumarate–induced flushing involves GPR109A expressed by keratinocytes and COX-2–dependent prostanoid formation in mice

Abstract

The antidyslipidemic drug nicotinic acid and the antipsoriatic drug monomethyl fumarate induce cutaneous flushing through activation of G protein–coupled receptor 109A (GPR109A). Flushing is a troublesome side effect of nicotinic acid, but may be a direct reflection of the wanted effects of monomethyl fumarate. Here we analyzed the mechanisms underlying GPR109A-mediated flushing and show that both Langerhans cells and keratinocytes express GPR109A in mice. Using cell ablation approaches and transgenic cell type–specific GPR109A expression in Gpr109a–/– mice, we have provided evidence that the early phase of flushing depends on GPR109A expressed on Langerhans cells, whereas the late phase is mediated by GPR109A expressed on keratinocytes. Interestingly, the first phase of flushing was blocked by a selective cyclooxygenase-1 (COX-1) inhibitor, and the late phase was sensitive to a selective COX-2 inhibitor. Both monomethyl fumarate and nicotinic acid induced PGE2 formation in isolated keratinocytes through activation of GPR109A and COX-2. Thus, the early and late phases of the GPR109A-mediated cutaneous flushing reaction involve different epidermal cell types and prostanoid-forming enzymes. These data will help to guide new efficient approaches to mitigate nicotinic acid–induced flushing and may help to exploit the potential antipsoriatic effects of GPR109A agonists in the skin.

Authors

Julien Hanson, Andreas Gille, Sabrina Zwykiel, Martina Lukasova, Björn E. Clausen, Kashan Ahmed, Sorin Tunaru, Angela Wirth, Stefan Offermanns

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Figure 2

GPR109A expressed by Langerhans cells mediates only the early phase of nicotinic acid–induced flushing.

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GPR109A expressed by Langerhans cells mediates only the early phase of n...
(A) Experimental scheme. At 1 day after irradiation, Langerin-DTR mice were transplanted with BM from WT or Gpr109a–/– mice carrying in both cases Gpr109amRFP (reporter). At 3 months after transplantation, both groups were treated with DT, and 3 months later, nicotinic acid–induced flushing was evaluated. LC, Langerhans cells; kerat, keratinocytes. (B) Fluorescence image of epidermal sheet from transplanted animals before DT treatment stained with an anti–MHC-II antibody and analyzed for mRFP expression. (C and D) Nicotinic acid (250 μg/g) induced flushing in both experimental groups before DT treatment. (E) Fluorescent images of epidermal sheets of transplanted animals stained with anti–MHC-II antibodies and analyzed for mRFP expression 3 months after DT treatment. (F and G) Effect of nicotinic acid on flushing in mice transplanted with WT and Gpr109a–/– BM 3 months after DT treatment. Scale bars: 20 μm. Data are representative of at least 3 independent experiments. Results in D and G are mean ± SEM (n ≥ 6). **P ≤ 0.01.