Niacin and biosynthesis of PGD2 by platelet COX-1 in mice and humans
Wen-Liang Song, … , Ellen Puré, Garret A. FitzGerald
Wen-Liang Song, … , Ellen Puré, Garret A. FitzGerald
Published March 12, 2012
Citation Information: J Clin Invest. 2012;122(4):1459-1468. https://doi.org/10.1172/JCI59262.
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Research Article Cardiology

Niacin and biosynthesis of PGD2 by platelet COX-1 in mice and humans

Abstract

The clinical use of niacin to treat dyslipidemic conditions is limited by noxious side effects, most commonly facial flushing. In mice, niacin-induced flushing results from COX-1–dependent formation of PGD2 and PGE2 followed by COX-2–dependent production of PGE2. Consistent with this, niacin-induced flushing in humans is attenuated when niacin is combined with an antagonist of the PGD2 receptor DP1. NSAID-mediated suppression of COX-2–derived PGI2 has negative cardiovascular consequences, yet little is known about the cardiovascular biology of PGD2. Here, we show that PGD2 biosynthesis is augmented during platelet activation in humans and, although vascular expression of DP1 is conserved between humans and mice, platelet DP1 is not present in mice. Despite this, DP1 deletion in mice augmented aneurysm formation and the hypertensive response to Ang II and accelerated atherogenesis and thrombogenesis. Furthermore, COX inhibitors in humans, as well as platelet depletion, COX-1 knockdown, and COX-2 deletion in mice, revealed that niacin evoked platelet COX-1–derived PGD2 biosynthesis. Finally, ADP-induced spreading on fibrinogen was augmented by niacin in washed human platelets, coincident with increased thromboxane (Tx) formation. However, in platelet-rich plasma, where formation of both Tx and PGD2 was increased, spreading was not as pronounced and was inhibited by DP1 activation. Thus, PGD2, like PGI2, may function as a homeostatic response to thrombogenic and hypertensive stimuli and may have particular relevance as a constraint on platelets during niacin therapy.

Authors

Wen-Liang Song, Jane Stubbe, Emanuela Ricciotti, Naji Alamuddin, Salam Ibrahim, Irene Crichton, Maxwell Prempeh, John A. Lawson, Robert L. Wilensky, Lars Melholt Rasmussen, Ellen Puré, Garret A. FitzGerald

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Figure 1

Human platelets generate PGD2, and PGD2 inhibits human platelet aggregation.

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Human platelets generate PGD2, and PGD2 inhibits human platelet aggregat...
(A) PGD2 was produced ex vivo by human platelets after aggregation stimulated by 10 μM ADP, 10 μM arachidonic acid (AA), 10 μM collagen (CA), and 10 μM thrombin receptor–activating peptide (TRAP), while pretreatment with 100 μM aspirin (ASA) for 10 minutes prior to addition of the platelet agonist completely suppressed production of PGD2 (n = 4 per group). (B) Urinary PGDM was suppressed by administration of 81 mg/d aspirin orally for 5 days (n = 17). Suppression of urinary PGDM attained after dosing on day 5 was sustained for the entire 24 hours (P < 0.001), consistent with a substantial contribution from anucleated platelets to this metabolite. Cre, creatinine. (C) Urinary dinor-TxM was suppressed by administration of 81 mg/d aspirin orally for 5 days (n = 17). Suppression of urinary dinor-TxM attained after dosing on day 5 was sustained for the entire 24 hours (P < 0.001), consistent with a dominant contribution from anucleate platelets to this metabolite. (D) Urinary PGIM was suppressed by administration of 81 mg/d aspirin orally for 5 days (n = 17). Suppression of urinary PGIM was sustained for only 4 hours after dosing on day 5 (P < 0.05), consistent with a dominant contribution from nucleated cells to this metabolite.