Cyclooxygenases, microsomal prostaglandin E synthase-1, and cardiovascular function
Yan Cheng, Miao Wang, Ying Yu, John Lawson, Colin D. Funk, Garret A. FitzGerald
Yan Cheng, Miao Wang, Ying Yu, John Lawson, Colin D. Funk, Garret A. FitzGerald
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Research Article Cardiology

Cyclooxygenases, microsomal prostaglandin E synthase-1, and cardiovascular function

Abstract

We investigated the mechanisms by which inhibitors of prostaglandin G/H synthase-2 (PGHS-2; known colloquially as COX-2) increase the incidence of myocardial infarction and stroke. These inhibitors are believed to exert both their beneficial and their adverse effects by suppression of PGHS-2–derived prostacyclin (PGI2) and PGE2. Therefore, the challenge remains to identify a mechanism whereby PGI2 and PGE2 expression can be suppressed while avoiding adverse cardiovascular events. Here, selective inhibition, knockout, or mutation of PGHS-2, or deletion of the receptor for PGHS-2–derived PGI2, was shown to accelerate thrombogenesis and elevate blood pressure in mice. These responses were attenuated by COX-1 knock down, which mimics the beneficial effects of low-dose aspirin. PGE2 biosynthesis is catalyzed by the coordinate actions of COX enzymes and microsomal PGE synthase-1 (mPGES-1). We show that deletion of mPGES-1 depressed PGE2 expression, augmented PGI2 expression, and had no effect on thromboxane biosynthesis in vivo. Most importantly, mPGES-1 deletion affected neither thrombogenesis nor blood pressure. These results suggest that inhibitors of mPGES-1 may retain their antiinflammatory efficacy by depressing PGE2, while avoiding the adverse cardiovascular consequences associated with PGHS-2–mediated PGI2 suppression.

Authors

Yan Cheng, Miao Wang, Ying Yu, John Lawson, Colin D. Funk, Garret A. FitzGerald

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Figure 3

PGHS-2 disruption or inhibition promotes thrombogenesis and hypertension and modulation effect of PGHS-1 KD.

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PGHS-2 disruption or inhibition promotes thrombogenesis and hypertensio...
(A) Circulating platelets before and 2 minutes after injection of collagen (12.5 and 25 μg/kg) plus epinephrine (15 μg/ml, 100 μl) into WT, PGHS-2Y385F, and PGHS-2 KO mice on a mixed C57BL/6 × 129/Sv background. Thrombocytopenia was more pronounced (**P < 0.01) in PGHS-2–disrupted mice. Sudden death was induced more commonly (**P < 0.01) within 15 minutes of U46619 injection in PHGS-2–deleted or –mutated mice. (B) The time to thrombotic carotid artery occlusion after photochemical injury was delayed in PGHS-1 KD mice (**P < 0.01) but accelerated by DFU treatment (#P < 0.05). The time to occlusion in DFU-treated animals was delayed in the PGHS-1 KD group compared with WT controls (**P < 0.01), while the time to occlusion in DFU-treated PGHS-1 KD mice did not differ significantly from that in vehicle-treated WT controls on a mixed C57BL/6 × 129/Sv background. (C) Systolic blood pressure, as measured by the tail cuff method, was elevated significantly in 3-month-old PGHS-2 KO, PGHSY385F, and celecoxib-treated (100 mg/kg/d for 30 days) mice as compared with WT mice on a mixed C57BL/6 × 129/Sv background (*P < 0.05; **P < 0.01). The hypertensive effect of celecoxib was attenuated in PGHS-1 KD mice compared with that in WT (##P < 0.01) mice.