Nitric oxide-dependent vasodilation is compromised in isolated pulmonary arteries from COX knockout mice

Will Wright, Louise Susan MacKenzie, N.S. Kirkby, Jane A. Mitchell

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Abstract

Cyclooxygenase (COX) has two isoforms and is essential for prostanoid synthesis. COX-1 is constitutive whilst COX-2 is induced in inflammation. Two COX products, prostacyclin (PGI2) and thromboxane (TxA2), regulate vessel tone; PGI2 mediates vasodilation and platelet inhibition, and TxA2 opposes this. PGI2 therapies are used in pulmonary arterial hypertension (PAH). Endogenous TxA2/PGI2 has been linked to PAH in animal models, but the mechanism and isoform involved is debated. We hypothesized that pulmonary artery (PA) from COX-1–/– and COX-2–/– mice would have altered vasodilatory function compared with wild-type (WT; C57Bl6) mice. Vasomotor responses to contractile and relaxant agents were measured by myography. PA from all mice responded similarly to contraction by high potassium or the TxA2 mimetic, U46619. Relaxation to PGI2 receptor or PPARβ/ agonists was also similar in all PAs. However, COX-1–/– and, to a lesser extent, COX-2–/– PA had impaired vasodilation to acetylcholine (ACh), which stimulates endothelial nitric oxide (NO) release, and COX-1–/– PA also dilated less to sodium nitroprusside (SNP); an NO donor that works on smooth muscle (Fig 1). These data indicate an interaction between COX and NO sensing pathways in pulmonary vessels, and have implications for our understanding of PAH.
Original languageEnglish
Article numberlb603
Number of pages1
JournalFASEB Journal
Volume27
Publication statusPublished - Apr 2013

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