Abstract
Two prostaglandin (PG) H synthases encoded by Ptgs genes, colloquially known as cyclooxygenase (COX)-1 and COX-2, catalyze the formation of PG endoperoxide H2, the precursor of the major prostanoids. To address the functional interchangeability of these two isoforms and their distinct roles, we have generated COX-2>COX-1 mice whereby Ptgs2 is knocked in to the Ptgs1 locus. We then “flipped” Ptgs genes to successfully create the Reversa mouse strain, where knock-in COX-2 is expressed constitutively and knock-in COX-1 is lipopolysaccharide (LPS) inducible. In macrophages, flipping the two Ptgs genes has no obvious impact on COX protein subcellular localization. COX-1 was shown to compensate for PG synthesis at high concentrations of substrate, whereas elevated LPS-induced PG production was only observed for cells expressing endogenous COX-2. Differential tissue-specific patterns of expression of the knock-in proteins were evident. Thus, platelets from COX-2>COX-1 and Reversa mice failed to express knock-in COX-2 and, therefore, thromboxane (Tx) production in vitro and urinary Tx metabolite formation in COX-2>COX-1 and Reversa mice in vivo were substantially decreased relative to WT and COX-1>COX-2 mice. Manipulation of COXs revealed isoform-specific compensatory functions and variable degrees of interchangeability for PG biosynthesis in cells/tissues.
Highlights
Two prostaglandin (PG) H synthases encoded by Ptgs genes, colloquially known as cyclooxygenase (COX)-1 and COX-2, catalyze the formation of PG endoperoxide H2, the precursor of the major prostanoids
A COX-1>COX-2 mouse strain was previously established by replacing exons 1–9 of Ptgs2 with the entire Ptgs1 cDNA [19]
We generated a, so-called, Reversa mouse line, where Ptgs1 and Ptgs2 genes substitute for one another to discriminate between the distinct roles of COX isoforms
Summary
Two prostaglandin (PG) H synthases encoded by Ptgs genes, colloquially known as cyclooxygenase (COX)-1 and COX-2, catalyze the formation of PG endoperoxide H2, the precursor of the major prostanoids. Flipping the cyclooxygenase (Ptgs) genes reveals isoform-specific compensatory functions. Colloquially known as cyclooxygenase (COX)-1 and COX-2 for their capacity to produce a variety of prostanoids from arachidonic acid (AA). These two isoforms catalyze the same reactions, bis-oxygenation and peroxidation, to produce a key intermediate PGH2 [1,2,3]. A single amino acid difference opens a distinct hydrophobic “side-pocket” for substrate access in COX-2 [11] Both isoforms are anchored in the endoplasmic reticulum and nuclear membrane [12], but COX-2 resides in the Golgi apparatus [13].
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