Cyclooxygenase (COX) is the central enzyme in the biosynthetic pathway to p
rostaglandins (PGs) from arachidonic acid (AA). This protein was purified m
ore than 20 years ago and cloned in 1988. A few years later another protein
with COX activity was identified and called COX-2. Although the isoforms o
f COX are derived from different genes of different size and give rise to d
istinct mRNA sequences, the proteins are highly homologous in sequence and
in three-dimensional structure. They also contain the same two catalytic si
tes, a peroxidase and a COX site, use the same substrate, AA, and form the
same product. The detailed structures of the active COX sites in the isofor
ms are almost identical. Nevertheless, there are very important biological
differences between COX-1 and COX-2. The latter is a highly inducible prote
in, absent from most tissues in normal conditions but increasing rapidly in
response to inflammatory stimuli such as bacterial endotoxin, cytokines, o
r growth factors. Furthermore, there are differences in substrate binding a
nd, particularly, in inhibitor binding sites that allow the isoforms to be
inhibited differentially. This difference is therapeutically significant an
d selective inhibitors of COX-2 exhibit antiinflammatory potency without th
e gastric and renal toxicities of the aspirin-like drugs. Selective COX-2 i
nhibitors may also have important effects on cell growth, development, or s
urvival, reflecting the location of COX-2 on the nuclear membrane of cells.
Although much is known of the structure of the isoforms, all the questions
have not yet been answered. The new therapeutic possibilities offered by s
elective inhibitors of COX-2 will encourage a continuing and more detailed
analysis of the structures and functions of these closely related proteins.
(C) 1999 Prous Science. All rights reserved.