Transcript Slide 1
NSAIDS – Aspirin, Ibuprofen,
Celebrex and Beyond
Prostaglandins
Prostaglandins have several differenct biological functions, one of which is
to stimulate inflammation. The biological synthesis of prostaglandins
includes several steps, starting with arachidonic acid:
prostaglandin
arachidonic acid
synthase
PGH2
(a peroxide)
prostaglandin
O
CH3
Aspirin
O
COOH
Aspirin, or O-acetyl-salicylic acid, has two carbonyl functional groups.
Which of those is more electrophilic or “activated”?
Prostaglandin synthase is composed of two enzymes. One of the
enzymes, CycloOXygenase (COX), has a serine hydroxyl group that
is necessary for enzyme activity. In the presence of aspirin, the hydroxyl
group of cyclooxygenase becomes “acylated”. Aspirin is termed a
non-reversible inhibitor, because it covalently modifies the active site
of the enzyme and the enzyme is not functional while that covalent
modification exists. Draw the electron pushing for that process.
That process is called “transesterification”. Note that the enzyme is
now unable to catalyze the formation of prostaglandins. If prostaglandins
are not synthesized, inflammation and associated pain does not occur.
Ibuprofen
O
CH3
COOH
O
COOH
aspirin
ibuprofen
Note that ibuprofen (Advil, Motrin, Nuprin) lacks the ester
functional group present in aspirin. Since that ester functional
group was involved in the chemistry between aspirin and the
COX enzyme, we might expect that ibuprofen has a different
mode of action…
• Ibuprofen mimics arachadonic acid
and fits into the active site of the
COX enzyme. While ibuprofen is
in the active site, arachadonic acid
cannot enter and prostagladin
synthesis is inhibited. This is
reversible inhibition.
Because of patent rights, legal issues and monetary
considerations, scientists are constantly searching for
new, more effective medications.
COOH
MeO
Naproxen (in Aleve)
Several different forms of the CycloOXygenase enzyme exist. COX-1
And COX-2 are the best understood. The structures of COX-1 and
COX-2 are similar, but these enzymes serve markedly different functions.
Arachidonic Acid
COX-2
“inflammatory”
prostaglandins
COX-1
“housekeeping” prostaglandins
• platelets (for blood clotting)
• prostaglandin E2 (for kidney function)
• prostaglandin I2 (for stomach lining)
Scientists reasoned that if we could find compounds
that are highly selective for the active site of COX-2, but
are unable to bind to COX-1, we could manage pain/
inflammation without affecting other “housekeeping”
functions.
COX-2 inhibitors
SO2CH3
SO2NH2
N
O
O
Vioxx
N
CF3
Celebrex
These drugs were hailed as “super aspirins”… they are now
off the general market because of negative side effects.
4 May 2000
Soon after the crystal structure in 2000, scientists proposed
the structure of a molecule (APHS) which was calculated to fit
perfectly into the active site, thus effectively shutting down the
inflammatory/pain response.
O
O
S
• What mode of action would APHS be predicted to have?
• Is it wise to mask inflammation/pain?
• The mode of action of Tylenol is not yet understood ….