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Vol. 29, Issue 1, 60-69, January 2001
Departments of Metabolism and Pharmacokinetics (S.A.I., J.M., B.M.,
S.B., S.C.W., J.K.R., K.K.) and Analytical Sciences (V.A.R.),
Bristol-Myers Squibb Pharmaceutical Research Institute, Princeton, New
Jersey
Omapatrilat, a potent vasopeptidase inhibitor, is currently under
development for the treatment of hypertension and congestive heart
failure. This study describes the plasma profile along with isolation
and identification of urinary metabolites of omapatrilat from subjects
dosed orally with 50 mg of [14C]omapatrilat. Only a
portion of the radioactivity in plasma was unextractable (40-43%).
Prominent metabolites identified in plasma were S-methyl
omapatrilat, acyl glucuronide of S-methyl omapatrilat, and S-methyl (S)-2-thio-3-phenylpropionic
acid. Omapatrilat accounted for less than 3% of the radioactivity.
However, after dithiothreitol reduction all of the radioactivity
was extractable and was characterized to be omapatrilat and its
hydrolysis product (S)-2-thio-3-phenylpropionic acid,
both apparently bound to proteins via reversible disulfide bonds.
Urinary profile of radioactivity showed no parent compound but the
presence of several metabolites that can be grouped into three
categories. 1) Three metabolites, accounting for 56% of the urinary
radioactivity, resulted from the hydrolysis of the exocyclic amide bond
of omapatrilat. Two metabolites were diastereomers of
S-methyl sulfoxide of
(S)-2-thio-3-phenylpropionic acid, and the third was the
acyl glucuronide of S-methyl
(S)-2-thio-3-phenylpropionic acid. 2) One disulfide,
identified as the L-cysteine mixed disulfide of
omapatrilat, accounted for 8% of the radioactivity in the urine. 3)
Five metabolites, derived from omapatrilat, accounted for 30% of the
radioactivity in the urine. Two of these metabolites were mixtures of
diastereomers of S-methyl sulfoxide of omapatrilat and
the third was the S-methyl omapatrilat ring sulfoxide.
The other two metabolites were S-methyl omapatrilat and
its acyl glucuronide. These results indicate that omapatrilat undergoes
extensive metabolism in humans.
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