The disposition of sulindac, a new nonsteroid anti-inflammatory drug, has been studied in normal volunteers in five separate clinical studies. Based upon material balance considerations, a minimum of approximately 88% of an oral dose is absorbed. The major biotransformations involve irreversible oxidation of the sulfinyl group of sulindac to sulfone and reduction to the corresponding sulfide. The latter, which all available evidence indicates to be the pharmacologically active form of sulindac, is not excreted in urine, and has an apparent terminal half-life of 18.2 hr, well suited to twice daily dosage of its pro-drug. Following twice daily dosage of sulindac for 5 days, plasma levels of sulfide approach an apparent steady state with concentrations varying only within a twofold range over each dosage interval. The reversible biotransformation between sulindac and its active sulfide metabolite provides the basis for two therapeutic advantages relating to the gastrointestinal intolerance usually associated with anti-inflammatory drugs: (1) circumvention of initial exposure of gastric and small intestinal mucosa to the active form of the drug and (2) maintenance of systemic levels of active drug by means of enterohepatic recycling, principally of inactive pro-drug.
Phosphonamidate 3a of methoxymethylphosphonic acid (MMPA) with propofol (1) and l-alanine ethyl ester was found to be an efficient scaffold for the oral delivery of compound 1. The synthesis and evaluation of MMPA based phosphonamidates of compound 1, HSK3486 (2), and other phenolic drugs revealed the general application of MMPA as the effective delivery vehicle for phenolic drugs. On the basis of plasma concentrations of compound 1 and SN38 (14), the oral bioavailability of compound 3a and 15 in beagle dogs was found to be 97.6% and 34.1%, respectively.
The kinetic resolution of a carbon nucleophile is realized for the first time via Pd-catalyzed asymmetric allylic alkylation with "unstabilized" ketone enolates as the nucleophile, providing both allylated 2,3-disubstituted 2,3-dihydro-4-quinolones and recovered substrates in high yields and high ee (S-factor is 40-145). The application of the methodology in organic synthesis is demonstrated by the ready transformation of an allylated adduct into pyrrolo[3,2-c]quinoline, which features a core structure of biologically active Martinella alkaloids.
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