Process modeling of the lipase-catalyzed dynamic kinetic resolution of (R, S)-suprofen 2,2,2-trifluoroethyl thioester in a hollow-fiber membrane.

A Candida rugosa lipase immobilized on polypropylene powder was employed as the biocatalyst for the enantioselective hydrolysis of (R, S)-suprofen 2,2,2-trifluorothioester in cyclohexane, in which trioctylamine was added as the catalyst to perform in situ racemization of the remaining (R)-thioester. A hollow-fiber membrane was also integrated with the dynamic kinetic resolution process in order to continuously extract the desired (S)-suprofen into an aqueous solution containing NaOH. A kinetic model for the whole process (operating in batch and feed-batch modes) was developed, in which enzymatic hydrolysis and deactivation, lipase activation, racemization and non-enantioselective hydrolysis of the substrate by trioctylamine, and reactive extraction of (R)- and (S)-suprofen into the aqueous phase in the membrane were considered. Theoretical predictions from the model for the time-course variations of substrate and product concentrations in each phase were compared with experimental data.

Effect of nonenzymatic glycation of albumin and superoxide dismutase by glucuronic acid and suprofen acyl glucuronide on their functions in vitro.

Acyl glucuronides bind irreversibly to plasma proteins, and one mechanism proposed for this covalent binding is similar to that for glycation of protein by reducing sugars. Because glycation of protein by glucose and other reducing sugars can alter protein function, this lead to the hypothesis that the glycation of proteins by acyl glucuronides may cause similar effects. When human serum albumin (HSA) was incubated with 0.5 M glucose for 5 days, the unbound fractions of diazepam and warfarin were increased by 41 and 35%, respectively, less than that caused by glucuronic acid which increased the unbound fractions by 90% for diazepam and 420% for warfarin. When HSA was incubated with suprofen glucuronide (SG) at a much lower concentration of 0.005 M for only 24 h, the effects on the unbound fractions of diazepam and warfarin to HSA were altered dramatically with increases of 340 and 230%, respectively. After incubation of superoxide dismutase (SOD) with 0.5 or 1 M reducing sugars for 14 days, the enzyme activity decreased to 82 and 61% of initial levels at day 14, respectively, whereas glucuronic acid almost completely inactivated the enzyme activity over the same period. Even at a very low concentration (0.005 M) of SG, SOD activity was reduced significantly to 11% of initial levels by day 14, which was comparable to the effect by 0.5 and 1.0 M concentrations of glucuronic acid. Sodium dodecyl sulfate polyacrylamide gel electrophoresis and matrix associated laser desorption/ionization time of flight mass spectrometry indicated that several equivalents of reducing sugars or SG became attached to albumin after incubation. These results suggest that acyl glucuronides may affect the function of proteins by the formation of glycated protein in vivo and may be associated with the toxicity of xenobiotics metabolized to labile acyl glucuronides.

Metal complexes of anti-inflammatory drugs. Part VIII: Suprofen complex of copper(II).

The preparation and properties of the copper(II) complex Cu(SUP)2.H2O are reported for the anti-inflammatory drug Suprofen (SUP). The diffuse reflectance spectra and magnetic moment are consistent with a dinuclear structure as found for [Cu(aspirinate)2(H2O)]2. The copper(II) complex exhibits an increased superoxide dismutase activity compared with the parent drug molecule in the nitroblue tetrazolium assay.

Further structural analysis of urinary metabolites of suprofen in the rat.

The urinary metabolites of 2-(4-(2-thienylcarbonyl)phenyl)propionic acid (suprofen, S) in rats were analyzed by radio-GC, GC/MS, or 1H NMR technique. Radio-GC analysis of trimethylsilylated materials after TLC separation of intact urine showed the presence of three radioactive peaks with the retention times corresponding to the authentic S, 2-(4-(2-thienylhydroxymethyl)phenyl)propionic acid, and 2-(4-carboxyphenyl)propionic acid. About 40% of the total radioactivity appearing in the 0-24-hr urine was accounted for by the three metabolites and their conjugates. The identification of these metabolites was confirmed by comparison of the MS spectra of urine, in which rats were administered an equimolar mixture of S and S[phenyl-d4], with those of synthetic standards. The labile metabolites of S, corresponding to about 32% of the total radioactivity appearing in the 0-24-hr urine, were isolated and purified by ether extraction from the fresh urine and GC/MS or HPLC. GC/MS of the methylated metabolite revealed the consistent presence of the ion peaks at m/z 304, 245, 217, and 141, indicative of a dimethylated product with monohydroxy group on the thiophene ring. Analysis of the 1H NMR spectrum demonstrated the metabolite to be 2-(4-(5-hydroxy-2-thienylcarbonyl)phenyl)propionic acid.