Harry Schwartz

Microbial oxidation of ebastine

The microbial oxidation of ebastine to carebastine was investigated. Among the 15 micro-organisms examined, only theCunninghamella strains showed the desired biotransformation.Cunninghamella blakesleeana oxidised the substrate within 7 days, via the intermediates alcohol and aldehyde, mainly to carebastine, the corresponding carboxylic acid. Optimisation of the culture conditions increased the yield from initially 10% up to a reproducible 40%. For the synthesis of carebastine a substrate concentration of 200 mg/l, a starting pH of 5.0 and the addition of 1% poly(vinyl alcohol) is favourable. The results achieved in experiments with shaking flasks are transferable to the fermentation scale and yielded 270 mg carebastine in a 3-l fermentation of 600 mg ebastine. The progress of the reaction was detected by TLC and HPLC, the products were identified by mass spectrometry and NMR.

Studies on the enzymatic reduction of N-Boc-4S-amino-3-oxo-5-phenylpentanoic acid methylester.

The enzymatic reduction of N-Boc-4S-amino-3-oxo-5-phenylpentanoic acid methylester, the key intermediate in the stereoselective synthesis of a statinanalogue, was studied with Hansenula anomala and Hansenula silvicola. Using whole cells of H. anomala gives complete conversion and a diastereomeric excess of 88% of the desired 3S, 4S statinanalogue. The strain contains two NADPH-dependent oxidoreductases, that can be separated by ion exchange chromatography or gelfiltration, yielding the 3S, 4S or 3R, 4S stereoisomers, respectively, with > 99% diastereomeric excess (DE). In the crude extract the 3S, 4S oxidoreductase is very unstable and could be purified with << 1% yield only. In contrast, H. silvicola, which gave poor conversions using whole cells, exhibited about 80-fold higher specific activity in the crude extract than H. anomala. The NADPH-dependent oxidoreductase was purified 317-fold in 12% yield. A single enzyme of 54 kDa reduces the substrate with 97.4% DE. Besides the statinanalogue a wide range of other compounds could be reduced, most notably diones and chinones such as isatin or campherchinone. It was demonstrated that the enzymes often discussed for the reduction of beta-ketoesters with yeast e.g. L-3-hydroxyacyl CoA dehydrogenase (EC 1.1.1.35), the beta-ketoreductase of the fatty acid synthase complex and also the 3-hydroxy-3-methyl glutaryl-CoA dehydrogenase (EC 1.1.1.34) are separated during the purification steps from the oxidoreductase acting on N-Boc-4S-amino-3-oxo-5-phenylpentanoic acid methylester. The physiological role of the new enzyme is still unknown.

Microbial metabolism of the \-adrenoreceptor antagonist bisoprolol

Eighteen filamentous fungi and six actinomycetes species were screened for their ability to metabolize bisoprolol, a \-blocking drug. All strains of Cunninghamella tested accumulated metabolite M4 = EMD 46193 ([4-(2-hydroxy-3-isopropylaminopropoxy)benzyloxy]ethanol). Among the strains investigated only Gliocladium deliquescens excreted the corresponding carbonic acid M1 = EMD 44025 into the culture medium. Biotransformation of bisoprolol by fungi occurred only during growth in complex medium or with resting cells after cultivation in complex medium. The screened Actinomycetes showed no biotransformation of the drug.

Nitrate reductase from yeast: cultivation, partial purification and characterization

SummarySeveral yeast strains were assayed for occurence of nitrate reductase after growth in a defined medium with nitrate as the sole nitrogen source, Candida boidinii DSM 70026, showing the highest specific activity, was further investigated. The procedures for yeast fermentation and nitrate reductase purfication are described in detail. Nitrate reductase from this yeast was characterized as NAD(P)H: nitrate oxidoreductase (E.C.1.6.6.2). The enzyme activity with NADH (NADPH) was highest at pH 7.0 (7.1) and 30° C (25° C). The values of Km determinations with NADH/NADPH were both 4 × 10−4 mol/l; values for the substrate inhibition constant (Ki) were 6 × 10−4 mol/l. The molecular mass of the native enzyme was estimated by gel permeation chromatography to be approximately 350 kDa.

Bioisosterism of fluorine and cyano as indole substituents. Theoretical, in vitro and in vivo examination

Fluorine substitution modifies structural attributes and often induces unexpected effects. When substituting fluorine with cyano in position 5 of the indole in indole-butyl-amines, the properties of the compounds proved to be very comparable. In vitro target-profile, metabolism, and in vivo activity in the ultrasonic vocalisation test indicate bioisosterism between the two substituents.