DISPOSITION OF CYCLOSPORINE IN SEVERAL ANIMAL SPECIES AND MAN .1. STRUCTURAL ELUCIDATION OF ITS METABOLITES

Abstract

Nine ether-extractable metabolites [hydroxycyclosporine (1), dihydroxycyclosporine (8), dihydroxy-N-demethylcyclosporine (9), dihydroxycyclosporine (10), hydroxy-N-demethylcyclosporine (13), dihydroxycyclosporine (16), hydroxycyclosporine (17), N-demethylcyclosporine (21)] of cyclosporine [an immunosuppressant produced by Tolypocladium inflatum] were isolated from urine of dog and man and from rat bile and feces and purified by preparative HPLC [high-performance liquid chromatography] and TLC. Structural assignments were mainly based on spectroscopic data (1H NMR, 13C NMR and MS [mass spectroscopy]) and the results of the amino acid analysis after hydrolysis with HCl. All the identified metabolites retained the intact cyclic oligopeptide structure of the parent drug. Structural modifications originated from enzymatic oxidation at specific sites of the peptide subunits. Transformation processes principally involved hydroxylation at the terminal carbon atom (.eta.-position) of the C9-amino acid 1 and the .gamma.-position of the N-methylleucines 4, 6 and 9, as well as N-demethylation of the N-methylleucine 4. Regioisomeric monohydroxylated cyclosporines (metabolites 1 and 17) and N-demethylcyclosporine (metabolite 21) were the primary metabolites resulting from hydroxylation of the C9-amino acid 1 and the N-methylleucine 9, and from N-demethylation of the N-methylleucine 4. Dihydroxylated derivatives of cyclosporine (metabolites 8, 10 and 16) were generated by further oxidation of metabolite 1 on one of the other N-methylleucines (4 or 6) or on the C9-amino acid 1, or of metabolite 17 on the N-methylleucine 9. More extensive modifications were observed for metabolite 9, a dihydroxy-N-demethylcyclosporine, which could have been formed from the dihydroxy derivative 16 by N-demethylation or from the N-demethylcyclosporine 21 by dihydroxylation. Metabolite 18 differed from 17 (monohydroxycyclosporine) by the presence of a cyclic ether moiety, formally derived by intramolecular addition of the .beta.-hydroxyl group to the double bond of the C9-amino acid 1. Metabolite 13 was identified as hydroxy-N-demethylcyclosporine but the exact sites of functionalization could not be established. The structures of several further urinary components remain incompletely determined.