A series of insect oostatic peptides containing 3,4-dehydroproline in the C-terminal part or inside of the peptide chain was synthesized and tritiated by addition of (3)H2 to double bond of 3,4-dehydroproline residue. (3)H-label was introduced also into tyrosine residue of oostatic tetra- and pentapeptides by isotopic exchange of benzyl beta-hydrogens. In this way, three types of tritiated peptides were prepared, different in the radiolabeled amino acid position: [(3)H] Tyr-Asp-Pro-Ala-OH, H-Tyr-Asp-[(3)H] Pro-Ala-OH, [(3)H] Tyr-Asp-Pro-Ala-Pro-OH, H-Tyr-Asp-[(3)H] Pro-Ala-Pro-OH, H-Tyr-Asp-Pro-Ala-[(3)H] Pro-OH, H-Tyr-Asp-Pro-Ala-Pro(5)-[(3)H] Pro-OH and H-Asp-[(3)H] Pro-OH. These peptides made possible a highly sensitive comparative study on radioactivity incorporation into head and ovaries of the flesh fly Neobellieria bullata, which revealed this process to proceed differently. The reasons of the found differences are discussed.
1. Biotransformation pathways of the cyclin-dependent kinase inhibitor 6-benzylamino-2-(3-hydroxypropylamino)-9-isopropylpurine (bohemine) by mouse liver microsomes in vitro were investigated. 2. Metabolite profiles of [8-(3)H]-labelled bohemine were established by TLC/(3)H-autoradiography and enzymatic and MS analyses were used to elucidate the chemical structures of the metabolites. The structures of the main primary metabolites were confirmed by synthesis of authentic compounds. 3. A schema of the primary NADPH-dependent pathways has been proposed involving N(2)- and N9-dealkylation, N(6)-debenzylation, aromatic hydroxylation, and C2 side chain oxidation of bohemine. Three of the primary metabolites detected, 6-(benzylamino)-2-(3-hydroxypropylamino)purine (M4), 6-amino-2-(3-hydroxypropylamino)-9-isopropylpurine (M5) and 6-(4-hydroxybenzylamino)-2-(3-hydroxypropylamino)-9-isopropylpurine (M6), all retaining their parent primary hydroxyl group, were subsequently shown to be converted, by a liver cytosolic NAD(+)-dependent system, into their corresponding carboxylic acids. M6 was subject to microsomal glycosidations requiring UDP-sugar donors. NADPH-dependent conversion of M6 into M5 by microsomes was also demonstrated. 4. Cytochrome P450 (CYP) enzymes-selective inhibitors were used to identify CYPs involved in bohemine biotransformation. The findings suggested that CYP2a and CYP3a substantially contributed to the NADPH-dependent bohemine transformation in vitro. 5. The findings will facilitate experiments designed to dissect enzymatic systems catalysing clearance of C2,C6,N9-trisubstituted purine compounds from mammalian tissues.
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