orlistat and lipstatin

Using click chemistry to enable both structural diversity and proteome profiling within a natural product derived library, two out of nineteen lipstatin analogues showed similar activity to Orlistat against fatty acid synthase (FAS), but with an improved ability to induce tumour cell death.

Topics: Antineoplastic Agents; Cell Line, Tumor; Click Chemistry; Fatty Acid Synthases; Humans; Lactones; Orlistat; Proteome

Three putative intermediates in the biosynthesis of the lipase inhibitor lipstatin were synthesized in stable isotope-labeled form and were added to fermentation cultures of Streptomyces toxytricini. Biosynthetic lipstatin was isolated and analyzed by NMR spectroscopy. [3,10,11,12-(2)H]-(3S,5Z,8Z)-3-hydroxytetradeca-5,8-dienoic acid (9) was shown to serve as a direct biosynthetic precursor of lipstatin. [7,8-(2)H(2)]Hexylmalonate (11) was also incorporated into lipstatin, albeit at a relatively low rate. The leucine moiety of [(13)C-formyl,(15)N]-N-formylleucine (10) was diverted to lipstatin under loss of the (13)C-labeled formyl residue.

Topics: Animals; Catalysis; Chromatography, Thin Layer; Deuterium; Enzyme Inhibitors; Gas Chromatography-Mass Spectrometry; Lactones; Leucine; Lipase; Liver; Magnetic Resonance Spectroscopy; Models, Molecular; Molecular Structure; Orlistat; Streptomyces; Swine

The biosynthesis of the pancreatic lipase inhibitor lipstatin was investigated by fermentation experiments using cultures of Streptomyces toxytricini, which were supplied with soybean oil and a crude mixture of U-13C-lipids obtained from algal biomass cultured with 13CO2. Lipstatin was analyzed by one- and two-dimensional NMR spectroscopy. 13C total correlation spectroscopy and INADEQUATE experiments show that two fatty acid fragments containing 14 and 8 carbon atoms, respectively, are incorporated en bloc into lipstatin. The 14-carbon fragment is preferentially derived from the unsaturated fatty acid fraction, as shown by an experiment with hydrogenated U-13C-lipid mixture, which is conducive to labeling of the 8-carbon moiety but not of the 14-carbon moiety. The data indicate that the lipstatin molecule can be assembled by Claisen condensation of octanoyl-CoA with 3-hydroxy-delta5,8-tetradecanoyl-CoA obtained by beta oxidation of linoleic acid. The formation of lipstatin from acetate units by a polyketide-type pathway is ruled out conclusively by these data. The data show that surprisingly clear labeling patterns can be obtained in studies with crude, universally 13C-labeled precursor mixtures that are proffered together with a large excess of unlabeled material. One- and two-dimensional 13C total correlation spectroscopy analyses are suggested as elegant methods for the delineation of contiguously 13C-labeled biosynthetic blocks.

Topics: Enzyme Inhibitors; Lactones; Lipase; Magnetic Resonance Spectroscopy; Orlistat; Streptomyces