10-deoxymethynolide and methymycin

The recombinant thioesterase (TE) domain of the picromycin/methymycin synthase (PICS) catalyzes the macrolactonization of 3, the N-acetylcysteamine thioester of seco-10-deoxymethynolide to generate 10-deoxymethynolide (1) with high efficiency. By contrast, 4, the 7-dihydro derivative of seco-thioester 3, undergoes exclusive hydrolysis by PICS TE to seco-acid 5. The recombinant TE domain of 6-deoxyerythronolide B synthase (DEBS TE) shows the same reaction specificity as PICS TE, but with significantly lower activity.

Topics: Catalysis; Esterases; Lactones; Macrolides; Molecular Conformation; Multienzyme Complexes; Recombinant Proteins; Stereoisomerism

In Streptomyces venezuelae, four polyketide synthase (PKS) polypeptides encoded by pikAI-pikAIV are used to generate 10 and 12-membered macrocyclic structures, narbonolide and 10-deoxymethynolide. Sequence analysis suggests these genes are translationally coupled with downstream genes, pikAV (encoding a type II thioesterase), desVIII-desVI (encoding enzymes responsible for production of the final glycosylated products pikromycin, narbomycin, methymycin and neomethymycin) and desR (a resistance gene). Type II thioesterases have been suggested to have an editing function in polyketide biosynthesis and deletion of the corresponding genes often leads to decreased levels of polyketide production. Surprisingly an in-frame deletion of 687 bp of the 843 bp pikAV ORF led to a strain SC1022 that produced normal yields of polyketide products, but only in the aglycone form. Plasmid-based expression of the desVIII-VI and desR in the SC1022 strain completely restored production of glycosylated products, despite the absence of a functional pikAV gene product. Under these conditions the PikAV TEII therefore does not play an important role in polyketide biosynthesis, and its function remains an enigma. These observations also demonstrate that the region of pikAV DNA deleted in strain SC1022 contains a transcription unit essential for expression of the des genes. A sequence alignment of PikAV with members of the highly conserved type II thioesterases revealed a short divergent region at the carboxy terminus, suggesting a region of pikAV that might contain such a transcription unit. DNA containing this region of pikAV was shown to be able to increase plasmid-based expression of both crotonyl CoA reductase gene (ccr) and the erythromycin resistance gene (ermE) in S. venezuelae.

Topics: Acyl-CoA Dehydrogenases; Amino Acid Sequence; Anti-Bacterial Agents; Bacterial Proteins; Cosmids; DNA, Recombinant; Fatty Acid Synthases; Gene Expression Regulation, Bacterial; Gene Expression Regulation, Enzymologic; Genetic Complementation Test; Glycosylation; Lactones; Macrolides; Molecular Sequence Data; Mutation; Operon; Oxidoreductases; Sequence Deletion; Sequence Homology, Amino Acid; Streptomyces; Thiolester Hydrolases; Time Factors; Transcription, Genetic

Modular polyketide synthases are giant multifunctional enzymes that catalyse the condensation of small carboxylic acids such as acetate and propionate into structurally diverse polyketides that possess a spectrum of biological activities. In a modular polyketide synthase, an enzymatic domain catalyses a specific reaction, and three to six enzymatic domains involved in a condensation-processing cycle are organized into a module. A fundamental aspect of a modular polyketide synthase is that its module arrangement linearly specifies the structure of its polyketide product. Here we report a natural example in which alternative expression of the pikromycin polyketide synthase results in the generation of two macrolactone structures. Expression of the full-length modular polyketide synthase PikAIV in Streptomyces venezuelae generates the 14-membered ring macrolactone narbonolide, whereas expression of the amino-terminal truncated form of PikAIV leads to 'skipping' of the final condensation cycle in polyketide biosynthesis to generate the 12-membered ring macrolactone 10-deoxymethynolide. Our findings provide insight into the structure and function of modular polyketide synthases, as well as a new set of tools to generate structural diversity in polyketide natural products.

Topics: Anti-Bacterial Agents; Blotting, Western; Lactones; Macrolides; Multienzyme Complexes; Mutagenesis, Site-Directed; Protein Conformation; Streptomyces

Topics: Anti-Bacterial Agents; Chromatography, Gel; Lactones; Macrolides; Magnetic Resonance Spectroscopy; Methoxsalen; Streptomyces