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ABSTRACT: Enterocin is an atypical type II polyketide synthase (PKS) product from the marine actinomycete 'Streptomyces maritimus'. The enterocin biosynthesis gene cluster (enc) codes for proteins involved in the assembly and attachment of the rare benzoate primer that initiates polyketide assembly with the addition of seven malonate molecules and culminates in a Favorskii-like rearrangement of the linear poly-β-ketone to give its distinctive non-aromatic, caged core structure. Fundamental to enterocin biosynthesis, which utilizes a single acyl carrier protein (ACP), EncC, for both priming with benzoate and elongating with malonate, involves maintaining the correct balance of acyl-EncC substrates for efficient polyketide assembly. Here, we report the characterization of EncL as a type II thioesterase that functions to edit starter unit (mis)priming of EncC. We performed a series of in vivo mutational studies, heterologous expression experiments, in vitro reconstitution studies, and Fourier-transform mass spectrometry-monitored competitive enzyme assays that together support the proposed selective hydrolase activity of EncL toward misprimed acetyl-ACP over benzoyl-ACP to facilitate benzoyl priming of the enterocin PKS complex. While this system resembles the R1128 PKS that also utilizes an editing thioesterase (ZhuC) to purge acetate molecules from its initiation module ACP in favor of alkylacyl groups, the enterocin system is distinct in its usage of a single ACP for both priming and elongating reactions with different substrates.
Bioorganic & medicinal chemistry 04/2011; 19(22):6633-8. · 2.82 Impact Factor
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ABSTRACT: Synthesis of seven semi-synthetic analogs of NDGA is described. An approach to NDGA derivatization is described in which the ortho-phenolic groups are tethered together by one atom, forming a 5-membered heterocyclic ring. The analogs were evaluated for cytotoxicity in four cancer cell lines and compared to NDGA and tetra-O-methyl-NDGA (M4N) (1a). NDGA bis-cyclic sulfate (2a), NDGA bis-cyclic carbonate (2b), and methylenedioxyphenyl-NDGA (2d) and NDGA tetra acetate (1b) showed anti-cancer activity in vitro. Two compounds, (1b) and (2b), were evaluated for anticancer activity in a mouse xenograft model of human melanoma and showed dose-dependent activity.
Bioorganic & medicinal chemistry letters 09/2009; 19(16):4752-5. · 2.65 Impact Factor
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ABSTRACT: Nature has evolved finely tuned strategies to synthesize rare and complex natural products such as the enterocin family of polyketides from the marine bacterium Streptomyces maritimus. Herein we report the directed ex vivo multienzyme syntheses of 24 unnatural 5-deoxyenterocin and wailupemycin F and G analogues, 18 of which are new. We have generated molecular diversity by priming the enterocin biosynthesis enzymes with unnatural substrates and have illustrated further the uniqueness of this type II polyketide synthase by way of exploiting its unusual starter unit biosynthesis pathways.
Journal of Natural Products 03/2009; 72(3):469-72. · 3.13 Impact Factor
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Bin Zhao,
F Peter Guengerich,
Aouatef Bellamine,
David C Lamb,
Miho Izumikawa,
Li Lei,
Larissa M Podust,
Munirathinam Sundaramoorthy, John A Kalaitzis,
L Manmohan Reddy,
Steven L Kelly,
Bradley S Moore,
Donald Stec,
Markus Voehler,
John R Falck,
Tsutomu Shimada,
Michael R Waterman
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ABSTRACT: Cytochrome P450 158A2 (CYP158A2) is encoded within a three-gene operon (sco1206-sco1208) in the prototypic soil bacterium Streptomyces coelicolor A3(2). This operon is widely conserved among streptomycetes. CYP158A2 has been suggested to produce polymers of flaviolin, a pigment that may protect microbes from UV radiation, in combination with the adjacent rppA gene, which encodes the type III polyketide synthase, 1,3,6,8-tetrahydroxynaphthalene synthase. Following cloning, expression, and purification of this cytochrome P450, we have shown that it can produce dimer and trimer products from the substrate flaviolin and that the structures of two of the dimeric products were established using mass spectrometry and multiple NMR methods. A comparison of the x-ray structures of ligand-free (1.75 angstroms) and flaviolin-bound (1.62 angstroms) forms of CYP158A2 demonstrates a major conformational change upon ligand binding that closes the entry into the active site, partly due to repositioning of the F and G helices. Particularly interesting is the presence of two molecules of flaviolin in the closed active site. The flaviolin molecules form a quasi-planar three-molecule stack including the heme of CYP158A2, suggesting that oxidative C-C coupling of these phenolic molecules leads to the production of flaviolin dimers.
Journal of Biological Chemistry 04/2005; 280(12):11599-607. · 4.77 Impact Factor
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ABSTRACT: Drug discovery relies on the generation of large numbers of structurally diverse compounds from which a potential candidate can be identified. To this end, actinomycetes have often been exploited because of their ability to biosynthesize an impressive array of novel metabolites particularly polyketides. The genetic organization of polyketide synthases (PKSs) makes them readily amenable to manipulation, and thus re-engineering artificial or hybrid PKSs to produce unnatural natural products is a reality. This review highlights two approaches we have used to generate novel polyketides by manipulating genes responsible for starter unit biosynthesis in the 'Streptomyces maritimus' enterocin type II PKS. Our preliminary investigation into the biosynthesis of neomarinone, a rare marine actinomycete-derived meroterpenoid, is also presented.
Antonie van Leeuwenhoek 02/2005; 87(1):49-57. · 2.09 Impact Factor
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ABSTRACT: The bacteriostatic natural product enterocin from the marine microbe "Streptomyces maritimus" has an unprecedented carbon skeleton that is derived from an aromatic polyketide biosynthetic pathway. Its caged tricyclic, nonaromatic core is derived from a linear poly-beta-ketide precursor that formally undergoes a Favorskii-like oxidative rearrangement. In vivo characterization of the gene encM through mutagenesis and heterologous biosynthesis demonstrated that its protein product not only is solely responsible for the oxidative C-C rearrangement, but also facilitates two aldol condensations plus two heterocycle forming reactions. In total, at least five chiral centers and four rings are generated by this multifaceted flavoprotein. Heterologous expression of the enterocin biosynthesis genes encABCDLMN in Streptomyces lividans resulted in the formation of the rearranged metabolite desmethyl-5-deoxyenterocin and the shunt products wailupemycins D-G. Addition of the methyltransferase gene encK, which was previously proposed through mutagenesis to additionally assist EncM in the Favorskii rearrangement, shifted the production to the O-methyl derivative 5-deoxyenterocin. The O-methyltransferase EncK seems to be specific for the pyrone ring of enterocin, because bicyclic polyketides bearing pyrone rings are not methylated in vivo. Expression of encM with different combinations of homologous actinorhodin biosynthesis genes did not result in the production of oxidatively rearranged enterocin-actinorhodin hybrid compounds as anticipated, suggesting that wild-type EncM may be specific for its endogenous type II polyketide synthase or for benzoyl-primed polyketide precursors.
Proceedings of the National Academy of Sciences 12/2004; 101(44):15609-14. · 9.68 Impact Factor
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ABSTRACT: Heterologous expression of the actinorhodin polyketide synthase in the recombinant host Streptomyces lividans K4-114 led to the characterization of three new minor polyketides, the novel hexaketides BSM1 and BSM3 and 9'-hydroxyaloesaponarin II, in addition to known anthraquinone and aromatic octaketides. The structures of BSM1 and BSM3 imply that these compounds are derived from a C-5-reduced hexaketide intermediate, suggesting that the timing of the ketoreduction reaction in the actinorhodin biosynthetic pathway may take place during the polyketide elongation process rather than after the completion of the octaketide chain as previously suggested.
Journal of Natural Products 09/2004; 67(8):1419-22. · 3.13 Impact Factor
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ABSTRACT: Heterologous expression and mutagenesis of the enterocin type II polyketide synthase (PKS) system suggest for the first time that the association of an extended set of proteins and substrates is needed for the effective production of the enterocin-wailupemycin polyketides. In the absence of its endogenous ketoreductase (KR) EncD in either the enterocin producer "Streptomyces maritimus" or the engineered host S. lividans K4-114, the enterocin minimal PKS is unable to produce benzoate-primed polyketides, even when complemented with the homologous actinorhodin KR ActIII or with EncD active site mutants. These data suggest that the enterocin PKS requires EncD to serve a catalytic and not just a structural role in the functional PKS enzyme complex. This strongly implies that EncD reduces the polyketide chain during elongation rather than after its complete assembly, as suggested for most type II PKSs.
Chemistry & Biology 05/2004; 11(4):461-8. · 5.83 Impact Factor
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ABSTRACT: [reaction: see text] The biosynthesis of the meroterpenoid neomarinone from a marine actinomycete was probed through feeding experiments with (13)C-labeled precursors. NMR characterization of [U-(13)C(6)]glucose-enriched neomarinone led to the structural revision of structure 4a to 4b, which was confirmed by extensive 2D NMR spectrometry with unlabeled compound.
Organic Letters 12/2003; 5(23):4449-52. · 5.86 Impact Factor
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ABSTRACT: Inactivation of the novel phenylalanine ammonia lyase gene encP, whose product is a key component in the biosynthetic pathway to benzoyl-coenzyme A (CoA) in the bacterium Streptomyces maritimus, resulted in the loss of production of the benzoate-primed polyketides enterocin and wailupemycin G. A series of cinnamate and benzoate derivatives were administered to the DeltaencP mutant, resulting in the formation of novel analogues bearing p-fluorobenzoate, 2- and 3-thiophenecarboxylate, and cyclohex-1-enecarboxylate residues. Given that the benzoate:CoA ligase EncN was evaluated to have broad in vitro substrate specificity towards aryl acids, the strict starter unit specificity observed in vivo indicates that the enterocin type II polyketide synthase (PKS) exerts selective control over the choice of starter units. This study represents the first mutasynthesis experiments with iterative type II PKSs.
Journal of the American Chemical Society 09/2003; 125(31):9290-1. · 9.91 Impact Factor
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Bradley S Moore,
Christian Hertweck,
Jörn N Hopke,
Miho Izumikawa, John A Kalaitzis,
George Nilsen,
Thomas O'Hare,
Jörn Piel,
Paul R Shipley,
Longkuan Xiang,
Michael B Austin,
Joseph P Noel
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ABSTRACT: Although phenylpropanoids and flavonoids are common plant natural products, these major classes of biologically active secondary metabolites are largely absent from bacteria. The ubiquitous plant enzymes phenylalanine ammonia-lyase (PAL) and chalcone synthase (CHS) are key biosynthetic catalysts in phenylpropanoid and flavonoid assembly, respectively. Until recently, few bacterial counterparts were known, thus reflecting the dearth of these plant natural products in bacteria. This review highlights our progress on the biochemical and genetic characterization of recently identified streptomycete biosynthetic pathways to benzoic acid and type III polyketide synthase (PKS)-derived products. The sediment-derived bacterium "Streptomyces maritimus" produces benzoyl-CoA in a plant-like manner from phenylalanine involving a PAL-mediated reaction through cinnamic acid during the biosynthesis of the polyketide antibiotic enterocin. All but one of the genes encoding benzoyl-CoA biosynthesis in "S. maritimus" have been cloned, sequenced, and inactivated, providing a model for benzoate biosynthesis not only in this bacterium, but in plants where benzoic acid is an important constituent of many products. The recent discovery that bacteria harbor homodimeric PKSs belonging to the plant CHS superfamily of condensing enzymes has further linked the biosynthetic capabilities of plants and bacteria. A bioinformatics approach led to the prediction that the model actinomycete Streptomyces coelicolor A3(2) contains up to three type III PKSs. Biochemical analysis of one of the recombinant type III PKSs from S. coelicolor demonstrated activity as a 1,3,6,8-tetrahydroxynaphthalene synthase (THNS). A homology model of THNS based upon the known three-dimensional structure of CHS was constructed to explore the structural and mechanistic details of this new subclass of bacterial PKSs.
Journal of Natural Products 01/2003; 65(12):1956-62. · 3.13 Impact Factor
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ABSTRACT: [reaction: see text] A mutational analysis of the enterocin biosynthesis genes revealed that the putative oxygenase and the methyltransferase gene products EncM and EncK, respectively, jointly catalyze a biosynthetic Favorskii-like rearrangement. Inactivation of either gene terminated enterocin production and caused the accumulation of four nonrearranged, nonmethylated polyketides. The structure elucidation of the new wailupemycins E-G is reported.
Organic Letters 04/2002; 4(6):957-60. · 5.86 Impact Factor
