naphthoquinones and landomycinone

Comparison of homologous angucycline modification enzymes from five closely related Streptomyces pathways (pga, cab, jad, urd, lan) allowed us to deduce the biosynthetic steps responsible for the three alternative outcomes: gaudimycin C, dehydrorabelomycin, and 11-deoxylandomycinone. The C-12b-hydroxylated urdamycin and gaudimycin metabolites appear to be the ancestral representatives from which landomycins and jadomysins have evolved as a result of functional divergence of the ketoreductase LanV and hydroxylase JadH, respectively. Specifically, LanV has acquired affinity for an earlier biosynthetic intermediate resulting in a switch in biosynthetic order and lack of hydroxyls at C-4a and C-12b, whereas in JadH, C-4a/C-12b dehydration has evolved into an independent secondary function replacing C-12b hydroxylation. Importantly, the study reveals that many of the modification enzymes carry several alternative, hidden, or ancestral catalytic functions, which are strictly dependent on the biosynthetic context.

Topics: Aminoglycosides; Anthraquinones; Anti-Bacterial Agents; Glycosyltransferases; Mixed Function Oxygenases; Naphthoquinones; Oligosaccharides; Streptomyces lividans

Streptomyces cyanogenus S-136 is the producer of previously reported landomycins A-D. An analysis of minor products of the strain led to isolation and structure elucidation of eight new congeners, named landomycins P-W (5, 6, 3, 17, 9, 10, 15, 7), along with 10 other known angucyclin(on)es. The structures of the new compounds were established from their NMR and mass spectrometry data. The activity of these angucyclin(on)es was determined using MCF-7 (estrogen responsive) and MDA-231 (estrogen refractory) breast cancer cell lines. Cell viability assays showed that anhydrolandomycinone (2), landomycinone (11), and landomycin A (16) showed the best combined activities in both MCF-7 and MDA-231 assays, with 2 being the most potent in the former and 11 and 16 in the latter. These data reveal that some of the aglycones are equipotent to the principle product 16, which contains the longest saccharide chain. Specifically, anhydrolandomycinone (2) was the most active against MCF-7 cells (IC(50) = 1.8 μM). Compounds with shorter saccharidal moieties were less potent against MCF-7. The fact that the most active landomycins have either long penta- or hexasaccharide chains or no sugars at all suggests that the large compounds may act by a different mode of action than their small sugar-free congeners. The results presented here provide more insights into the structure-activity relationship of landomycins.

Topics: Antineoplastic Agents; Drug Screening Assays, Antitumor; Female; Humans; Inhibitory Concentration 50; Molecular Structure; Naphthoquinones; Nuclear Magnetic Resonance, Biomolecular; Oligosaccharides; Stereoisomerism; Streptomyces; Structure-Activity Relationship

The synthesis of the highly functionalized tetracyclic skeleton of landomycinone (2), the aglycon of landomycins, was performed using two pivotal steps relying on metal-catalyzed reactions. They are (1) a [2 + 2 + 2] cycloaddition of alkynes promoted by Wilkinson's catalyst to build rings B and C concomitantly and (2) a ring-closing metathesis followed by aromatization to build ring D.

Topics: Alkynes; Catalysis; Cyclization; Magnetic Resonance Spectroscopy; Molecular Structure; Naphthoquinones; Oligosaccharides; Polycyclic Compounds; Stereoisomerism

The angucycline antibiotic family of the landomycins displays potent antitumor activity. To elucidate early post polyketide synthase (PKS) tailoring steps of the landomycin E biosynthetic pathway in Streptomyces globisporus 1912, the mutant S. globisporus M12 was prepared through gene replacement experiment of lndM2. It encodes an enzyme with putative oxygenase and reductase domains, according to sequencing of the gene and its counterpart lanM2 from S. cyanogenus S136 landomycin A biosynthetic gene cluster. The isolation of the novel shunt products 11-hydroxytetrangomycin and 4-hydroxytetrangomycin along with the well-known angucyclines tetrangomycin and tetrangulol from the culture of S. globisporus M12 provides evidence for the involvement of lndM2 in the early biosynthetic pathway of the landomycins, in particular in the formation of the alicyclic 6-hydroxy function of the landomycin aglycon. We therefore propose LndM2 to be responsible for both hydroxylation of the 6-position and its subsequent reduction. These reactions are necessary before the glycosylation reactions can occur. The results are in agreement with the originally published structure of landomycin but do not support the recently suggested revised structure.

Topics: Aminoglycosides; Antibiotics, Antineoplastic; DNA, Bacterial; Gene Expression Regulation, Bacterial; Gene Expression Regulation, Enzymologic; Genes, Bacterial; Molecular Structure; Multigene Family; Mutation; Naphthoquinones; Oligosaccharides; Oxidoreductases; Streptomyces

Two genes from Streptomyces cyanogenous S136 that encode the reductase LanZ4 and the hydroxylase LanZ5, which are involved in landomycin A biosynthesis, were characterized by targeted gene inactivation. Analyses of the corresponding mutants as well as complementation experiments have allowed us to show that LanZ4 and LanZ5 are responsible for the unique C-11-hydroxylation that occurs during landomycin biosynthesis. Compounds accumulated by the lanZ4/Z5 mutants are the previously described landomycin F and the new landomycins M and O.

Topics: Aminoglycosides; Antibiotics, Antineoplastic; Cell Line, Tumor; Cell Proliferation; Disaccharides; Gene Targeting; Humans; Inhibitory Concentration 50; Magnetic Resonance Spectroscopy; Molecular Structure; Naphthoquinones; Oligosaccharides; Oxygenases; Streptomyces

The originally proposed structure (2) of landomycinone, the aglycone of landomycin A, has been synthesized and shown to be nonidentical to the naturally derived landomycin A aglycone. The synthesis of 2 features the Dötz benzannulation reaction of chromium carbene 5 and alkyne 6, and the intramolecular Michael-type cyclization reaction of the phenolic naphthoquinone 20. It is proposed that natural landomycinone possesses the alternative structure 3, but attempts to access this structure via the Michael-type cyclization of the isomeric phenolic naphthoquinone 38 have been unsuccessful.

Topics: Aminoglycosides; Carbohydrate Sequence; Crystallography, X-Ray; Models, Molecular; Molecular Conformation; Molecular Sequence Data; Naphthoquinones; Oligosaccharides; Stereoisomerism