Synthesis of C-8 methanesulphonate substituted pyrrolobenzodiazepines as potential antitumour agents

The facile synthesis of C-8 methanesulphonate substituted pyrrolobenzodiazepines is described. These have been prepared by linking the methanesulphonate at C-8 position with alkanol spacer and their in vitro cytotoxicity have been described.     

C andH NMR spectroscopy as a tool in the configurational analysis of iridoid glucosides

The ¹³C NMR data of 51 iridoid glucosides or glucoside acetates are tabulated. The collection includes 20 pairs of C-6, C-7 or C-8 epimers. Three parameters in using the data for the configurational assignment of 6-O-substituents are given. The chemical shift for C-9 in a range of substituted compounds is shown to be numerically related to the stereochemistry at C-8. This allows the determination of the configuration at this centre for most types of substitution patterns by calculation of the C-9 shift using increments for each substituent. Such increments are given for 25 substituents in three different solvents. A method for simulation of spectra of unknown iridoid glucosides is presented. By this method, the structures of five novel iridoid glucosides have been elucidated, and that of tecomoside has been revised. The methods used to assign the configurations to C-6 and C-8 epimeric iridoid glucosides by ¹H NMR spectroscopy are discussed and a table with selected data is presented. It is suggested that the structures in the literature for ajugol and myoporoside should be interchanged. Consequently, Horeau's method has failed in these instances. Finally, the differences in the ¹³C NMR spectra of pairs of C-6 and C-8 epimeric iridoid glucosides have been interpreted as originating from cis/trans-interactions.     

Impact of stereochemistry on the biological activity of novel oleandomycin derivatives

A set of 8-methylene-, 8-methyl-, and 8-methyl-9-dihydro-oleandomycin derivatives having different combinations of stereochemistries at positions C-8 and/or C-9 have been prepared in a chemoselective and stereoselective manner and tested in vitro for antibacterial activity and inhibition of IL-6 production. Configurations of the stereocenters at C-8 and C-9 were determined using 2D NMR techniques. We have shown that change of stereochemistry at these positions can exert a major influence on antibacterial activity as well as IL-6 inhibition, providing novel macrolide derivatives with diminished antibacterial and potent anti-inflammatory activity. In addition, the anti-inflammatory activity observed in vitro was confirmed in an in vivo model of lipopolysaccharide-induced inflammation.     

Heterologous expression of two trichothecene P450 genes in Fusarium verticillioides

Fusarium graminearum Z-3639 and F. sporotrichioides NRRL3299 produce the trichothecene mycotoxins 15-acetyldeoxynivalenol and T-2 toxin, respectively. These toxins differ in oxygenation at C-4, C-7, and C-8. In F. sporotrichioides, Tri1 (FsTri1) controls C-8 hydroxylation. To determine the function of an apparent F. graminearum Tri1 (FgTri1) homolog, both FsTri1 and FgTri1 genes were heterologously expressed in the trichothecene-nonproducing species F. verticillioides by fusing the Tri1 coding regions to the promoter of the fumonisin biosynthetic gene FUM8. FsTri1 and FgTri1 have been partially characterized by disruption analysis, and the results from these analyses suggest that FsTri1 most likely has a single function but that FgTri1 may have two functions. Transgenic F. verticillioides carrying the FsTri1 (FvF8FsTri1) converted exogenous isotrichodermin and calonectrin to 8-hydroxyisotrichodermin and 8-hydroxycalonectrin, respectively. Transgenic F. verticillioides carrying FgTri1 (FvF8FgTri1) converted isotrichodermin to a mixture of 7-hydroxyisotrichodermin and 8-hydroxyisotrichodermin but converted calonectrin to a mixture of 7-hydroxycalonectrin, 8-hydroxycalonectrin, and 3,15-diacetyldeoxynivalenol. A fourth compound, 7,8-dihydroxycalonectrin, was identified in large-scale F. verticillioides FvF8FgTri1 cultures fed isotrichodermin. Our results indicate that FgTri1 controls both C-7 and C-8 hydroxylation but that FsTri1 controls only C-8 hydroxylation. Our studies also demonstrate that F. verticillioides can metabolize some trichothecenes by adding an acetyl group to C-3 or by removing acetyl groups from C-4 or C-15. In addition, wild-type F. verticillioides can convert 7,8-dihydroxycalonectrin to 3,15-diacetyldeoxynivalenol.     

Carbon-13 nuclear-magnetic-resonance spectra of adenine cyclonucleosides and their phosphates. Effects of neighboring groups for elucidation of fine structure of nucleosides and nucleotides.

Carbon-13 nuclear magnetic resonance spectra of adenine cyclonucleosides, which have a fixed glycosidic conformation in an anti range, and their isopropylidene and phosphate esters are reported; those of 9-beta-D-arabinofuranosyladenine and its 5'-phosphate are also presented. The chemical shifts of the base carbons are affected not only by the bridging atom but also by the position of the bridged sugar carbon which determine the planarity of the third ring formed by cyclization between the base and the sugar. The effects of glycosidic conformation on the sugar-carbon chemical shifts are discussed by comparison of the data for 8:5'-cycloadenosines with the data for adenosine and its 8-substituted derivatives. The effects of a 2'-oxygen on sugar-carbon chemical shifts have been examined by comparing the data for 2'-deoxyadenosine, arabinosyladenine and 8:2'-anhydro-8-oxy-9-beta-D-arabinofuranosyladenine. The effects of phosphomonoester groups on base and sugar carbon resonances have been examined and it is noted that these groups cause downfield shifts for C-8 of all cyclonucleotides. Data for the 3':5'-cyclic monophosphate derivative of 8:2'-anhydro-8-thio-9-beta-D-arabinofuranosyladenine suggest that the previous assignments of C-4' and C-3' for nucleoside 3':5'-cyclic monophosphates must be reversed. According to the reversed assignments, it seems that C-3' and C-5' show moderate downfield shifts and C-4' shows a marked upfield shift.     

Characterization of a plant-like protochlorophyllide a divinyl reductase in green sulfur bacteria

The green sulfur bacterium Chlorobium tepidum synthesizes three types of (bacterio)chlorophyll ((B)Chl): BChl a(P), Chl a(PD), and BChl c(F). During the synthesis of all three molecules, a C-8 vinyl substituent is reduced to an ethyl group, and in the case of BChl c(F), the C-8(2) carbon of this ethyl group is subsequently methylated once or twice by the radical S-adenosylmethionine enzyme BchQ. The C. tepidum genome contains homologs of two genes, bchJ (CT2014) and CT1063, that are highly homologous to genes, bchJ and AT5G18660, and that have been reported to encode C-8 vinyl reductases in Rhodobacter capsulatus and Arabidopsis thaliana, respectively. To determine which gene product actually encodes a C-8 vinyl reductase activity, the bchJ and CT1063 genes were insertionally inactivated in C. tepidum. All three Chls synthesized by the CT1063 mutant of C. tepidum have a C-8 vinyl group. Using NADPH but not NADH as reductant, recombinant BciA reduces the C-8 vinyl group of 3,8-divinyl-protochlorophyllide in vitro. These data demonstrate that CT1063, renamed bciA, encodes a C-8 divinyl reductase in C. tepidum. The bchJ mutant produces detectable amounts of Chl a(PD), BChl a(P), and BChl c(F), all of which have reduced C-8 substituents, but the mutant cells secrete large amounts of 3,8-divinyl-protochlorophyllide a into the growth medium and have a greatly reduced BChl c(F) content. The results suggest that BchJ may play an important role in substrate channeling and/or regulation of Chl biosynthesis but show that it is not a vinyl reductase. Because only some Chl-synthesizing organisms possess homologs of bciA, at least two types of C-8 vinyl reductases must occur.     

Base-catalyzed oligomerization of levoglucosenone

Heating levoglucosenone in aqueous triethylamine gives a dimer and two trimers in yields of 8, 18, and 56%, respectively. These compounds have been isolated crystalline, and their structures and stereochemistry have been investigated by ¹³C- and ¹H-n.m.r. and other spectroscopic methods. These data indicate that the dimer is apparently formed by Michael addition to provide a C-3-C-4 linkage. Similar reactions provide a non-olefinic, C-3-C-4-linked, cyclic trimer and an olefinic, cyclic trimer containing two C-3-C-4 linkages and one C-2-C-3 linkage.     

Structural determination of the sialic acid polysaccharide antigens of Neisseria meningitidis serogroups B and C with carbon 13 nuclear magnetic resonance.

The application of 13-C nuclear magnetic resonance to the analysis of some sialic acid-containing meningococcal polysaccharide antigens is described. Complete assignments of the spectra of both the native serogroup B and the de-O-acetylated serogroup C polysaccharides have been made. These assignments were based on the corresponding data for some related monomers (sialic acid and its alpha-and beta-methylglycosides) and on supportive chemical evidence. The data indicate that the serogroup B polysaccharide is a 2 yields 8-alpha-linked homopolymer of sialic acid, identical in structure with colominic acid from Escherichia coli, whereas the de-O-acetylated serogroup C polysaccharide is a 2 yield 9-alpha-linked homopolymer. The native serogroup C polysaccharide is O-acetylated (1.16 mol of O-acetyl per sialic acid residue), all the O-acetyl substituents being located only at C-7 and C-8 of the sialic acid residues, and in addition contains unacetylated residues (24%). The polysaccharide contains di-O-acetylated residues (O-acetyl on C-7 and C-8), and at least one of the possible monoacetylated residues at C-7 or C-8.     

Synthesis and activity of a C-8 keto pleuromutilin derivative

A C-8 keto pleuromutilin derivative has been synthesized from the biotransformation product 8-hydroxy mutilin. A key step in the process was the selective oxidation at C-8 of 8-hydroxy mutilin using tetrapropylammonium perruthenate. The presence of the C-8 keto group precipitated interesting intramolecular chemistry to afford a compound (10) with a novel pleuromutilin-derived ring system.     

Substrate Orientation and Catalytic Specificity in the Action of Xanthine Oxidase: THE SEQUENTIAL HYDROXYLATION OF HYPOXANTHINE TO URIC ACID*

Xanthine oxidase is a molybdenum-containing enzyme catalyzing the hydroxylation of a sp²-hybridized carbon in a broad range of aromatic heterocycles and aldehydes. Crystal structures of the bovine enzyme in complex with the physiological substrate hypoxanthine at 1.8 Å resolution and the chemotherapeutic agent 6-mercaptopurine at 2.6 Å resolution have been determined, showing in each case two alternate orientations of substrate in the two active sites of the crystallographic asymmetric unit. One orientation is such that it is expected to yield hydroxylation at C-2 of substrate, yielding xanthine. The other suggests hydroxylation at C-8 to give 6,8-dihydroxypurine, a putative product not previously thought to be generated by the enzyme. Kinetic experiments demonstrate that >98% of hypoxanthine is hydroxylated at C-2 rather than C-8, indicating that the second crystallographically observed orientation is significantly less catalytically effective than the former. Theoretical calculations suggest that enzyme selectivity for the C-2 over C-8 of hypoxanthine is largely due to differences in the intrinsic reactivity of the two sites. For the orientation of hypoxanthine with C-2 proximal to the molybdenum center, the disposition of substrate in the active site is such that Arg⁸⁸⁰ and Glu⁸⁰², previous shown to be catalytically important for the conversion of xanthine to uric acid, play similar roles in hydroxylation at C-2 as at C-8. Contrary to the literature, we find that 6,8-dihydroxypurine is effectively converted to uric acid by xanthine oxidase.     

Isolation and identification of oligomeric procyanidins from Crataegus leaves and flowers

Oligomeric procyanidins were isolated from the leaves and flowers of hawthorn (Crataegus laevigata). A trimer, epicatechin-(4β→8)-epicatechin-(4β→6)-epicatechin, and a pentamer consisting of (−)-epicatechin units linked through C-4β/C-8 bonds have been isolated from hawthorn for the first time, in addition to known procyanidins including dimers B-2, B-4 and B-5, trimers C-1 and epicatechin-(4β→6)-epicatechin-(4β→8)-epicatechin, and tetramer D-1. A fraction containing a hexamer was also found.     

Six new melampolides from Tetragonotheca helianthoides

Chemical analysis of Tetragonotheca helianthoides L. yielded six new melampolide-type sesquiterpene lactones, tetrahelins A–F. All new compounds have the same medium ring skeleton and differ by the ester moieties at C-8 and C-9. Tetrahelin A and B contain the side chain 2-methyl-2,3-diacetoxybutanoate and tetrahelin E 3-hydroxy-3-methylbutanoate. Both ester side chains have previously not been found in sesquiterpene lactones.     

Biological evaluation of new antitumor taxoids: Alteration of substitution at the C-7 and C-10 of docetaxel

A series of new docetaxol analogues have been designed and synthesized. And their cytotoxicities against cancer cells have been evaluated by MTT method. Most of these compounds showed selective inhibitions on human cancer cell lines. Among them, compound 8 exhibited higher inhibitory activity than Paclitaxel (Taxol) against several cancer cell lines. This work indicated that appropriate modification at C-7 and C-10 of docetaxel might be a promising approach for this unique class of anticancer compounds.     

Mechanism of activation of protein kinase I from rabbit skeletal muscle. Mapping of the cAMP site by spin-labeled cyclic nucleotides.

Binding of adenosine 3':5'-monophosphate (cAMP) to protein kinase (type I) from rabbit skeletal muscle has been investigated using spin-labeled cAMP derivatives. Different compounds were synthesized with the spin label attached by spacer chains of different length at different positions on the adenine base. Immobilization of the spin label, determined by comparing the electron-spin resonance spectra recorded in the presence of the kinase with those of the free ligand in solutions of different viscosities, gave information about the geometry of the cAMP site. Strong immobilization of the N-6 substituents up to a spacer length of seven atoms indicates a rather deep cleft of the cAMP site. The depth of this cleft differs, however, when the spin label is attached to the different positions at the adenine (N-6, C-2 and C-8). Whereas the N-6 derivatives indicate a rather deep site, the C-2 derivatives reveal a significantly smaller depth and C-8 substituents (syn conformation) obviously occupy a very shallow surface with almost no immobilation. In addition the binding affinities of the spin-labeled cAMP derivatives have been determined, together with those of a series of (diamagnetic) C-2 derivatives bearing hydrophobic alkyl chains of different length. The latter results helped to clarify the differences between the regions near to C-2 and N-6, respectively, of the cAMP site. N-6 spin-labeled derivatives have also been investigated in the presence of ATP and protein kinase. These results are interpreted as indicative of a conformational change at the cAMP site upon formation of the holoenzyme, due to binding of ATP, leaving cAMP less strongly immobilized.     

Stabilities of disulfide bond intermediates in the folding of apamin.

Apamin is an 18-residue bee venom peptide with the sequence CNCKAPETALCARRCQQH-amide and contains 2 disulfide bonds connecting C-1 to C-11 and C-3 to C-15. In the folding of reduced, unfolded apamin to native apamin with two disulfide bonds, the one-disulfide folding intermediate states are not populated to significant levels. To study the properties of the one-disulfide intermediates, we have synthesized two peptide models to mimic the one-disulfide intermediates, Apa-1 and Apa-2, in which two cysteines in the sequence have been replaced by alanines. These peptides can form only one of the native disulfide bonds, C-1 to C-11 in the case of Apa-1 and C-3 to C-15 in the case of Apa-2. The stabilities of these disulfide bonds have been measured as a function of pH, concentration of urea, and temperature, in order to understand which contributions stabilize the disulfide-bonded structures. Using oxidized and reduced glutathione, the equilibrium constants for forming the disulfide bonds at 25 degrees C and pH 7.0 are 0.018 M for Apa-1 and 0.033 M for Apa-2 and show little dependence on pH or temperature. Both disulfide bonds are destabilized slightly (by approximately a factor of 2) between 0 and 8 M urea. Circular dichroism spectra indicate that although both Apa-1 and Apa-2 exhibit some structure, Apa-2 exhibits more than Apa-1. The results suggest that in the folding of apamin, the one-disulfide intermediate containing the C-3 to C-15 disulfide bond, as in Apa-2, is favored slightly. Secondary structure provides modest stabilization to this intermediate.     

An Antibody Specific for Component 8 of Myelin Basic Protein from Normal Brain Reacts Strongly with Component 8 from Multiple Sclerosis Brain

Myelin basic protein (MBP) consists of several components or charge isomers (C-1 through C-8) generated by one or a combination of posttranslational modifications. One of these, C-8, has been shown to contain citrulline (Cit) at defined sites formed by deimination of six arginyl residues. This unusual modification has allowed us to raise antibodies specific for this charge isomer only. To do this, a synthetic peptide, Gly-Cit-Cit-Cit-Cit, was coupled to keyhole limpet hemocyanin and injected into rabbits. The antibodies so generated reacted only with C-8 and not with any of the other charge isomers. A second antibody fraction was raised against the synthetic peptide ACitHGFLPCitHR naturally occurring between residues 24 and 33 of C-8 (all other charge isomers contain R instead of Cit at positions 25 and 31). These antibodies preferred C-8 but reacted with the other charge isomers, to the extent of approximately 25-30% of the reactivity shown with C-8. In studies with C-8 from multiple sclerosis (MS) MBP, much greater reactivity was obtained with these antibodies when compared with their reactivity with C-8 from normal MBP. Because the total number of Cit residues in C-8 from MS and normal MBP is the same, the difference in reactivity may be related to structural factors. The antibodies raised with the tetra-Cit peptide were reacted with three pairs of synthetic peptides: 24ARHGFLPRHR33 and ACitHGFLPCitHR; 120GQRPGFGYGGRAS132 and GQCitPGFGYGGCitAS; and 157GGRDSRSGSPMARR170 and GGCitDSRSGSPMACitR. They reacted only with the Cit-containing peptides in the order 157-170 greater than 120-130 greater than 24-33.(ABSTRACT TRUNCATED AT 250 WORDS)     

Multiple molecular forms of human plasma butyrylcholinesterase. I. Apparent molecular parameters and broad pattern of the quaternary structure (author's transl)]

Apparent molecular parameters (molecular weights, sedimentation constants, partial specific volumes, free electrophoretic mobilities and isoelectric points) of the four molecular forms C-1, C-2, C-3 and C-4 of human plasma butyrylcholinesterase (EC 3.1.1.8) have been demonstrated by polyacrylamide gel electrophoresis methods and centrifugation in sucrose gradient. The C-1 component is the monomeric form of the enzyme )Mr = 84 800 +/- 5800). All the forms are partially interconvertible and C-1, C-3, C-4 are size isomers corresponding to the monomer, dimer and tetramer of the enzyme. An estimation of the general shape of these forms attempted from electrophoretic and hydrodynamic parameters suggests that they are prolate ellipsoids. The C-4 component in which the axial ratio is at least equal to 8 appears to be arranged as a dimer of dimers (C-3)2 in which the two units are associated in a quasi-linear fashion. The C-2 component is composed of C-1 associated with an inactive smaller subunit, which is responsible for its specific electrical properties (mobility and isoelectric point).     

Etude cristallographique des β-d-glucopyranosyl- et β-d-mannopyranosyl-benzènes acétylés,analogues de nucléosides pyrimidiques

The structures of the two title C-glycopyranosylarene nucleosides have been determined by X-ray diffraction. The aim of this work was to relate the conformation around the extracyclic C-1C-7 bond to steric hindrance between the pyranose and benzene rings. The torsion angles observed in the two compounds (O-5C-1C-7C-8: +61,7° for 1, ?13,4° for 2) signify of a C-2 configurational modification. Moreover, the interaction between O-5 and an o-phenyl hydrogen could explain the particular conformation of the aryl substituent in 2.     

Bisulfite-induced C changed to U transitions in yeast valine tRNA.

The reaction of yeast tRNAVallab with NaHSO3 at 25 degrees and pH 5.8 has been studied. Six reactive residues have been located. C-17 in loop I is the most reactive (51% conversion) and C-73 in the first base pair of the acceptor stem the least reactive (8%). Three of the remaining reactive residues (C-39 in loop II, C-75 and C-76 near the acceptor stem) react to the same extent (36 to 38%) under the conditions of the experiment. C-37 in the anticodon reacted to a lesser extent (28%) than C-39 (36%), located just 2 residues away in the anticodon loop. No other changes were detected, but kinetic data suggest one or more additional residues may react very slowly. The C changed to U change in the anticodon (iac changed to iau) is a missense change (Val changed to Ile). Both mechanistic considerations and experimental data from the literature show that HSO3--induced deamination of cytosine residues occurs only at unstacked residues. We interpret the quantitative changes in tRNAVal to indicate that C-17 spends a large portion of its lifetime in an unstacked conformation. The stacking lifetimes of C-37, C-39, C-75, and C-76 seem to be similar but not identical. All other cytidine residues are much more tightly stacked. These results are consistent with the folded cloverleaf models that have been proposed from x-ray diffraction studies of yeast tRNAPhe. Residues C-46, C-49, C-57, and C-61, which are present in the single-stranded regions of the unfolded cloverleaf structure, do not react, suggesting that they are tightly stacked in solution under the conditions of this experiment. The data also suggest that anticodon-loop conformations other than the extremes with five bases stacked on either the 3' or 5' portion of the anticodon stem exist in solution and that the anticodon loop is flexible.     

13C NMR spectra of some naturally occurring binaphthoquinones and related compounds

¹³C NMR chemical shift assignments have been shown to be diagnostic for the establishment of the dimeric linkage of some naturally occurring binaphthoquinones. The unsymmetric ¹³C and ¹H spin-spin coupled pattern observed in the ¹H coupled ¹³C NMR spectrum of plumbagin for C-6 has also been noticed earlier with the related compound juglone. The nature of these effects has been substantiated for the first time using benzene induced solvent shifts and D₂O exchange. ¹³C chemical shift assignments of plumbagin reported earlier for C-6 and C-8 have been revised.