C. Savoye scite author profile

C. Savoye

5Publications

32Citation Statements Received

20Citation Statements Given

How they've been cited

145

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108

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Centre de Biophysique Moléculaire

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Identification of genes involved in biosynthesis of <I>Actinobacillus pleuropneumoniae</I> serotype 1 O-antigen and biological properties of rough mutants

Labrie¹,

Rioux²,

Wade³

et al. 2002

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Actinobacillus pleuropneumoniae is an important pathogen of swine. Lipopolysaccharide (LPS) has been identified as the major adhesin of A. pleuropneumoniae and it is involved in adherence to porcine respiratory tract cells. We previously generated seven rough LPS mutants of A. pleuropneumoniae serotype 1 by using a mini-Tn10 transposon mutagenesis system [Rioux S, Galarneau C, Harel J et al. Isolation and characterization of mini-Tn10 lipopolysaccharide mutants of Actinobacillus pleuropneumoniae serotype 1. Can J Microbiol 1999; 45: 1017-1026]. The purpose of the present study was to characterize these mutants in order to learn more about LPS O-antigen biosynthesis genes and their organization in A. pleuropneumoniae, and to determine the surface properties and virulence in pigs of these isogenic mutants. By mini-Tn10 insertions in rough mutants, four putative genes (ORF12, ORF16, ORF17, and ORF18) involved in O-antigen biosynthesis in A. pleuropneumoniae serotype 1 were found within a region of 18 ORFs. This region is homologous to the gene cluster of serotype-specific O-polysaccharide biosynthesis from A. actinomycetemcomitans strain Y4 (serotype b). Two mutants showed homology to a protein with identity to glycosyltransferases (ORF12); two others had the mini-Tn10 insertion localized in genes encoding for two distinct proteins with identity to rhamnosyltransferases (ORF16 and ORF17) and three showed homology to a protein which is known to initiate polysaccharide synthesis (ORF18). These four ORFs were also present in A. pleuropneumoniae serotypes 9 and 11 that express an O-antigen that serologically cross-reacts with serotype 1. Evaluation of some biological properties of rough mutants seems to indicate that the absence of O-chains does not appear to have an influence on the virulence of the bacteria in pigs and on the overall surface hydrophobicity, charge and hemoglobin-binding activity, or on LAL activation. An acapsular mutant was included in the present study in order to compare the influence of O-chains and capsule polysaccharides on different cell surface properties. Our data suggest that capsular polysaccharides and not O-chains polysaccharides have a major influence on surface properties of A. pleuropneumoniae serotype 1 and its virulence in pigs.

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Thiol WR-1065 and disulphide WR-33278, two metabolites of the drug Ethyol (WR-2721), protect DNA against fast neutroninduced strand breakage

Savoye¹

1997

International Journal of Radiation Biology

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The main metabolites of the cytoprotective drug Ethyol (Amifostine, WR-2721) are the thiol WR-1065 and the disulphide WR-33278 (formed by the oxidation of WR-1065). Both metabolites are well-known protectors against DNA damage induced by gamma-rays. Using supercoiled plasmid DNA and restriction fragments we show that they protect efficiently also in the case of fast neutrons. In anoxic conditions WR-1065 (Z = +2) protects by scavenging of OH. and by 'chemical repair' (by H donation from its SH function). WR-33278 (Z = +4) protects by scavenging of OH. and, in the case of the supercoiled plasmid DNA, by reducing the accessibility of radiolytic attack sites via the induction of packaging of DNA in liquid-crystalline condensates (observed by circular dichroism). Because of this second mechanism, the plasmid DNA is more efficiently protected by WR-33278 than by WR-1065, at concentration ratios > 1 drug/4 nucleotides. Moreover, using sequencing gel electrophoresis of irradiated fragments of known sequence, we show that the protection by the two metabolites is non-homogeneously distributed along the DNA sequence, with 'hot spots' of protection and with unprotected regions. Based on presented molecular modelling results we explain the sequence dependence of radioprotection by structural variations induced by the binding of the drugs.

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Sequence-modulated radiosensitization of DNA by copper ions

Savoye

Sabattier²,

Charlier³

et al. 1996

International Journal of Radiation Biology

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Plasmid DNA and restriction fragments of 80 and 120 base pairs were irradiated with fast neutrons in the presence of CuCl2. The number of single and double strand breaks is higher in the presence than in the absence of Cu2+ ions. The radiosensitizing effect was lower for solutions of high compared with low ionic strength, and also lower for deoxygenated than for aerated solutions. This effect was inhibited by EDTA, catalase and Tris, but not by ethanol. Superoxide dismutase partially inhibited the effect of low copper concentrations (< 1 Cu2+/nucleotide). Saturation of the solutions with N2O removed the effect for these concentrations of copper. The sensitization occurred preferentially at pyrimidines (thymines > cytosines) situated 5' to one or several purines (guanine > adenine) or located between two purines, at runs of purines (guanine > adenine), and at combinations of such sequences. The results can be only partially explained by a Fenton-like mechanism involving radiation induced hydrated electrons and hydrogen peroxide, which produces OH. radicals at the sites of binding of copper on DNA. The regions around these binding sites may undergo conformational changes. A second path for sensitization could be the enhancement of the efficiency of cleavage by the radiolytically produced OH. radicals in these conformationally modified regions.

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Radioprotection of DNA by spermine: a molecular modelling approach

Hugot

Savoye³

et al. 1999

International Journal of Radiation Biology

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Sequence dependence of DNA radioprotection by the thiols WR-1065 and WR-151326

Durand

Hugot

et al. 1999

Theoretical Chemistry Accounts: Theory, Computation, and Modeli

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Sequence-dependent variations of DNA structure modulate radiation-induced strand breakage. Thiols reduce breakage by scavenging damaging radiolytic OH . and repairing sugar radicals. As shown by sequencing gel electrophoresis, WR-1065 radioprotection is modulated by sequence, whereas that of WR-151326, a larger thiol, is more evenly distributed. Molecular modelling was performed on complexes of a 53 bp oligonucleotide (belonging to a natural restriction fragment) with one molecule of WR-1065 or WR-151326. Energy minimised structures exhibit a broadening of the minor groove of an AAATT motif upon WR-1065 binding, and a narrowing of the groove upon WR-151326 binding. Consequently, the accessibility to OH á of H4¢ (whose abstraction leads to strand breakage) increases near WR-1065, whereas it decreases near WR-151326. This modi®es locally the otherwise homogeneous radioprotection. The eect of WR-151326 strengthens the protection at all tested binding sites, whereas that of WR-1065 diminishes it in some regions, in good agreement with the observed radioprotection distribution.

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C. Savoye

Identification of genes involved in biosynthesis of <I>Actinobacillus pleuropneumoniae</I> serotype 1 O-antigen and biological properties of rough mutants

Thiol WR-1065 and disulphide WR-33278, two metabolites of the drug Ethyol (WR-2721), protect DNA against fast neutroninduced strand breakage

Sequence-modulated radiosensitization of DNA by copper ions

Radioprotection of DNA by spermine: a molecular modelling approach

Sequence dependence of DNA radioprotection by the thiols WR-1065 and WR-151326

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