V. Boudný scite author profile

Modification of DNA and double-stranded deoxyoligonucleotides with antitumour 1,2-diamino-cyclohexanedinitroplatinum(II) (Pt-dach) complexes was investigated with the aid of physico-chemical methods and chemical probes of nucleic acid conformation. The three Pt-dach complexes were used which differed in isomeric forms of the dach nonleaving ligand-Pt(1R,2R-dach), Pt(1S,2S-dach) and Pt(1R,2S-dach) complexes. The latter complex has lower antitumour activity than the other two Pt-dach complexes. Pt(1R,2S-dach) complex exhibits the slowest kinetics of its binding to DNA and of the conversion of monofunctional binding to bifunctional lesions. The anomalously slow electrophoretic mobility of multimers of the platinated and ligated oligomers suggests that bifunctional binding of Pt-dach complexes to a d(GG) site within double-stranded oligonucleotides induces bending of the oligomer. In addition, chemical probing of double-helical deoxyoligonucleotides modified by the Pt-dach complexes at the d(GG) sites reveals that Pt(1R,2S-dach) complex induces more extensive conformational changes in the oligomer than Pt(1R,2R-dach) and Pt(1S,2S-dach) complexes. It is proposed that different effects of the Pt-dach complexes on DNA observed in this work arise mainly from a steric crowding of the axially oriented cyclohexane ring in the DNA adduct of Pt(1R,2S-dach) complex.

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Monofunctional Adducts of Platinum(II) Produce in DNA a Sequence-Dependent Local Denaturation

Brabec¹,

Boudný²,

Balcarová³

1994

Biochemistry

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The effects on the conformation of DNA produced by the monofunctional adducts of chloro-(diethylenetriamine)platinum(II) chloride or cis-diamminemonoaquamonochloroplatinum(II) have been investigated by means of the single-strand-specific probe chloroacetaldehyde (CAA). The denatured sites to which CAA was bound and that were induced in DNA by the monofunctional adducts of the platinum complexes were characterized by means of three experimental approaches. These include measurement of the fluorescence of a plasmid fragment treated with CAA, analysis of oligonucleotides treated with CAA and cleaved by piperidine, and termination of duplex transcription on a fragment of plasmid DNA treated with CAA. The results indicate that the denaturational change preferentially occurs in the base pair containing the monoadducted deoxyriboguanosine in the trinucleotide sequence Py-deoxyriboguanosine-Py (Py is a pyrimidine deoxyribonucleoside). It was suggested that this conformational alteration facilitates in DNA the formation of minor bifunctional adducts of cis-diamminedichloroplatinum(II).

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Superhelical torsion controls DNA interstrand cross-linking by antitumor cis- diamminedichloroplatinum(II)

Vrána

Boudný

Brabec

1996

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Negatively supercoiled, relaxed and linearized forms of pSP73 DNA were modified in cell-free medium by cis-diamminedichloroplatinum(II) (cisplatin). The frequency of interstrand cross-links (ICLs) formed in these DNAs has been determined by: (i) immunochemical analysis; (ii) an assay employing NaCN as a probe of DNA ICLs of cisplatin; (iii) gel electrophoresis under denaturing conditions. At low levels of the modification of DNA (<1 Pt atom fixed per 500 bp) the number of ICLs formed by cisplatin was radically enhanced in supercoiled in comparison with linearized or relaxed DNA. At these low levels of modification, the frequency of ICLs in supercoiled DNA was enhanced with increasing level of negative supercoiling or with decreasing level of modification. In addition, the replication mapping of DNA ICLs of cisplatin was consistent with these lesions being preferentially formed in negatively supercoiled DNA between guanine residues in both the 5'-d(GC)-3' and the 5'-d(CG)-3' sites. Among the DNA adducts of cisplatin the ICL has the markedly greatest capability to unwind the double helix. We suggest that the formation of ICLs of cisplatin is thermodynamically more favored in negatively supercoiled DNA owing mainly to the relaxation of supercoils.

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Development of IFN-γ resistance is associated with attenuation of SOCS genes induction and constitutive expression of SOCS 3 in melanoma cells

et al. 2007

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The resistance to interferons (IFNs) limits their anticancer therapeutic efficacy. Here we studied the evolution of an IFN-resistant state in vitro using melanoma cell lines. We found that the cells became less sensitive to antiproliferative effect of IFN-g after prolonged cultivation enabling us to isolate sensitive and resistant subclones of the parental line. We investigated transcription of signal transducer and activator of transcription (STAT) 1 -6 and suppressor of cytokine signalling (SOCS) 1 -3 genes, and phosphorylation of STAT 1 protein. The resistant subline (termed WM 1158R) differed from the sensitive subline (WM 1158S) by a constitutive expression of SOCS 3, lack or weak SOCS 1 -3 activation following IFN-g, and short duration of cytokine activatory signal. Similar correlations were observed in additional melanoma lines differing in IFN sensitivities. At the protein level, IFN-g induced strong and prolonged STAT 1 activation at serine 727 (S727) in WM 1158R while in WM 1158S cells phosphorylation of this amino acid was much less pronounced. On the other hand, phosphorylation of tyrosine 701 (Y701) was stimulated regardless of the sensitivity phenotype. In conclusion, constitutive expression of SOCS 3 is correlated with attenuation of its induction following IFN treatment. These results suggest that progression of melanoma cells from IFN sensitivity to IFN insensitivity associates with changes in SOCS expression.

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V. Boudný

Biophysical analysis of DNA modified by 1,2-diaminocyclohexane platinum(II) complexes

Monofunctional Adducts of Platinum(II) Produce in DNA a Sequence-Dependent Local Denaturation

Superhelical torsion controls DNA interstrand cross-linking by antitumor cis- diamminedichloroplatinum(II)

Development of IFN-γ resistance is associated with attenuation of SOCS genes induction and constitutive expression of SOCS 3 in melanoma cells

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