Human DNA topoisomerase I inhibitory activities of synthetic polyamines: relation to DNA aggregation

DNA aggregation by polyamines has acquired importance as a prerequisite for the cellular uptake of DNA for gene therapy. Intracellular polyamines are constitutive components of mammalian cells and their availability is critical for cell proliferation. Interference of polyamine biosynthesis by synthe...

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Bibliographic Details
Published in:Bioorganic & medicinal chemistry 2001-05, Vol.9 (5), p.1255-1268
Main Authors: Sukhanova, Alyona, Dêvy, Jerome, Pluot, Michel, Bradley, Jean-Claude, Vigneron, Jean-Pierre, Jardillier, Jean-Claude, Lehn, Jean-Marie, Nabiev, Igor
Format: Article
Language:English
Subjects:
Antineoplastic agents
Base Sequence - physiology
Biochemistry, Molecular Biology
Biogenic Polyamines - metabolism
Biogenic Polyamines - pharmacology
Biological and medical sciences
Cancer
Chemical Precipitation
DNA - drug effects
DNA Fragmentation - drug effects
DNA Topoisomerases, Type I - metabolism
General aspects
Humans
Life Sciences
Medical sciences
Microscopy, Polarization
Molecular Sequence Data
Pharmacology. Drug treatments
Plasmids - genetics
Plasmids - metabolism
Polyamines - chemical synthesis
Polyamines - metabolism
Polyamines - pharmacology
Topoisomerase I Inhibitors
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Summary:DNA aggregation by polyamines has acquired importance as a prerequisite for the cellular uptake of DNA for gene therapy. Intracellular polyamines are constitutive components of mammalian cells and their availability is critical for cell proliferation. Interference of polyamine biosynthesis by synthetic polyamines leads to cytotoxicity. Optimization of the polyamine structural parameters is necessary to control their DNA aggregation, cytotoxic or enzyme inhibitory activities. We designed two series of tetra- and hexamines and compared their human DNA topoisomerase I (top1) inhibitory effects with the DNA aggregation properties. We show that hexamines are more efficient inhibitors of DNA relaxation by top1 than tetramines and that they suppress the top1-mediated DNA cleavage while tetramines do not. The DNA aggregation abilities within two series of polyamines correlate with the length of their central methylene chain. By contrast, the top1 inhibition within two series does not show the same correlation but demonstrates a threshold inhibitory effect on going from the (CH 2) 12 to the (CH 2) 14 central chain. We show further that the structures of DNA aggregates formed by polyamines with the (CH 2) 10–12 or with the (CH 2) 14–16 chains are very different. The first are a fluid cholesteric-type phases, whereas the second are well-structured aggregates similar to columnar liquid crystals with high packing density of DNA duplexes. The structures of polyamines-induced DNA aggregates are proposed to be crucial for top1 catalysis. The structure–function correlation described here may serve as a guide for rational design of polyamines with desired DNA-aggregation or anti-top1 activities. Structure–function correlation of seven synthetic tetramines and hexamines in terms of their DNA aggregation abilities and human DNA topoisomerase I inhibition activities.
ISSN:0968-0896
1464-3391
DOI:10.1016/S0968-0896(01)00009-8