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Optically Pure Metallohelices That Accumulate in Cell Nuclei, Condense/Aggregate DNA, and Inhibit Activities of DNA Processing Enzymes.

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The water-compatible optically pure metallohelices made by self-assembly of simple nonpeptidic organic components around Fe(II) ions are now recognized as a distinct subclass of helicates that exhibit similar architecture to… Click to show full abstract

The water-compatible optically pure metallohelices made by self-assembly of simple nonpeptidic organic components around Fe(II) ions are now recognized as a distinct subclass of helicates that exhibit similar architecture to some natural cationic antimicrobial peptides. Notably, a new series of metallohelices was recently shown to exhibit biological activity, displaying high, structure-dependent activity against bacteria. It is also important that, thanks to their properties, such metallohelices can exhibit specific interactions with biomacromolecules. Here, following our prior report on the metallohelices that have high, structure-dependent activity against bacteria, we investigated the interactions of the series of iron(II) metallohelices with DNA, which is a potential pharmacological target of this class of coordination compounds. The results obtained with the aid of biophysical and molecular biology methods show that the investigated metallohelices accumulate in eukaryotic cells and that a significant fraction of the metallohelices accumulates in the cell nucleus, allowing them to interact also with nuclear DNA. Additionally, we have demonstrated that some metallohelices have a high affinity to DNA and are able to condense/aggregate DNA molecules more efficiently than conventional DNA-condensing agents, such as polyamines. Moreover, this capability of the metallohelices correlates with their efficiency to inhibit DNA-related enzymatic activities, such as those connected with DNA transcription, catalysis of DNA relaxation by DNA topoisomerase I, and cleavage by restriction enzymes.

Keywords: condense aggregate; dna; aggregate dna; optically pure; metallohelices accumulate; pure metallohelices

Journal Title: Inorganic chemistry
Year Published: 2020

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