Jan Mazerski scite author profile

A series of DNA-intercalating potential antitumor agents, 1-[(omega-aminoalkyl)amino]-4-[N-(omega-aminoalkyl)carbamoyl]-9-oxo-9, 10-dihydroacridines, has been prepared by aminolysis of the corresponding 4-[N-(omega-aminoalkyl)carbamoyl]-1-chloro derivative with a suitable omega-aminoalkylamine. The noncovalent DNA-binding properties of these bis-functionalized compounds have been examined using a combination of fluorometric and thermal denaturation techniques and are compared with the behaviors for established DNA intercalants and cationic minor groove ligands. The results indicate that (i) the agents are considerably more DNA-affinic than less functionalized acridinones, with 'apparent' binding constants of (0.1-2.1) x 10(7) and (0.3-7.5) x 10(7) M-1 at pH 5 and 7, respectively, (ii) overall affinity is sensitive to both the length of the flexible side chain and the complexity of the attached amine substituents, and (iii) the pendant side chains effect a switch to moderate AT-preferential binding. In vitro cytotoxic potencies toward six tumor cell lines broadly parallel the observed DNA affinities, although poor correlation is evident for certain compounds. The octanol/water partition coefficients have been also calculated, but there is no correlation with cytotoxicity values. Two highly DNA-affinic analogs, 10 and 13, have been identified with a useful broad spectrum of cytotoxic activity.

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Influence of net charge on the aggregation and solubility behaviour of amphotericin B and its derivatives in aqueous media

Mazerski

Grzybowska

Borowski

1990

Eur Biophys J

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The poor solubility of polyene antibiotics in aqueous media limits their application in the therapy of systemic fungal infections. In the present paper we have demonstrated that the ionic state (net electrical charge) of the antibiotic molecule is an important factor in determining the aggregation and solubility properties of amphotericin B and its derivatives. A multi-step model of polyene self-association in aqueous media has been proposed as an explanation for the fact that some major differences are observed when aggregation is monitored by different techniques.

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Jan Mazerski

Quantitative structure-activity relationships in amphotericin B derivatives

1-[(ω-Aminoalkyl)amino]-4-[N-(ω-aminoalkyl)carbamoyl]-9-oxo-9,10-dihydro- acridines as Intercalating Cytotoxic Agents: Synthesis, DNA Binding, and Biological Evaluation

Influence of net charge on the aggregation and solubility behaviour of amphotericin B and its derivatives in aqueous media

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