Jolanta Grzybowska scite author profile

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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The role of halogen substitution in classical cannabinoids: A CB1 pharmacophore model

Nikas

Grzybowska

Papahatjis

et al. 2004

AAPS J

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The presence of halogens within the classical cannabinoid structure leads to large variations in the compounds' potencies and affinities for the CB1 receptors. To explore the structure activity relationships within this class of analogs we have used a series of halogen-substituted (-)-∆ 8 -tetrahydrocannabinol analogs and compared their affinities for the CB1 cannabinoid receptor. Our results indicate that halogen substitution at the end-carbon of the side chain leads to an enhancement in affinity with the bulkier halogens (Br, I) producing the largest effects. Conversely, 2-iodo substitution on the phenolic ring leads to a 2-fold reduction in affinity while iodo-substitution in the C1'-position of the side chain lowers the compound's affinity for CB1 by more than 8-fold. The pharmacophoric requirements resulting from halogen-substitution are explored using computer modeling methods.

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Jolanta Grzybowska

Quantitative structure-activity relationships in amphotericin B derivatives

Delivery systems for antisense oligonucleotides

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

The role of halogen substitution in classical cannabinoids: A CB1 pharmacophore model

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