A quantitative-structure activity relationship (QSAR) study has been made on two different series of sodium channel blockers--namely, a series of 3-(4-phenoxyphenyl)pyrazoles and a series of 2-alkyl-4-arylimidazoles--and a series of potassium channel blockers that comprises of khellinone derivatives, which act on voltage-gated K(+) channels Kv1.3. In both the cases--the inhibition of Na+ channels or the inhibition of K+ channels--the significant correlations were obtained between the inhibition potencies and the hydrophobic properties of the compounds. This led to suggest that the hydrophobic property of the compounds is a major determining factor of the Na+/K+ channel blocking activity and that the compounds might elicit their effects through the hydrophobic interactions with the receptors.
A simple and efficient method has been developed for conversion of arenecarbaldehyde-3-methylquinoxalin-2-ylhydrazones to 3-(2-methylquinoxalin-3-yl)-2-(substitutedphenyl)thiazolidin-4-ones in good yields using microwave irradiation technique on silica as solid support under solvent free conditions. The synthesized compounds were characterized by elemental microanalysis, infrared spectroscopy, 1 H NMR, and mass spectroscopy. All the synthesized thiazolidinones were investigated for their antimicrobial and antifungal activities. The results of the biological activities revealed that the compounds 3b, 3d, 3f and 3h exhibited excellent antibacterial activities while 3d and 3h exhibited good antifungal activity.
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