Polyamines are known to be involved in cell growth regulation in breast cancer. To evaluate the efficacy of bis(ethyl)polyamine analogs for breast cancer therapy and to understand their mechanism of action we measured the effects of a series of polyamine analogs on cell growth, activities of enzymes involved in polyamine metabolism, intracellular polyamine levels, and the uptake of putrescine and spermidine using MCF-7 breast cancer cells. The IC50values for cell growth inhibition of three of the compounds, N1,N12-bis(ethyl)spermine, N1,N11- bis(ethyl)norspermine, and N1,N14-bis(ethyl)homospermine, were in the range of 1-2 µM. Another group of three compounds showed antiproliferative activity at about 5 µM level. These compounds are also capable of suppressing colony formation in soft agar assay and inducing apoptosis of MCF-7 cells. The highly effective growth inhibitory agents altered the activity of polyamine biosynthetic and catabolic enzymes and down-regulated the transport of natural polyamines, although each compound produced a unique pattern of alterations in these parameters. HPLC analysis showed that cellular uptake of bis(ethyl)polyamines was highest for bis(ethyl)spermine. We also analyzed polyamine analog conformations and their binding to DNA minor or major grooves by molecular modelling and molecular dynamics simulations. Results of these analyses indicate that tetramine analogs fit well in the minor groove of DNA whereas, larger compounds extend out of the minor groove. Although major groove binding was also possible for the short tetramine analogs, this interaction led to a predominantly bent conformation. Our studies show growth inhibitory activities of several potentially important analogs on breast cancer cells and indicate that multiple sites are involved in the mechanism of action of these analogs. While the activity of an analog may depend on the sum of these different effects, molecular modelling studies indicate a correlation between antiproliferative activity and stable interactions of the analogs with major or minor grooves of DNA.Key words: polyamine analogs, breast cancer cells, apoptosis, molecular modelling.
Sensitivity to 1,4-dihydropyridines (DHPs) can be transferred from L-type (alpha1C) to non-L-type (alpha1A) Ca(2+) channel alpha1 subunits by the mutation of nine pore-associated non-conserved amino acid residues, yielding mutant alpha1A(DHP). To determine whether the hallmarks of reversible DHP binding to L-type Ca(2+) channels (nanomolar dissociation constants, stereoselectivity and modulation by other chemical classes of Ca(2+) antagonist drugs) were maintained in alpha1A(DHP), we analysed the pharmacological properties of (+)-[(3)H]isradipine-labelled alpha1A(DHP) Ca(2+) channels after heterologous expression. Binding of (+)-isradipine (K(i) 7.4 nM) and the non-benzoxadiazole DHPs nifedipine (K(i) 86 nM), (+/-)-nitrendipine (K(i) 33 nM) and (+/-)-nimodipine (K(i) 67 nM) to alpha1A(DHP) occurred at low nanomolar K(i) values. DHP binding was highly stereoselective [25-fold higher affinity for (+)-isradipine]. As with native channels it was stimulated by (+)-cis-diltiazem, (+)-tetrandrine and mibefradil. This suggested that the three-dimensional architecture of the channel pore was maintained within the non-L-type alpha1A subunit. To predict the three-dimensional arrangement of the DHP-binding residues we exploited the X-ray structure of a recently crystallized bacterial K(+) channel (KcsA) as a template. Our model is based on the assumption that the Ca(2+) channel S5 and S6 segments closely resemble the KcsA transmembrane folding architecture. In the absence of three-dimensional structural data for the alpha1 subunit this is currently the most reasonable approach for modelling this drug-interaction domain. Our model predicts that the previously identified DHP-binding residues form a binding pocket large enough to co-ordinate a single DHP molecule. It also implies that the four homologous Ca(2+) channel repeats are arranged in a clockwise manner.
Reactions of the pyridazine derived aldimine 1 with lithium enolates of various α‐substituted acetates were investigated. An unprecedented formation of the pyrido[3,4‐d]pyridazine system due to nucleophilic attack of a carbanion species at the β‐position of the pyridazine ring was observed.
A series of azoles and aminoazoles with a 3,4-dichlorobenzyl moiety attached to a ring nitrogen atom was synthesized via reaction of the parent systems with 3,4-dichlorobenzyl chloride. Regioisomeric products were discriminated on the basis of 13C-NMR data or by NOE-difference spectroscopy. The affinities of some representatives towards sigma-1 and sigma-2 receptors were determined by receptor binding assays.
2005 Computers in chemistry V 0380 Pharmacophore Identification, in Silico Screening, and Virtual Library Design for Inhibitors of the Human Factor Xa. -(KROVAT*, E. M.; FRUEHWIRTH, K. H.; LANGER, T.; J. Chem. Inf. Model. (J. Chem. Inf. Comput. Sci.) 45 (2005) 1, 146-159; Dep. Pharm., Leopold-Franzens-Univ., A-6020 Innsbruck, Austria; Eng.) -Lindner 16-212
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