Júlia Visy

Separation of enantiomers of benzodiazepines on the Chiral-AGP column

The resolution of twenty-five 3-chiral and 5-chiral 1,4-benzodiazepines and related compounds was studied on a Chiral-AGP column. Relationship between the structure and enantioselective retention is discussed stressing the role of hydrophobic and hydrogen-bonding interactions as well as the importance of the conformation of the enantiomers. The majority of the benzodiazepines were separated with high separation factors and high resolution. The enantioselectivity was influenced by the nature and the concentration of the organic modifier in the mobile phase, as well as by the pH. Chiral chromatographic separation was compared with stereoselective binding on native AGP.

Stereoselective allosteric binding interaction on human serum albumin between ibuprofen and lorazepam acetate

The effect of ibuprofen enantiomers on the stereoselective binding of 3-acyloxy-1,4-benzodiazepines to human serum albumin (HSA) was studied using both native and Sepharose-immobilized protein. (S)-Lorazepam acetate exhibited considerably enhanced binding, especially in the presence of (+)-(S)-ibuprofen. The phenomenon is an indication of cooperative allosteric interaction between different binding sites during multiple cobinding of two ligands.

Species-dependency in chiral-drug recognition of serum albumin studied by chromatographic methods

Stereoselective binding of benzodiazepine and coumarin drugs to serum albumin from human and six mammalian species were studied by chiral chromatographic techniques. The applied methods were affinity chromatography on the albumins immobilized on Sepharose 4B, high-performance liquid chromatography (HPLC) separation on columns based on human serum albumin (HSA) and bovine serum albumin (BSA), and chiral HPLC analysis of ultrafiltrates of solutions containing the racemic drug and the native protein. Substantial differences in preferred configurations and conformations were detected among the species. The binding stereoselectivity of the 2,3-benzodiazepine drug, tofisopam, in human, is opposite to that in all other species. In the binding of 1,4-benzodiazepines, dog albumin is very similar to HSA. Highly preferred binding of (S)-phenprocoumon was found with dog albumin.

Enantiomeric separation of antimalarial drugs by capillary electrophoresis using neutral and negatively charged cyclodextrins

Capillary electrophoresis (CE) methods for chiral resolution of five antimalarial drugs (primaquine, tafenoquine, mefloquine, chloroquine and quinacrine) were developed by using a wide selection of neutral and anionic cyclodextrin (CD) derivatives. The use of sulfobutyl-β-CD and carboxymethyl-β-CD (CMBCD) resulted in good resolution of quinacrine and tafenoquine, respectively. New results are presented for resolutions of chloroquine and mefloquine. Application of carboxyalkyl- and sulfobutyl-CD derivatives provided improved resolution for primaquine. The impurity in primaquine sample detected by CE was identified as quinocide by MS and NMR. CMBCD provided not only the best separation of primaquine from quinocide but also the simultaneous complete resolution of both compounds.

New insight into the mechanism of hypervalent iodine oxidation of flavanones

Flavanone (1) on oxidation with iodobenzene diacetate (PIDA) in the presence of sulfuric acid in trimethyl orthoformate (TMOF) undergoes a stereospecific ring contraction by an aryl shift to result in trans methyl 2-aryl-2,3-dihydrobenzo[b]furan-3-carboxylate (4a) as a major product. The mechanism of this transformation has been discussed on the basis of NMR, CD and chiral HPLC evidence.

Chiral separation by a monofunctionalized cyclodextrin derivative: From selector to permethyl-β-cyclodextrin bonded stationary phase

Preparation of (6-monoureido-6-monodeoxy) permethylated beta-cyclodextrin bonded chiral stationary phase from permethylated 6-monoamino-6-monodeoxy-beta-cyclodextrin is described. The optimized chiral stationary phase was evaluated by using HPLC separation of racemates of coumarin derivatives. Column characterization was performed by solid-state (13)C, (15)N, (29)Si NMR using cross-polarization at the magic angle spinning. The development process was supported by CE experiments where the complex formation between cyclodextrins and warfarin was investigated. The results demonstrate good enantio-discrimination for coumarin derivatives.

Binding of vinca alkaloid analogues to human serum albumin and to α1-acid glycoprotein

Abstract The binding of a series of vinca alkaloid analogues having eburnane or indolo[2,3- a ]quinolizidine skeletons was studied with human serum albumin (HSA) by affinity chromatography and with α 1 -acid glycoprotein by means of competition experiments. On HSA the binding occurs at the benzodiazepine-indole binding site via hydrophobic interaction and shows slight stereoselectivity preferring the trans isomers. The binding to α 1 -AGP proved to be highly stereoselective in favour of the trans isomers having 3( S ),16( R )eburnane or 1( R ),12b( S )indolo[2,3- a ]quinolizidine absolute configurations.

Separation of cis-β-lactam enantiomers by capillary electrophoresis using cyclodextrin derivatives

Chiral separation of 19 pairs of cis-beta-lactam (BL) stereoisomers of pharmacological importance was examined by capillary electrophoresis using cyclodextrin (CD) derivatives. In order to select the most effective conditions separating the highest number of stereoisomers of BLs, single carboxymethyl alpha-, beta- and gamma-, as well as sulfobutyl beta-CD derivatives were applied. Additionally, carboxymethyl and sulfobutyl beta-CD derivatives complemented with neutral beta-CD derivatives as dual CD systems were tested. Both the composition and concentration of applied selectors and the pH of background electrolyte were selected. In single systems the structural characteristics of BLs and the complex forming affinity were correlated. Most BLs provided optimal complexation with beta-CD derivatives. In conclusion, the efficiency of combining sulfobutyl-beta-CD and permethylated beta-CD was superior to other single and dual CD systems applied. This method successfully separated each pair of stereoisomers investigated.

Inverse stereoselectivity in the binding of acenocoumarol to human serum albumin and to α1-acid glycoprotein

Stereoselective binding of rac-acenocoumarol to human serum albumin (HSA) and alpha 1-acid glycoprotein (alpha 1-AGP) was investigated by affinity chromatography and by combined ultrafiltration (UF) and circular dichroism (CD) methods. For HSA, the ratio of the enantiomeric constants was KR/KS = 2, while for alpha 1-AGP, KS/KR = 3.

Polyamidoamine dendrimer impairs mitochondrial oxidation in brain tissue

BackgroundThe potential nanocarrier polyamidoamine (PAMAM) generation 5 (G5-NH2) dendrimer has been shown to evoke lasting neuronal depolarization and cell death in a concentration-dependent manner. In this study we explored the early progression of G5-NH2 action in brain tissue on neuronal and astroglial cells.ResultsIn order to describe early mechanisms of G5-NH2 dendrimer action in brain tissue we assessed G5-NH2 trafficking, free intracellular Ca2+ and mitochondrial membrane potential (ΨMITO) changes in the rat hippocampal slice by microfluorimetry. With the help of fluorescent dye conjugated G5-NH2, we observed predominant appearance of the dendrimer in the plasma membrane of pyramidal neurons and glial cells within 30 min. Under this condition, G5-NH2 evoked robust intracellular Ca2+ enhancements and ΨMITO depolarization both in pyramidal neurons and astroglial cells. Intracellular Ca2+ enhancements clearly preceded ΨMITO depolarization in astroglial cells. Comparing activation dynamics, neurons and glia showed prevalence of lasting and transient ΨMITO depolarization, respectively. Transient as opposed to lasting ΨMITO changes to short-term G5-NH2 application suggested better survival of astroglia, as observed in the CA3 stratum radiatum area. We also showed that direct effect of G5-NH2 on astroglial ΨMITO was significantly enhanced by neuron-astroglia interaction, subsequent to G5-NH2 evoked neuronal activation.ConclusionThese findings indicate that the interaction of the PAMAM dendrimer with the plasma membrane leads to robust activation of neurons and astroglial cells, leading to mitochondrial depolarization. Distinguishable dynamics of mitochondrial depolarization in neurons and astroglia suggest that the enhanced mitochondrial depolarization followed by impaired oxidative metabolism of neurons may be the primary basis of neurotoxicity.