Chiral zwitterionic stationary phases based on Cinchona alkaloids and dipeptides: Application in chiral separation of dipeptides under reversed phase conditions.

Chromatographic behavior of novel chiral stationary phases with bonded selectors based on Cinchona alkaloids modified with dipeptides was studied using dipeptides as probe molecules. Buffer-free and salt containing hydro-organic solutions were used as the mobile phases. The selectors exhibit pseudoenantiomeric behavior with respect to the L/D or LL/DD enantiomers and do not behave so with respect to the LD/DL enantiomers. The alkaloid part of the selectors is the driver of enantioselectivity, while the dipeptide substituent plays a modulating role. The quinidine-based selectors demonstrate stronger adsorption affinity and higher enantioselectivity as compared to the quinine-based selectors. The dipeptide analytes containing a glycyl fragment are weaker retained and their enantiomers are worse separated comparing to dipeptides with both units being larger amino acids. Moreover, a phenyl group in the structure of a dipeptide analyte facilitates enantioseparation. The effect of the mobile phase composition on retention depends on the hydrophobicity of an analyte. Hydrophobic dipeptides are better eluted by methanol-rich solvents, hydrophilic dipeptides are better eluted with water-rich solvents, and dipeptides with an intermediate hydrophobicity demonstrate a U-shaped or more complicated dependence of the retention factor on the percentage of methanol. Even a small buffer addition to the mobile phase decreases retention, but the ion-exchange mechanism was not confirmed. The effect of an electrolyte is rather due to the shielding of the charged groups of the selector reducing thereby electrostatic interaction between the selector and analyte. Efficiency of the novel columns is comparable to that of other brush-type chiral columns, the highest achieved number of the theoretical plates per 1 m varying between 30,000 and 40,000.

Endophyte composition and Cinchona alkaloid production abilities of Cinchona ledgeriana cultivated in Japan.

New eight endophytic filamentous fungi were isolated from the young stems of Cinchona ledgeriana (Rubiaceae) cultivated in Japan. They were classified into four genera based on phylogenetic analysis of the nucleotide sequences of the internal transcribed spacers (ITS1 and ITS2), including the 5.8S ribosomal DNA region. Of the eight fungi isolated, there were five genera Cladosporium, one Meira sp., one Diaporthe sp. and one Penicillium sp. Genus of Cladosporium and Meira were first isolated fungi from Cinchona plant. In a previous study, we applied the same process to the same plant cultivated in Indonesia. The endophyte compositions for the two cultivation regions were found to differ at the genera level. The ability of Cinchona endophytes cultivated in Japan to produce Cinchona alkaloids was also assessed. We found that three isolates have producing ability of Cinchona alkaloids. However, the amount produced was very small compared to that produced by the endophytes of Indonesian Cinchona ledgeriana. In addition, the total content amount of Cinchona alkaloids, especially quinine, produced by the extract of Cinchona cultivated in Japan was much smaller than that from Indonesia. These finding indicate that endophyte composition has an influence on the Cinchona alkaloid content amount in the Cinchona ledgeriana host.

Sweeping of hydrophobic amines under inhomogeneous electric field and low surfactant concentration in micellar electrokinetic chromatography.

The influence of sample matrix on sample sweeping in MEKC was examined in the presented manuscript. Significant focusing effect was observed for relatively hydrophobic cationic compounds (emetine, strychnine and quinine) using high ionic strength sample matrix (900 mM H3 PO4 /720 mM Tris) which conductivity was about ninefold higher than utilized BGE. Moreover, the results were obtained using BGE composed of comparatively low surfactant concentration (10 mM SDS) and 40 mM H3 PO4 /32 mM Tris buffer solution. About 200 to 300-fold preconcentration of analytes was reached with the presented method. Basing on experimental results and computer simulation using Simul5 software, hypothetical mechanism of observed phenomenon was proposed.

Historical Review: Problematic Malaria Prophylaxis with Quinine.

Quinine, a bitter-tasting, short-acting alkaloid drug extracted from cinchona bark, was the first drug used widely for malaria chemoprophylaxis from the 19th century. Compliance was difficult to enforce even in organized groups such as the military, and its prophylaxis potential was often questioned. Severe adverse events such as blackwater fever occurred rarely, but its relationship to quinine remains uncertain. Quinine prophylaxis was often counterproductive from a public health viewpoint as it left large numbers of persons with suppressed infections producing gametocytes infective for mosquitoes. Quinine was supplied by the first global pharmaceutical cartel which discouraged competition resulting in a near monopoly of cinchona plantations on the island of Java which were closed to Allied use when the Japanese Imperial Army captured Indonesia in 1942. The problems with quinine as a chemoprophylactic drug illustrate the difficulties with medications used for prevention and the acute need for improved compounds.

On the history of Cinchona bark in the treatment of Malaria.

How and when the medical value of Cinchona bark was discovered is obscure, but it is said that the powder was given to a European for malaria for the first time in the 1630s. The bark was brought to Europe by Spanish missionaries and it was recommended by the cardinal Juan de Lugo. In the 1660s, the use of Cinchona bark became known in England - and in Denmark by Thomas Bartholin. It was used for the treatment of malaria, but several debates on its value continued up to the 1730s. However, successful treatment of malaria was obtained by Thomas Sydenham, Robert Tabor and Francesco Torti. Sydenham emphasized a modern view that Cinchona bark was a unique specific drug for the treatment of malaria, and the treatment was fully accepted when Torti's Therapeutice specialis appeared. In the early 18th century, botanical expeditions were arranged in search of the most valuable Cinchona species for cultivation. The content of quinine was impor- tant, and determination of quinine was realized when Pierre Pelletier and Joseph Caventou isolated the alkaloid from the bark in 1820. Dutch plantations and quinine industry dominated the market, but the supply of quinine came to an end when the Japanese occupied Indonesia in 1942, cutting off the rest of the world from the main supplies of Cinchona. Synthetic antimalarials were developed and chloroquine became the drug of choice, but the intensive use of these drugs caused drug resistance. Chloroquine-resistant strains of P. falciparum are now treated with other drugs as artemisinin and artemether.

Cuantificación de quinina en extractos de Cinchona pubescens y evaluación de la actividad antiplasmodial y citotóxica / Quantification of quinine in extracts from stems Cinchona pubescens and evaluation of antiplasmodial and cytotoxic activity

Plants belonging to the genus Cinchona L. (Rubiaceae), whose active ingredient is quinine, was used for centuries to treat malaria. Plants of this genus are a potential source of new structural templates in the search for new antimalarial candidates. This study aimed to the identification, quantification of quinine and other metabolites present in extracts of different polarity of the stems of Cinchona pubescens Vahl. , oxoquinovic acid isolation, antiplasmodial activity, and measuring its cytotoxic effect. The results show a high activity to antiplasmodial alkaloids extract (IC50 = 2.20 +/- 0.0325 ug/mL), cytotoxicity (CC50 = 80.2 +/- 12.2 ug/mL), and a quinine content of 21.3+/-0.0247 ppm. The compound known as acid antiplasmodial activity oxoquinovic presented in IC50 = 11.3 +/- 0.741 ug/mL, and cytotoxicity CC50 = 72.4 +/- 3.85 ug/mL. These results motivate phytochemical studies in the search for active structural analogues quinine and quinolinic core as a source of new antimalarial agents.

Las plantas pertenecientes al género Cinchona L. (familia Rubiaceae), cuyo principio activo es la quinina, fueron utilizadas durante siglos para tratar la malaria. Este género es una fuente potencial de nuevas plantillas estructurales en la búsqueda de nuevos candidatos antimaláricos. El presente trabajo tuvo como objetivo la identificación y, cuantificación de la quinina y de otros metabolitos presentes en los extractos de diferente polaridad, de los tallos de Cinchona pubescens Vahl. , el aislamiento del ácido oxoquinóvico, la actividad antiplasmodial y, además, la medición de su efecto citotóxico. Los resultados muestran una alta actividad antiplasmodial para el extracto de los alcaloides (IC50 = 2,20 +/- 0,0325 ug/mL), una baja citotoxicidad (CC50 = 80,2 +/- 12,2 ug/mL), y un alto contenido de quinina el cual fue 21,3+/-0,0247 ppm. El compuesto ácido oxoquinóvico presentó una actividad antiplasmodial de IC50 = 11,3 +/- 0.741 ug/mL, y una citotoxicidad de CC50 = 72,4 +/- 3,85 ug/mL. Estos resultados motivan los estudios fitoquímicos en la búsqueda de principios activos y análogos estructurales en diferentes especies de Cinchonas como una fuente de nuevos agentes antimaláricos.

Role of traditional antimalarial plants in the battle against the global malaria burden.

Malaria continues to be a major global public health problem with 3.3 billion people at risk in 106 endemic countries. Globally, over 1000 plants have been used as potential antimalarials in resource-poor settings due to fragile health-care systems and lack of accessibility and affordability of artemisinin-based combination therapies (ACTs). Although many believe that the use of medicinal plants that have folklore reputations for antimalarial properties is relatively safe, many herbs may be potentially toxic due to their intrinsic adverse side effects. Therefore, herbal-derived remedies require powerful and deep assessment of their pharmacological qualities to establish their mode of action, safety, quality, and efficacy. In addition, the evolution of drug resistance also demands new antimalarial agents. This can be achieved by forming a vibrant antimalarial discovery pipeline among all stakeholders, including traditional healers, ethnobotanists, scientists, entomologists, pharmacists, and research institutions, for the isolation and characterization of the bioactive compounds with the ultimate objective of finding novel modes of action antimalarial compounds that can be used to fight against drug-resistant malarial parasites.

On-line coupled capillary isotachophoresis-capillary zone electrophoresis in hydrodynamically closed separation system hyphenated with laser induced fluorescence detection.

An analytical method, based on a column coupling capillary ITP and CZE in a hydrodynamically closed separation mode hyphenated with the detection in the modular arrangement, was developed in this work. Analytical possibilities of this approach are demonstrated on the direct and ultrasensitive quantitative determination of quinine (QUI) in diluted real multicomponent ionic matrices (beverages, urine). The detection cell interface, with the rectangular arrangement of the optical channels inside, connected the separation capillary with the LIF detector via optical fibers in the on-column detection arrangement. ITP enabled the direct large volume (30 µL) injections of the diluted real matrices with an on-line sample pretreatment (preseparation, preconcentration) so that no external sample preparation (except for the dilution) was necessary for the separation of the analyte in the multicomponent ionic matrices. Due to the ITP sample preconcentration and intrinsic sensitivity of the LIF detection, very low concentration LOD (as low as 77 pg/mL), were reached at the same time. This was ca. two orders lower than the corresponding LOD achieved by the same 2D separation system with UV absorbance detection. Compared to the single column CE-LIF methods applied for this model analyte and matrix, this method was found to be superior in terms of concentration LOD, with acceptable selectivity and benefits of the on-line sample preparation. A food control and bioanalytical application clearly illustrates great practical possibilities and routine use of the proposed modular ITP-CZE-LIF technique.

Crystal engineering of pharmaceutical Co-crystals: application of methyl paraben as molecular hook.

Applicability of the O-H...N heterosynthon for synthesis of a pharmaceutical co-crystal comprised of a commonly used tablet excipient methyl paraben and quinidine, an anti-malarial constituent of Cinchona tree bark, has been successfully demonstrated. Insights into local conformation and hydrogen-bonding were derived from advanced multinuclear solid-state NMR techniques, where interpretation of the obtained NMR data was supported by DFT quantum-chemical computations. Furthermore, an approach for selective separation of quinidine from its stereoisomer quinine based on the molecular specificity of methyl paraben is presented. It was found that methyl paraben picked its target via hydrogen-bond-mediated molecular recognition, thereby acting as "molecular hook".

In situ UV resonance Raman micro-spectroscopic localization of the antimalarial quinine in cinchona bark.

Deep UV resonance Raman micro-spectroscopy (lambda(exc) = 244 nm) was applied for a highly sensitive, selective, and gentle localization of the antimalarial quinine in situ in cinchona bark. The high potential of the method was demonstrated by the detection of small amounts of the alkaloid in the plant material without any further sample preparation, where conventional (non-resonant) Raman microscopy was unsuccessful due to a strong fluorescence background. The resonance Raman spectrum of cinchona bark corresponds well with that of quinine; it can be distinguished from its diastereomer quinidine via the mode at 831 cm(-1), which is shifted to 843 cm(-1) in the case of quinidine. This vibration involves a bending motion within the side chain around the chiral center of quinine. Vibrations belonging to the quinoline ring (important for its antimalarial activity in forming pi-pi-interactions to hemozoin) and the vinyl group are resonantly enhanced in the UV Raman spectra. A convincing mode assignment is derived by means of a combination of NIR Raman spectroscopy and DFT calculations. The Raman spectra of quinine in cinchona bark are modeled by considering a hydrous environment that causes a shift of the band at 1362 compared with 1371 cm(-1) in anhydrous quinine. This intense vibration is therefore sensitive to the presence of an aqueous environment and is assigned mostly to a stretching motion within the quinoline ring. The presented results nicely show the sensitivity of Raman spectroscopy to monitor subtle differences within the molecular structure and the influence of a biological relevant hydrous environment and trace low concentrated pharmaceutical relevant active agents in plant material.

Some advantages of high temperature for the separation of pharmaceutical compounds with mass spectrometry detection.

The beneficial effects of high temperature on separation and detection of basic compounds, the detection being performed by MS via ESI, are investigated. The influence of various parameters on both separation and detection performances is studied. These parameters include the mobile phase pH, the temperature, and the type of stationary phase. Experiments are performed under gradient elution conditions. The results obtained with four different supports, silica-, zirconia-, carbon-, and polymer-based columns, are compared by means of different criteria including the elution composition, the peak asymmetry, and the S/N. High temperature liquid chromatography at high pH with volatile buffers suitable for MS detection was shown to be an interesting choice for solutes with basic sites.

Enantiomeric separation of N-protected amino acids by non-aqueous capillary electrophoresis with dimeric forms of quinine and quinidine derivatives serving as chiral selectors.

A non-aqueous capillary electrophoretic method with quinine and tert.-butyl carbamoylated quinine as chiral selectors was developed previously for the enantioseparation of N-protected amino acids. This system was here applied as a screening tool for a fast evaluation of the chiral discrimination potential of six new dimeric forms of carbamoylated quinine and quinidine derivatives as chiral additives: 1,3-phenylene-bis(carbamoylated quinine), 1,6-hexamethylene-bis(carbamoylated quinine), 1,6-hexamethylene-bis(carbamoylated quinidine), trans-1,4-cyclohexylene-bis(carbamoylated quinine), trans-1,4-cyclohexylene-bis(carbamoylated-11-dodecylthio-dihydroquinine) and trans-1,4-cyclohexylene-bis(carbamoylated-11-dodecylsulfinyl-dihydroquinine). A series of 24 chiral acids, as various benzoyl, 3,5-dinitrobenzoyl (DNB) and 3,5-dinitrobenzyloxycarbonyl amino acid derivatives were investigated with regards to enantioselectivity employing these different dimeric chiral selectors. The composition of the background electrolyte was 12.5 mM ammonia, 100 mM octanoic acid, and 10 mM chiral selector in an ethanol-methanol (60:40, v/v) mixture and the enantioseparations were performed at 15 degrees C and in the reversed polarity mode at -25 kV. With these dimeric chiral selectors, higher enantioselectivity values, compared to those obtained with monomeric derivatives, were usually achieved, especially with the dimers containing dodecyl substituents. For example, an alpha value of 4 and a resolution value of 78 were obtained for DNB-phenylalanine, using trans-1,4-cyclohexylene-bis(carbamoylated-11-dodecylthio-dihydroquinine) as selector.

Development of stereoselective nonaqueous capillary electrophoresis system for the resolution of cationic and amphoteric analytes.

A stereoselective ion-pair nonaqueous capillary electrophoresis (NACE) method employing the partial filling technique with N-derivatized amino acids, e.g., (R)- and (S)-3,5-dinitrobenzoyl-leucine (DNB-Leu), as chiral selector for the separation of "pseudoenantiomeric" cinchona alkaloid derivatives and other structurally related basic compounds like the enantiomers of mefloquine is presented. Originating from NACE with cinchona alkaloid derivatives as chiral counterions, this method was developed by application of the reciprocity principle of chiral recognition, which was proven to be valid for stereoselective ion-pair capillary electrophoresis (CE). A variety of basic and amphoteric selectands (SAs) could be well resolved. Thereby, the separation was primarily based on stereoselective ion-pair formation of corresponding SA stereoisomers and mobility differences of free and complexed (ion-paired) SAs. Additionally, in the case of diastereomeric SAs, naturally existing mobility differences between the diastereomers played also a role, but was shown by control experiments with racemic DNB-Leu and without selector (SO) to be of minor contribution to overall separation selectivity. Due to its simplicity, speed, and good reproducibility, the established method can be utilized for fast screening of cationic as well as amphoteric chiral compounds, and therefore is a valuable tool in the development of new chiral selectors and chiral stationary phases. Small sample amounts of the SO (4-5 mg) and only analytical amounts of SAs are needed, and about 20-50 compounds per day can be tested.

The separation and determination of quinine in bitter drinks by micellar electrokinetic capillary chromatography.

A rapid method for the determination of quinine in bitter drinks by micellar electrokinetic capillary chromatography (MECC) with ultraviolet (UV) detection is described. The beverage is simply diluted with deionized water, filtered, and analyzed using a 75 cm x 75 micrometer uncoated fused-silica capillary column with a buffer consisting of 15% methanol and 85% of a mixture of 0.05 M cetyltrimethylammonium bromide (CTAB), 0.01 M sodium tetraborate, and 0.01 M potassium dihydrogen orthophosphate, pH 8.6, with an operating voltage of -25 kV. The levels of quinine determined by MECC were in good agreement with those determined by HPLC. The CVs for area calculation (2.1%, n = 7) and migration time variation (1.3%, n = 20) for multiple injections of a sample solution by MECC were satisfactory.

Análisis espectrofluorimétrico de quinina: nuevo método extractivo / Spectrofluorometric analysis of quinine: new extractive method

Se logra sustituir en el método espectrofluorimétrico de Cramer e Isaksson el benceno por el cloroformo, ya que es menos tóxico y tiene polaridades similares. Se demuestra un alto porcentaje extractivo de la quinina en orina (99%) y suero (98%) y una buena repetibilidad y reproducibilidad de los resultados. Se comprueba la no extracción de metabolitos por cromatografía de placa delgada y la excelente estabilidad de la quinina en medio de ácido sulfúrico 0,05 M

Análisis espectrofluorimétrico de quinina. nuevo método extractivo / Spectrofluoroetric analysis of quinine: new extractive method

Se logra sustituir en el método espectrofluorimétrico de Cramer e Isaksson el benceno por el cloroformo, ya que es menos tóxico y tiene polaridades similares. Se demuestra un alto porcentaje extractivo de la quinina en orina (99

) y suero (98

) y una buena repetibilidad y reproducibilidad de los resultados. Se comprueba la no extracción de metabolitos por cromatografía de placa delgada y la excelente estabilidad de la quinina en medio de ácido sulfúrico 0,05 M

[Use of solid phase extraction for rapid sample preparation in the determination of food constituents. I. Quinine in beverages]. / Anwendung der Festphasenextraktion zur raschen Probenvorbereitung bei der Bestimmung von Lebensmittelinhaltsstoffen. I. Chinin in Getränken.

A routine method was developed for the determination of quinine in spirits and alcohol-free beverages. Using ion pair chromatography quinine was separated from interfering substances by high-performance liquid chromatography on a RP 18 phase and analysed by UV and fluorescence detection. In contrast to the analysis of alcohol-free beverages, sample preparation was necessary in the study of alcoholic beverages. Solid-phase extraction on phenyl sorbens was found to be a rapid, specific and simple technique.

High-performance liquid chromatographic separation and isolation of quinidine and quinine metabolites in rat urine.

A procedure for the separation and isolation of the urinary metabolites of quinidine and quinine by reversed-phase high-performance liquid chromatography is described. Nine metabolites of quinidine and eight metabolites of quinine were detected in the urine of male Sprague-Dawley rats after a single dose of quinidine or quinine (50 mg kg-1). Following extraction from urine, the metabolites were separated on either an analytical or a semi-preparative reversed-phase column by gradient elution. After isolation and derivatization, the metabolites were analyzed by gas chromatography and gas chromatography--mass spectrometry.