Simple interface for scanning chemical compounds on developed thin layer chromatography plates using electrospray ionization mass spectrometry.

A simple and cheap design for interfacing thin layer chromatography (TLC) with electrospray ionization mass spectrometry (ESI/MS) was developed to scan and characterize compounds on TLC plate. The developed TLC plate was rapidly and easily modified into two sawtooth-edged pieces that were positioned on an XYZ stage so that one of the triangular tips was pointed toward the MS inlet. A drop of methanol and high DC voltage was applied at the tip to induce ESI. After the analytes in the first tip were analyzed, the TLC piece was moved so that the second triangular tip was pointed toward the MS inlet for analysis. The process was repeated until all the triangular tips on the piece were analyzed. In this manner, the analytes, no matter visible or non-visible bands, were scanned and characterized. Since a 4.8 cm long TLC track were cut to 32 triangles on two sawtooth pieces for analysis, the spatial resolution of using the sawtooth TLC-ESI/MS for analysis is 1.5 mm/band. A mixture of dye standards and Datura metel flower extract was analyzed to demonstrate the capability of sawtooth TLC-ESI/MS on scanning and characterizing chemical compounds on the TLC plates. The limits of detection of the dye standards were between 0.25 and 2.5 ng/band. TLC bands containing alkaloids such as scopolamine and norscopolamine from the Datura metel flower extract were not visualized on the developed TLC track, but were successfully detected at different triangular tips using sawtooth TLC-ESI/MS. Based on these results, the Rf values of scopolamine and norscopolamine were determined.

Liquid chromatography-electrospray ionization ion trap mass spectrometry for analysis of in vivo and in vitro metabolites of scopolamine in rats.

In vivo and in vitro metabolism of scopolamine is investigated using a highly specific and sensitive liquid chromatography-mass spectrometry (LC-MSn) method. Feces, urine, and plasma samples are collected individually after ingestion of 55 mg/kg scopolamine by healthy rats. Rat feces and urine samples are cleaned up by a liquid-liquid extraction and a solid-phase extraction procedure (C18 cartridges), respectively. Methanol is added to rat plasma samples to precipitate plasma proteins. Scopolamine is incubated with homogenized liver and intestinal flora of rats in vitro, respectively. The metabolites in the incubating solution are extracted with ethyl acetate. Then these pretreated samples are injected into a reversed-phase C18 column with mobile phase of methanol-ammonium acetate (2 mM, adjusted to pH 3.5 with formic acid) (70:30, v/v) and detected by an on-line MSn system. Identification and structural elucidation of the metabolites are performed by comparing their changes in molecular masses (DeltaM), retention-times and full scan MSn spectra with those of the parent drug. The results reveal that at least 8 metabolites (norscopine, scopine, tropic acid, aponorscopolamine, aposcopolamine, norscopolamine, hydroxyscopolamine, and hydroxyscopolamine N-oxide) and the parent drug exist in feces after administering 55 mg/kg scopolamine to healthy rats. Three new metabolites (tetrahydroxyscopolamine, trihydroxy-methoxyscopolamine, and dihydroxy-dimethoxyscopolamine) are identified in rat urine. Seven metabolites (norscopine, scopine, tropic acid, aponorscopolamine, aposcopolamine, norscopolamine, and hydroxyscopolamine) and the parent drug are detected in rat plasma. Only 1 hydrolyzed metabolite (scopine) is found in the rat intestinal flora incubation mixture, and 2 metabolites (aposcopolamine and norscopolamine) are identified in the homogenized liver incubation mixture.

Determination of the main tropane alkaloids from transformed Hyoscyamus muticus plants by capillary zone electrophoresis.

A capillary zone electrophoretic method (CZE) was developed using an uncoated fused silica capillary for the separation and determination of the main tropane alkaloids. The applicability of the developed method for analysis of plant samples was examined by analyzing samples of transgenic Egyptian henbane Hyoscyamus muticus (L.) plants. A simple 40 mM phosphate buffer at pH 7.8 using a voltage of 20 kV was found the best for this purpose. The main tropane alkaloids, atropine and scopolamine as well as nor-(-)-scopolamine, and tropic acid, the precursor of tropane alkaloids, could be separated in less than 13 min. The linear concentration range for atropine was 5.00-140 microg ml(-1), for scopolamine 7.50-210 microg ml(-1) and for tropic acid 2.50-70.0 microg ml(-1).

Validated capillary electrophoresis method for the determination of atropine and scopolamine derivatives in pharmaceutical formulations.

The simultaneous determination of atropine and scopolamine derivatives, which have similar structures, was investigated by using capillary zone electrophoresis. The effects of buffer pH, buffer concentration and hydroxypropyl-beta-cyclodextrin concentration on migration time and resolution of the investigated compounds were systematically studied. The selected electrophoretic buffer consisted of a 80 mM sodium citrate pH 2.5, containing 2.5 mM hydroxypropyl-beta-cyclodextrin as the complexing agent. Quantitative analysis was validated by testing the reproducibility of the method, giving a relative standard deviation less than 1 and 2% for the intermediate precision of migration times and peak area ratios, respectively. The linearity of the method was assessed between 50 and 150% of the theoretical content (coefficient of correlation greater than 0.99). The proposed method was found to be suitable and accurate for the determination of these basic drugs in pharmaceutical preparations.

Muscarinic receptors and insulin concentration in the rat pancreas after chronic alcohol intake and cholinergic stimulation.

The effects of chronic alcohol intake and carbachol stimulation on pancreatic muscarinic receptor binding and insulin concentrations were studied in the rat pancreas. There was a strong correlation between the number of muscarinic receptors and the concentration of insulin in the pancreas. The concentration of insulin decreased in the pancreas after long-term ethanol exposure and increased after carbachol stimulation. These results indicate that the secretion of insulin is mediated via the muscarinic receptor pathway, and that the changes in the number of muscarinic receptors may have a role in insulin deficiency after long-term alcohol consumption.

[Studies on analysis of Belladonna alkaloids by capillary GC and GC-MSD].

A method for analyzing belladonna alkaloids--hyoscyamine, scopolamine, anisodamine and anisodine, by means of capillary GC and GC-MSD was described. The retention data and characteristic ions of the parent and TMS derivatives of these alkaloids are given and will be very useful for identification of unknown alkaloids. The derivatization of different silylation reagents was compared, and the derivatization with MSTFA was found to be better than with BSA and BSTFA. The method has been used for studying biotransformation of these alkaloids in biosynthesis. Analysis of anisodamine and anisodine by CGC and GC-MS has not been found in the literature. In addition, the advantages of TMS derivatization are also discussed.

A simple but highly sensitive radioreceptor assay for the determination of scopolamine and biperiden in human plasma.

Simple and sensitive methods are described for the determination of scopolamine and biperiden in human plasma. Each method consists of two steps. After extraction of scopolamine and biperiden with chloroform or n-hexane respectively and evaporation of the organic solvent, both drugs are determined by their ability to inhibit the specific binding of tritiated N-methyl-scopolamine to mouse brain homogenates. The lower limits of detection are plasma levels of about 50 pg/ml scopolamine and about 200 pg/ml biperiden.

Autoradiographic localization and biochemical characteristics of M1 and M2 muscarinic binding sites in the striatum of the cat, monkey, and human.

The autoradiographic distribution of M1 and M2 muscarinic cholinergic binding sites was studied in the striatum of the cat, monkey, and human, and concurrent binding assays were carried out on striatal tissue sections from the cat. M1 sites were directly labeled with 3H-pirenzepine; M2 sites were labeled as a consequence of binding competition between pirenzepine and 3H-N-methylscopolamine. Serial section analysis with autoradiograms and stained tissue sections allowed for comparisons among M1 and M2 binding distributions and AChE staining patterns. The 2 subtypes of binding sites demonstrated distinct striatal distributions. M2 sites were virtually homogeneous except in the ventral striatum, where zones of sparse and especially dense binding were observed. Striatal M1 sites were generally more abundant than M2 sites and showed similar heterogeneity in the ventral striatum. Dorsally, however, patches of dense M1 binding were found, and proved to correspond with AChE-poor striosomes, hallmarks of striatal compartmentalization. The finding of differing distributions for the 2 subtypes of muscarinic cholinergic binding sites suggests a mechanism for the intrinsic spatial segregation of striatal cholinergic function. Further, the striosomal patterning of M1 binding indicates that certain aspects of cholinergic function in the striatum may be constrained and thus regulated by the compartmental ordering characteristic of this region of the basal ganglia.

A sensitive radioreceptor assay for determining scopolamine concentrations in plasma and urine.

A sensitive and reliable procedure for the quantitation of low picogram levels of scopolamine in plasma and urine is described. The method consists of two steps, a preparative extraction step using C18 columns (Sep-Pak), followed by an analytical quantitation step involving a muscarinic radioreceptor assay. The extraction efficiency of the C18 columns was 85-95% for both plasma and urine over a wide concentration range. When [3H]methyl scopolamine is used as a tracer, the assay can detect picogram concentrations (greater than 25 pg) of scopolamine (base) in plasma and urine. The applicability of the procedure for therapeutic drug monitoring of scopolamine was demonstrated by using the method to determine plasma levels in humans after transdermal administration.

Liquid chromatographic determination of methscopolamine bromide in various veterinary formulations.

A reverse phase paired ion liquid chromatographic procedure is described for determining methscopolamine bromide (Pamine) in the presence of neomycin sulfate in 5 veterinary formulations (Biosol M). Methscopolamine bromide is separated from neomycin sulfate and other formulation excipients by extraction into ethanol. The sample preparations are then concentrated and dissolved in water before chromatography. Recovery of methscopolamine bromide added to 5 placebo formulations ranged from 99.7 to 100.7%, with relative standard deviations of less than 2%. Specificity of the method with regard to potential degradation products is demonstrated.

Unit-dose assay of tropine alkaloids and their synthetic analogs.

A charge-transfer spectrophotometric method was developed for unit-dose assay of the tropine alkaloids and some of their synthetic analogs. The high molar absorptivities of the charge-transfer bands of the alkaloids with iodine in ethylene dichloride resulted in improved recoveries and good precision, particularly at the low dose levels of pediatric and hypodermic tablets.