Chemical composition of South American Burseraceae non-volatile oleoresins and preliminary solubility assessment of their commercial blend.

INTRODUCTION: Non-volatile oleoresins from neotropical Burseraceae are traditionally used for craft, technological and medicinal purposes. The crude resin is usually sold in popular markets of the forest communities. Adding value to this rainforest raw material requires establishing its composition. OBJECTIVE: To analyse the resin composition from different Burseraceae species and establish a minimally reproducible profile by gas chromatography, in order to parameterise its quality control. METHODOLOGY: Crude oleoresin samples of 10 Protium and Trattinnickia species and a commercial blend were subjected to hydrodistillation to remove volatile compounds. The chloroform-soluble residues were methylated, analysed by GC-FID (flame ionisation detection), and individual components were identified by analysing their mass fragmentation pattern in GC-MS and comparison with data from the literature. The blend solubility was assayed in 30 non-chlorinated solvents at three different proportions. RESULTS: The resins consisted exclusively of triterpenes, showing a common predominance of four major compounds in all the samples, corresponding to α-amyrin, ß-amyrin, α-amyrenone and ß-amyrenone. This profile was complemented with minor amounts of the tetracyclic ß-elemolic and α-elemolic acids, maniladiol, brein and other oxidised trace compounds. The better solvents for the resin were those chemically bearing more than four carbon atoms, as n-butyl acetate, 2-ethoxyethanol and isopropanol. The crude resin blend sold contained around 10% of insoluble material that was constituted by up to 70% inorganic residues mixed with humic acid derivatives, as attested by ash analysis and IR spectroscopy, respectively. CONCLUSION: The experimental results, complemented by a general inspection of the literature, demonstrated a systematically reproducible triterpene profile in Protium and Trattinnickia species.

Pharmacological study of anti-allergic activity of Syzygium cumini (L.) Skeels.

Myrtaceae is a plant family widely used in folk medicine and Syzygium and Eugenia are among the most important genera. We investigated the anti-allergic properties of an aqueous leaf extract of Syzygium cumini (L.) Skeels (SC). HPLC analysis revealed that hydrolyzable tannins and flavonoids are the major components of the extract. Oral administration of SC (25-100 mg/kg) in Swiss mice (20-25 g; N = 7/group) inhibited paw edema induced by compound 48/80 (50% inhibition, 100 mg/kg; P

Pharmacological study of anti-allergic activity of Syzygium cumini (L) Skeels

Myrtaceae is a plant family widely used in folk medicine and Syzygium and Eugenia are among the most important genera. We investigated the anti-allergic properties of an aqueous leaf extract of Syzygium cumini (L.) Skeels (SC). HPLC analysis revealed that hydrolyzable tannins and flavonoids are the major components of the extract. Oral administration of SC (25-100 mg/kg) in Swiss mice (20-25 g; N = 7/group) inhibited paw edema induced by compound 48/80 (50 percent inhibition, 100 mg/kg; P <= 0.05) and, to a lesser extent, the allergic paw edema (23 percent inhibition, 100 mg/kg; P <= 0.05). SC treatment also inhibited the edema induced by histamine (58 percent inhibition; P <= 0.05) and 5-HT (52 percent inhibition; P <= 0.05) but had no effect on platelet-aggregating factor-induced paw edema. SC prevented mast cell degranulation and the consequent histamine release in Wistar rat (180-200 g; N = 7/group) peritoneal mast cells (50 percent inhibition, 1 æg/mL; P <= 0.05) induced by compound 48/80. Pre-treatment of BALB/c mice (18-20 g; N = 7/group) with 100 mg/kg of the extract significantly inhibited eosinophil accumulation in allergic pleurisy (from 7.662 ± 1.524 to 1.89 ± 0.336 x 10(6)/cavity; P <= 0.001). This effect was related to the inhibition of IL-5 (from 70.9 ± 25.2 to 12.05 ± 7.165 pg/mL) and CCL11/eotaxin levels (from 60.4 ± 8.54 to 32.8 ± 8.4 ng/mL) in pleural lavage fluid, using ELISA. These findings demonstrate an anti-allergic effect of SC, and indicate that its anti-edematogenic effect is due to the inhibition of mast cell degranulation and of histamine and serotonin effects, whereas the inhibition of eosinophil accumulation in the allergic pleurisy model is probably due to an impairment of CCL11/eotaxin and IL-5 production.

Aplicação de cromatografia centrífuga de contra-corrente na purificação de ácido ursólico das folhas de Eugenia brasiliensis Lam. / Aplication of counter-current chromatography in the purification of ursolic acid from leavesof Eugenia brasiliensis Lam.

Os ácidos triterpênicos são metabólitos comuns na família Myrtaceae, especialmente no gênero Eugenia. O ácido ursólico foi descrito como um dos principais constituintes, nas folhas de Eugenia brasiliensis, coletada no Sudoeste do Brasil. Uma partição prévia, por solventes, do extrato etanólico ou do extrato clorofórmico de E. brasiliensis, seguida por uma purificação por cromatografia de contra-corrente de alta velocidade (CCCAV), conduziu ao isolamento do ácido ursólico com alto grau de pureza (> 97 por cento). Esta substância, também foi isolada por cromatografia convencional de coluna aberta (rendimento de 0.22 por cento a partir do extrato etanólico), e caracterizada por 13C-RMN, GC-EM e co-injeção com padrão comercial em CG-DIC, na forma do éster metílico. A técnica de CCCAV, usualmente usada para triterpenos glicosilados, foi aqui aplicada para a aglicona. As fases móvel e estacionária, no experimento de CCCAV, foram geradas pela mistura de n-hexano : acetato de etila : metanol : água, na proporção 10:5:2,5:1. A seleção do sistema de solventes (fases estacionária e móvel) foi determinada pela máxima distribuição eqüitativa do ácido ursólico em ambas as fases, medida por densitometria e monitorada por cromatografia em camada delgada, CCD, usando-se ácido ursólico comercial como referência.

Triterpene acids are common metabolites in the Myrtaceae family, especially in the genus Eugenia. Ursolic acid was found in Eugenia brasiliensis collected in Southeastern Brazil. A previous solvent partition of the ethanol or chloroform extracts of the leavesof E. brasiliensis, followed by rapid high-speed counter-current chromatography (HSCCC) afforded ursolic acid in high purity (> 97 percent). This compound was also purified apart by conventional column chromatography (yield of 0.22 percent from the ethanolic extract) and characterized by 13C-NMR, GC-MS and co-injection of its methyl ester with standards in GC-FID. The HSCCC technique, usually applied to triterpene glycosides, was here applied successfully to an aglycone, to which examples are rarely described. The mobile and stationary phase for the HSCCC experiment were derived from the two-phase solvent system composed by n-hexane : ethyl acetate : methanol : water in the proportion of 10:5:2.5:1. The choice of the developing solvent system for optimum HSCCC separation was determined by TLC coupled to densitometric measurements of ursolic acid in both stationary and mobile phase, generated by the upper and lower layer of the system above. Commercial ursolic acid was used as standard.

Mechanism of chlorpromazine binding by gram-positive and gram-negative bacteria.

Chlorpromazine forms charge-transfer complexes with xanthene dyes in bacteria. These complexes permit the differentiation of Gram-positive and Gram-negative bacteria in both light and polarization microscopy. The birefringence induced by the charge-transfer complex might explain the molecular basis of bacterial staining. The charge-transfer complexes formed between chlorpromazine and xanthene dyes accumulate in the bacterial cell, mainly inside the bacterial cell wall. The complexes give the cells a color, which depends on the chemical composition of the staining structure, and in particular the polysaccharides of the cell wall in bacteria. Metachromatic granules were seen inside Gram-positive bacteria after chlorpromazine and rose bengal staining. Although the nature of these granules remains unclear, this type of binding may have a role in the inhibition of biochemical processes in the bacterial cells.

Effects of some tricyclic psychopharmacons and structurally related compounds on motility of Proteus vulgaris.

A simple test for the evaluation of drugs interfering with bacterial motility was established with Proteus vulgaris. With this model, promethazine, 7-hydroxy-chlorpromazine, imipramine, 7,8-dioxochlorpromazine and acridine orange were shown to exert significant motility and swarming inhibitory action on Proteus vulgaris strains at subinhibitory concentrations. Quinidine enhanced the antimotility effect of promethazine. The antimotility effect of promethazine was synergized by proton pump inhibitors omeprazole and abscissic acid, but antagonized by extracellular potassium and sodium ions.

Inhibition of biological effects of endotoxins by phenothiazines.

The importance of change transfer reaction involving endotoxins of bacteria and interactions between endotoxin-induced tumor necrosis factor (TNF) were investigated both in vitro and in vivo in the presence of several phenothiazines. Complex formation between endotoxins and ring-substituted phenothiazines, benzodiazepines, amantadine and promethazine was measured using spectrophotometric methods. The endotoxin-induced hypotensive effect was prevented by phenothiazine pretreatment of the dogs; however, the endotoxin-phenothiazine complex had the same effect as the endotoxin itself. The tumor necrosis factor-inducing ability of endotoxin in human monocytes was prevented by promethazine. The TNF induction by endotoxin was inhibited by promethazine in vivo.

Antiplasmid activity: loss of bacterial resistance to antibiotics.

The antiplasmid activity of tricyclic compounds, e.g. phenothiazines, dibenzoazepines, dibenzocykloheptene derivatives and some stereoisomers, was shown on E. coli in vitro. Some ring-substituted phenothiazine and cannabis derivatives had only an antibacterial effect. Promethazine, a selected phenothiazine, cured antibiotic resistance and lactose fermentation of E.coli, tumour inducing ability of Agrobacterium tumefaciens and nodule formation of Rhizobium meliloti. Plasmids of different E.coli strains were eliminated with varying frequency. The antiplasmid activity of the compounds can be due to the increased membrane permeability. Inhibition of DNA gyrase and complex formation with the supercoiled form of plasmid DNA can lead to the cessation of plasmid replication in the bacterial cells. In addition, in vivo plasmid curing was demonstrated at a low frequency.

The influence of charge transfer complex formation on the antibacterial activity of some tricyclic drugs.

1. Phenothiazines and structurally related drugs are effective in eliminating bacterial plasmids. 2. Charge transfer complex formation between chlorpromazine and xanthine dyes with different electron acceptor activities (e.g. fluorescein, eosin, erythrosin and rose bengal) was detected by differential spectrophotometry. Charge transfer complexes were formed between the strong electron acceptor rose bengal and various tricyclic drugs. 3. On the basis of the wavelength shift, the binding energies of drugs and dyes were estimated. 4. The temperatures dependence of the reaction indicates charge transfer complex formation rather than a chemical reaction between drugs and dyes. 5. The anti-plasmid action of the phenothiazines was decreased in the presence of xanthine dyes. As a consequence of competitive inhibition between bacterial binding sites and xanthine dyes, the binding energy of drugs in the plasmid replication system could be determined in the presence of dyes. 6. Drugs with binding energies in the range of 0.23-2.31 kcal/mol can inactivate the plasmid replication system.

Virulence associated plasmid and R-plasmid curing in Yersinia enterocolitica by some tricyclic compounds.

The virulence plasmid which confers calcium-dependent growth in Yersinia enterocolitica and the R-plasmid of a Y. enterocolitica strain were eliminated by several, tricyclic psychopharmacons, e.g. promethazine, imipramine, and (+) and (-)-butaclamols.

Transient cells of the developing mammalian telencephalon are peptide-immunoreactive neurons.

In the development of the mammalian telencephalon, the genesis of neurons destined for the various layers of the cerebral cortex is preceded by the generation of a population of cells that comes to reside in the subplate and marginal zones (see ref. 2 for nomenclature). In the cat, these cells are present in large numbers during development, when their location is correlated with the arrival and accumulation of ingrowing axonal systems and with synapses. However, as the brain matures, the cells disappear and the white matter and layer 1 of the adult emerge. Their disappearance occurs in concert with the invasion of the cortical plate by the axonal systems and with the elimination of the synapses from the subplate. Here we report that the subplate cells have properties typical of mature neurons. They have the ultrastructural appearance of neurons and receive synaptic contacts. They also have long projections and are immunoreactive for MAP2 (microtubule associated protein 2). Further, subpopulations are immunoreactive for one of several neuropeptides. These observations suggest that during the fetal and early postnatal development of the mammalian telencephalon the subplate cells function as neurons in synaptic circuitry that disappears by adulthood.

Inhibition of bacterial plasmid replication by stereoselective binding by tricyclic psychopharmacons.

Several dibenzazepines, thioxanthene, and phenothiazine stereoisomers were studied for their abilities to inhibit plasmid replication, intracellular transfer of R-plasmid, bacterial ATP-ase, and mouse serum cholinesterase isoenzyme. Partially saturated derivative of desipramine inhibited plasmid replication and transfer, but the fully saturated derivative was inactive. The inhibition of plasmid curing and transfer patterns did not correlate with the inhibition of ATP-ase and cholinesterase. Trans-clopenthixol was more effective in plasmid elimination than the cis-isomer. On the other hand, the cis-isomer inhibited ATP-ase and cholinesterase more than the trans-isomer. The levo- and dextro-methoxytrimeprazine also inhibited plasmid replication and enzyme activity. We believe that the tricyclic configuration of the drugs tested for stereospecific binding to bacterial receptors is more important than its side chain orientation. We believe that there is a similarity between bacterial receptor sites and neural receptor sites. Therefore, this model may be useful in the study of neuropharmacological agents as potential antibacterial agents.