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Twelve previously undescribed withanolides, including three uncommon chemotypes of aglycones, daturafolisides (J-L), and six common structures, daturafolisides (M-U), as well as one known withanolide were isolated from the leaves of Datura metel L. Their structures were elucidated by interpretation of spectroscopic data (1D, 2D NMR and CD), HRESIMS experiments and comparison with published data for similar compounds. These isolated compounds were evaluated for their inhibitory activities on nitric oxide production. The IC50 values of daturafoliside L, daturafoliside M, and daturafoliside T were between 9.37 and 18.64 µM, while daturafoliside K, daturafoliside R, and daturametelin A had IC50 values of 22.83-33.36 µM. Herein, three proposed biosynthetic pathways for uncommon structures daturafolisides J-L were discussed. These constituents found in the leaves of Datura metel L. may be a good source of bioactive substances, making contributions to the sustainable utilization of this plant resources.

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Chronic and acute central nervous system (CNS) inflammation are contributors toward neurological injury associated with head trauma, stroke, infection, Parkinsons or Alzheimers disease. CNS inflammatory illnesses can also contribute toward risk of developing glioblastoma multiforme (GBM). With growing public interest in complementary and alternative medicines (CAMs), we conduct a high throughput (HTP) screening of >1400 natural herbs, plants and over the counter (OTC) products for anti-inflammatory effects on lipopolysaccharide (LPS)/interferon gamma (IFNγ) activated C6 glioma cells. Validation studies were performed showing a pro-inflammatory profile of [LPS 3 µg/ml/ IFNγ 3 ng/ml] consistent with greater release [>8.5 fold] of MCP-1, NO2-, cytokine-induced neutrophil chemo-attractants (CINC) 1, CINC 2a and CINC3. The data show no changes to the following, IL-13, TNF-a, fracktaline, leptin, LIX, GM-CSF, ICAM1, L-Selectin, activin A, agrin, IL-1α, MIP-3a, B72/CD86, NGF, IL-1b, MMP-8, IL-1 R6, PDGF-AA, IL-2, IL-4, prolactin R, RAGE, IL-6, Thymus Chemokine-1, CNTF,IL-10 or TIMP-1. A HTP screening was conducted, where we employ an in vitro efficacy index (iEI) defined as the ratio of toxicity (LC50)/anti-inflammatory potency (IC50). The iEI was precautionary to ensure biological effects were occurring in fully viable cells (ratio > 3.8) independent of toxicity. Using NO2- as a guideline molecule, the data show that 1.77% (25 of 1410 tested) had anti-inflammatory effects with iEI ratios >3.8 and IC50s <250µg/ml. These include reference drugs (hydrocortisone, dexamethasone N6-(1-iminoethyl)-l-lysine and NSAIDS: diclofenac, tolfenamic acid), a histone deacetylase inhibitor (apicidin) and the following natural products; Ashwaganda (Withania somnifera), Elecampagne Root (Inula helenium), Feverfew (Tanacetum parthenium), Green Tea (Camellia sinensis), Turmeric Root (Curcuma longa) Ganthoda (Valeriana wallichii), Tansy (Tanacetum vulgare), Maddar Root (Rubia tinctoria), Red Sandle wood (Pterocarpus santalinus), Bay Leaf (Laurus nobilis, Lauraceae), quercetin, cardamonin, fisetin, EGCG, biochanin A, galangin, apigenin and curcumin. The herb with the largest iEI was Ashwaganda where the IC50/LC50 was 11.1/>1750.0µg/ml, and the compound with the greatest iEI was quercetin where the IC50/LC50 was 10.0/>363.6µg/ml. These substances also downregulate the production of iNOS expression and attenuate CINC-3 release. In summary, this HTP screening provides guideline information about the efficacy of natural products that could prevent inflammatory processes associated with neurodegenerative disease and aggressive glioma tumor growth.

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It has been studied how preventive administration of EDTA influences toxic NO2- induced pulmonary edema and disturbances in antioxidant systems. The compound in question, being preventively administered, has exerted a significant antiedematic effect as a result of a decrease in lipid peroxidation intensity and protection of the most important substrate components of the nonenzymatic antioxidant system from the oxidation effect.

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The depletion of human umbilical vein endothelial (HUVE) cell glutathione with buthionine sulfoximine or with sulfur amino acid-free medium potentiated the sub-lethal (3H-deoxyglucose release) and lethal (lactate dehydrogenase release) cytotoxicity responses of the cells to direct exposure to NO2 over the range 2-20 ppm. When control cells, or glutathione-depleted cells, were either pre-loaded with ascorbate (intracellular ascorbate), or washed with ascorbate-containing medium just before exposure (extracellular ascorbate), the cells were fully protected from NO2-dependent toxicity. Concomitant with these exposures, NO2 caused dose-dependent depletions of both glutathione and ascorbate. Further, it was noted that the depletion of the intracellular ascorbate pool was accelerated in these glutathione depleted cells. Conversely, loading ascorbate into the cells significantly diminished NO2-dependent depletion of intracellular GSH. In contrast to affecting the acute cytotoxicity response of the HUVE cells to NO2, ascorbate supplementation of the medium of cells exposed to NO2 at clonal density facilitated considerable protection to the colony-forming efficiency of the cells. We conclude that both ascorbate and glutathione play important protective roles in defending HUVE cells from the toxicity of NO2 under direct exposure conditions. The results also strengthen the premise that ascorbate and glutathione co-operate in the antioxidative protection of cellular viability.

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Nitric oxide (NO) is produced both by macrophages in vivo as a physiological response to infection and by a variety of cell types as an intercellular messenger. In addition, NO and nitrogen dioxide (NO2) are significant components of many combustion processes. The ubiquitous exposure of humans to nitrogen oxides (NOx), both endogenously and exogenously, may play a significant role in the carcinogenic process due to nitrosation of amines by NOx. We report here that exposure to low concentrations of NO, alone or in combination with NO2, results in significantly enhanced mutation in Salmonella typhimurium TA1535 using a modified Ames Salmonella reversion assay. The observed mutagenicity requires that the bacteria be actively dividing at the time of exposure to NO or NO2, suggesting that the nitrogen oxides, or their reaction products, function as direct-acting mutagens and that the induced lesion is easily repairable by non-dividing cells. Exposure to NO resulted in a time- and dose-dependent increase in the number of revertants approximately proportional to the square of the NO concentration from 0 to 20 ppm. NO was a more effective mutagen relative to NO2, however, the observed requirement for O2 suggests limited oxidation of NO (presumably to NO2) is necessary. Numerous lipid- and aqueous-phase inhibitors of nitrosation, as well as a number of other general antioxidants and free-radical trapping agents, were examined for their effectiveness in blocking the mutagenic effects of NO. The mutagenic activity of NO was most effectively inhibited by beta-carotene and tocopherols. BHT, dimethyl sulfoxide and mannitol also blocked the mutagenic effects of NOx but appeared less effective than beta-carotene or vitamin E, while ascorbate was ineffective as an inhibitor of mutation resulting from NO exposure.

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Previously we established that in vitro NO2 exposure induced inhibition of histamine release from rat peritoneal mast cells (PMC) stimulated with secretagogues such as compound 48/80 or substance P. To further explore the effects of NO2 exposure on mast cells, we investigated whether the addition of an antioxidant agent, 2-mercaptoethanol (2-ME), can prevent NO2-induced inhibition of mediator release from PMC. Histamine release from 5 ppm NO2-exposed PMC stimulated with 10 and 20 microM substance P was significantly inhibited compared with that from the controls. beta-Hexosaminidase release from 5 ppm NO2-exposed PMC stimulated with 20 microM substance P was also significantly inhibited. However, the inhibition of both histamine and beta-hexosaminidase release from exposed PMC was diminished by the addition of 5 mM 2-ME during NO2 exposure. Although IgE-mediated histamine release from NO2 exposed PMC was markedly inhibited, the addition of 5 mM 2-ME during NO2 exposure induced no inhibition of histamine release. These results suggest a possible relationship between NO2-induced inhibition of mast cell mediator release and production of free radicals by the action of NO2.

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Nitrogen dioxide is an air pollutant that causes pulmonary alterations. Employing light and transmission electron microscopy, we examined plastic sections and freeze-fracture replicas of alveolar epithelium of groups of hamsters exposed to nitrogen for 24 h to determine taurine-induced changes in intercellular junctions. Prior to exposure, one group of hamsters was given 0.5% taurine in their drinking water for 2 weeks. A second group of hamsters was given taurine-free water. The taurine-treated group was divided into three subgroups. The first subgroup was exposed to nitrogen dioxide at a concentration of 7 ppm for 24 h, the second subgroup was exposed to nitrogen dioxide at a concentration of 30 ppm for 24 h, and the third subgroup was exposed to normal room air for 24 h. The nontaurine-treated animals were similarly divided into three subgroups and treated as described above. The lungs of the hamsters exposed to nitrogen dioxide without the taurine pretreatment exhibited extensive inflammatory cell infiltration in the walls of the terminal bronchioles, alveolar ducts, and peribronchiolar alveoli. The degree of infiltration was proportional to the degree of nitrogen dioxide concentration. The taurine-treated animals exposed to nitrogen dioxide and the nontaurine-treated animals exposed to room aid did not show any inflammatory infiltrate. Freeze-fracture replicas of the tight junctional regions of the type I and type II pneumocytes revealed significant fragmentation in the nitrogen dioxide-exposed lungs. It was also observed that the tight junctions between the type I pneumocytes of the taurine-treated groups, whether exposed or not, revealed gap junction-like aggregates among the tight junction fibrils. The 30-ppm nitrogen dioxide exposed group exhibited larger and more frequent gap junctions between the pneumocytes than those observed in the 7-ppm nitrogen dioxide exposed group. The evidence suggests that taurine may have an effect on plasma membranes and intercellular communications. Changes in intercellular communication may contribute to decreased susceptibility to injury and increased pneumocyte survival.

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The effect of short-term intake of LiCl in drinking fluid on NO2 toxicity was studied in mice as a function of mortality and of specific activities of mouse liver alcohol dehydrogenase (L-ADH) and aldehyde dehydrogenases (L-ALDH). Pretreatment with LiCl for 10 days decreased mortality in mice exposed to 60 to 70 PPM NO2 for 6 hr compared to controls. Pretreatment with LiCl for 10 days under continued exposure to 5 PPM NO2 resulted in a decrease in liver weight compared to control. Lithium treated mice exposed to NO2 showed less gain in body weight than the controls treated with LiCl and exposed to air. The latter group showed an induction of mitochondrial but not cytoplasmic L-ALDH and the NO2 exposure did not alter endogenous L-ALDH from corresponding controls. This induction of mitochondrial ALDH was associated with an increase in both Vmax and the apparent Km. Exposure to NO2 for 10 consecutive days resulted in inhibition of cytoplasmic L-ALDH. The data suggest that Li+ antagonized NO2 toxicity. A possible mechanism for reduction of NO2 toxicity by LiCl may be due to Li+ action on stabilizing cell membranes and/or modifying intercellular pulmonary response to NO2 injury.

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Groups of three to four mice were gavaged with aqueous solutions of 2 milligrams of morpholine, after which they were exposed to nitrogen dioxide in inhalation chambers at concentrations of 0.2 to 50 parts per million for up to 4 hours. At sequential intervals during the exposure, mice were frozen and pulverized in liquid nitrogen, and the mice powder was extracted with ice-cold 35 percent aqueous methanol and dichloromethane; organic-phase concentrates were analyzed for N-nitrosomorpholine with a thermal energy analyzer interfaced to a gas chromatograph. The N-nitrosomorpholine yields, ranging up to about 2.3 micrograms per mouse, were time-dependent relative to the duration of exposure to nitrogen dioxide and dose-dependent relative to the concentrations of nitrogen dioxide; control levels (in mice that were gavaged with morpholine or distilled water and then exposed to air instead of nitrogen dioxide) were less than 5 nanograms per mouse. These preliminary studies demonstrate the in vivo nitrosating potential of nitrogen oxides.

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