Cercospora beticola toxins. IX. Relationship between structure of beticolins, inhibition of plasma membrane H+-ATPase and partition in lipid membranes

Beticolins are yellow toxins produced by the fungus Cercospora beticola . The effect of one of them, beticolin-1. has been investigated on corn root plasma membrane H⁺-ATPase (EC 3.6.1.35) at different purification levels (plasma membrane fraction, partially, or highly purified enzyme). The results obtained demonstrated that (1) the purified proton pump was inhibited directly by low amounts of the toxin (I₅₀= 1.62 ± 0.18 μM), (2) the biological effects of beticolin-1 were similar to those of CBT ( Cercospora beticola toxin). Furthermore, it was established that the efficiency of the different beticolins was clearly related to their ability to interact with the lipid bilayers, determined by fluorometric studies: the toxins that exhibited the lower I₅₀ (50% inhibitory concentrations) values were the molecules that had the lowest partition coefficient to liposomes.     

Cercospora beticola toxins. Part VI: preliminary studies of protonation and complexation equilibria

The biological activity of Cercospora beticola toxins might be enhanced by the complex formation with magnesium. Therefore, protonation and complexation equilibria of beticolins were studied. Beticolins carry three dissociable functions (H3B) two of which dissociate at a physiological pH. In the presence of magnesium, the neutralisation and protonation curves provide evidence for the formation of complexes. At physiological pH, the uncharged complex, Mg2H2B2, is the predominant form. The nonionised forms of free beticolin-1 and -2 fluoresce in a 50% dioxan-water solution and their emission maxima shift to higher wavelengths in water. The dianion HB(2-) is non-fluorescent both in water and in less polar media. The formation of the Mg2H2B2 complex which strongly fluoresces in nonpolar media is confirmed by a marked increase in fluorescence at 520 nm and by a shift of the excitation maximum.     

Germacrone improves liver fibrosis by regulating the PI3K/AKT/mTOR signalling pathway

Liver fibrosis is a primary threat to public health, owing to limited therapeutic options. Germacrone (GM) has been shown to exert various curative effects against human diseases, including liver injury. The aim of this study was to investigate the pharmacological effects of GM in the pathophysiology of hepatic fibrosis and determine its potential mechanisms of action. A liver fibrosis rat model was established via carbon tetrachloride (CCl₄) treatment, and LX-2 cells were stimulated with TGF-β1. The effects of GM on liver fibrosis and its relationship with the phosphatidylinositol 3-kinase (PI3K)/protein kinase B (AKT)/mammalian target of rapamycin (mTOR) signalling pathway were investigated. In the CCl₄ fibrosis-induced rat model, GM improved histological damage, inhibited the activity of hepatic α-smooth muscle actin and improved serum alanine aminotransferase and aspartate aminotransferase levels in a dose-dependent manner. GM potently inhibited hepatic stellate cells (HSCs) growth and epithelial–mesenchymal transition (EMT) progression, as reflected by the altered expression of proliferative (Ki-67, PCNA and cleaved caspase-3) and EMT-related (E-cadherin and vimentin) proteins. In TGF-β1-stimulated LX-2 cells, GM significantly inhibited the survival and activation of HSCs and induced cell apoptosis. GM also suppressed the migration ability and reversed the EMT process in HSCs. Following GM treatment, the phosphorylation of the PI3K, AKT and mTOR proteins was reduced in the liver of CCl₄-treated rats and TGF-β1-stimulated LX-2 cells, indicating that GM may attenuate hepatic fibrosis via the PI3K/AKT/mTOR signalling pathway. These outcomes highlight the anti-fibrotic effects of GM and suggest that it is a potential therapeutic agent for the treatment of liver fibrosis.     

Interleukin-2 inhibits proliferation of HPV-associated tumor cells and halts tumor growth in vivo

Previous studies have shown inhibition of cervical cancer cell growth by treatment with high concentrations of IL-2. In the present study, we evaluated the in vitro and in vivo effects of recombinant human IL-2 on HPV-associated tumor cells (3T3-16). Treatment of 3T3-16 cells with rhIL-2 for 72 h inhibited cell growth in a dose-dependent manner and this effect was evidenced at nanomolar concentrations. These tumor cells expressed mRNA for beta and gamma subunits of the IL-2 receptor, which are required for signal transduction. In experiments to explore the effect of IL-2 on the growth of the HPV-associated tumor, mice received rhIL-2 through different routes: (i) intraperitoneal; (ii) subcutaneous, at the tumor inoculation site; or (iii) subcutaneous, distant from the tumor inoculation site. An effective antitumor response was observed only in those animals that received IL-2 at the tumor site (P<0.01). These results indicate the potential adequacy of therapeutic strategies based on local administration of rhIL-2 for cervical carcinoma, not only based on the ability of this cytokine to stimulate cellular-mediated immunity but also because of its direct effects on tumor cells.     

Synergistic Effect of 5-Nitro-2′-deoxyuridine with Ganciclovir Against Human Cytomegalovirus In Vitro

Abstract

In this paper we describe a practical synthesis of 5-nitro-2′-deoxyuridine (4) and 1-(2-deoxy-2-fluoro-β-D-arabinofuranosyl)-5-nitrouracil (11). These compounds were then evaluated for their ability to inhibit the growth of human cytomegalovirus (HCMV, strain AD169) in MRC-5 cells using a plaque reduction assay. Compound 11 was unable to inhibit the growth of HCMV at the highest concentration tested (100 μg/mL). However, compound 4 (5-NO₂-dU) exhibited marginal activity against HCMV in vitro in a dose-dependent manner with a 50% inhibitory concentrations (IC₅₀) of 1 to 5 μg/mL. Combinations of 5-NO₂-dU with ganciclovir synergistically inhibited HCMV induced cell killing in culture.     

Sodium tanshinone IIA sulfonate protects against Aβ-induced cell toxicity through regulating Aβ process

Sodium tanshinone IIA sulfonate (STS) has been reported to prevent Alzheimer's disease (AD). However, the mechanism is still unknown. In this study, two in vitro models, Aβ-treated SH-SY5Y cells and SH-SY5Y human neuroblastoma cells transfected with APPsw (SH-SY5Y-APPsw cells), were employed to investigate the neuroprotective of STS. The results revealed that pretreatment with STS (1, 10 and 100 µmol/L) for 24 hours could protect against Aβ (10 µmol/L)-induced cell toxicity in a dose-dependent manner in the SH-SY5Y cells. Sodium tanshinone IIA sulfonate decreased the concentrations of reactive oxygen species, malondialdehyde, NO and iNOS, while increased the activities of superoxide dismutase and glutathione peroxidase in the SH-SY5Y cells. Sodium tanshinone IIA sulfonate decreased the levels of inflammatory factors (IL-1β, IL-6 and TNF-α) in the SH-SY5Y cells. In addition, Western blot results revealed that the expressions of neprilysin and insulin-degrading enzyme were up-regulated in the SH-SY5Y cells after STS treatment. Furthermore, ELISA and Western blot results showed that STS could decrease the levels of Aβ. ELISA and qPCR results indicated that STS could increase α-secretase (ADAM10) activity and decrease β-secretase (BACE1) activity. In conclusion, STS could protect against Aβ-induced cell damage by modulating Aβ degration and generation. Sodium tanshinone IIA sulfonate could be a promising candidate for AD treatment.     

Fluorescence-topographic NSOM directly visualizes peak-valley polarities of GM1/GM3 rafts in cell membrane fluctuations

Simultaneous fluorescence-topographic nanoscale imaging of cell-surface molecules in the context of membrane ultra-structures has not been reported. Here, near-field scanning optical microscopy (NSOM)-based direct fluorescence-topographic imaging indicated that GM3 rafts/nanodomains (190.0 +/- 49.8 nm ranging 84.5-365.0 nm) were localized predominantly on the peaks of microvillus-like protrusions in the apical membrane of GM3 + Madin-Darby canine kidney cells, whereas GM1 rafts/nanodomains (159.5 +/- 63.8 nm ranging 42-360 nm) were distributed mainly on the slops of protrusions or the valleys between protrusions in the plasma membranes of GM1 + MDCK cells. The data demonstrated that gangliosides polarized not only in a well-known apical-basolateral manner but also in the more microscopic peak-valley manner, implicating unique distribution of GM1 or GM3 in cell-surface fluctuations on the apical membrane of polarized cells. The peak-valley polarities of gangliosides also implicated their different functions relevant to lipid rafts, microvilli, or cellular processes. Importantly, our study demonstrated for the first time that the NSOM-based direct fluorescence-topographic imaging is unique and powerful for elucidating nanoscale distribution of specific cell-surface molecules in membrane fluctuations.     

An inhibitor specific for the mouse T-cell associated serine proteinase 1 (TSP-1) inhibits the cytolytic potential of cytoplasmic granules but not of intact cytolytic T cells

We have investigated a proteinase inhibitor, designed according to the preferred amino acid sequence that is cleaved by the murine T-cell specific serine proteinase 1 (TSP-1) for its effect on the cytolytic potential of cloned cytotoxic T-cell lines (CTLL) and of cytoplasmic granules, derived from these cells. Pretreatment of effector cells with H-D-Pro-Phe-Arg-chloromethyl-ketone (PFR-CK) prior to the cytotoxicity assay did not result in inhibition of cytolytic activity of three independent CTLL and did not effect their granule-associated TSP-1 activity after extraction with Triton X-100. Furthermore, PFR-CK did not interfere with cytolysis of target cells by CTLL when present for the entire incubation period. In contrast, PFR-CK inhibited in a dose-dependent manner both TSP-1 activity and the hemolytic/cytolytic potential of isolated cytoplasmic granules after their pretreatment with high-salt concentration. We interpret these results to mean that cytolysis of target cells by CTLL involves the granule-associated proteinase TSP-1, which probably becomes active upon exocytosis following effector-target cell interactions.     

Lyso-GM3, its dimer,and multimer: their synthesis,and their effect on epidermal growth factor-induced receptor tyrosine kinase

Glycosphingolipids, particularly gangliosides, are known to modulate growth factor receptor tyrosine kinase. A well-documented example is the inhibitory effect of GM3 on kinase associated with epidermal growth factor receptor (EGFR) in human epidermoid carcinoma A431 cells. Lyso-GM3 was detected as a minor component in A431 cells, and may function as an auxiliary factor in GM3-dependent inhibition of EGFR. We studied the inhibitory effect of chemically synthesized GM3, lyso-GM3, and its derivatives, on EGFR function, based on their interaction in membrane microdomain, with the following major findings: (1) GM3, EGFR, and caveolin coexist, but tetraspanins CD9 and CD82 are essentially absent, within the same low-density membrane fraction, separated by sucrose density gradient ultracentrifugation. (2) Strong interaction between EGFR and GM3 was indicated by increasing binding of EGFR to GM3-coated polystyrene beads, in a GM3 dose-dependent manner. Confocal microscopy results suggested that three components in the microdomain (GM3, EGFR, and caveolin) are closely associated. (3) Lyso-GM3 or lyso-GM3 dimer strongly inhibited EGFR kinase activity, in a dose-dependent manner, while lyso-GM3 trimer and tetramer did not. >50 μM lyso-GM3 was cytolytic, while >50 μM lyso-GM3 dimer was not cytolytic, yet inhibited EGFR kinase strongly. Thus, lyso-GM3 and its dimer exert an auxiliary effect on GM3-induced inhibition of EGFR kinase and cell growth, and lyso-GM3 dimer may be a good candidate for pharmacological inhibitor of epidermal tumor growth.     

Inhibition of endothelial cell proliferation and bFGF-induced phenotypic modulation by nitric oxide

S-nitroso-N-acetyl-D,L-acetylpenicillamine (SNAP), a chemical donor of NO, inhibited serum- and basic fibroblast growth factor (bFGF)-stimulated cultured endothelial cell (EC) proliferation in a dose-dependent manner. The inhibitory effect of NO was reversible after washoff of SNAP-containing media. Measurement of nitrate and nitrite in the media of SNAP-treated EC indicated that decomposition of SNAP into NO reached a stable level at or before 24 h; proliferation of EC was significantly inhibited for another 48 h and recovered thereafter if no additional SNAP was added. The level of NO produced by inhibitory concentrations of SNAP was comparable to NO levels produced by the induction of inducible nitric oxide synthase (iNOS) in smooth muscle cells or retinal pigmented epithelial cells. The growth-inhibitory effect of NO was unlikely to be due to cytotoxicity since 1) cells never completely lost their proliferative capacity even after 10 days of exposure to repeated additions of SNAP, 2) the inhibitory effect was reversible upon removal of NO and with the passage of time, and 3) NO did not reduce the number of cells that were growth-arrested with TGF-β1. In addition to its mitogenic effect, bFGF induced pronounced phenotypic changes, including suppression of contact inhibition, altered cell morphology, and scattering of the cells, in BPAEC cultures, whereas cells treated simultaneously with bFGF and NO did not exhibit these changes. These observations suggest that NO contributes to the regulation of angiogenesis and reendothelialization, processes that require EC proliferation, migration, and differentiation. © 1996 Wiley-Liss, Inc.     

Differential inhibition of lipolysis by 2-bromopalmitic acid and 4-bromocrotonic acid in 3T3-L1 adipocytes

Two inhibitors of fatty acid oxidation, 2-bromopalmitic acid (Br-C16) and 4-bromocrotonic acid (Br-C4) were examined for their effect on lipolysis in 3T3-L1 adipocytes. Both agents inhibited in a dose-dependent manner the rate of oxidation of exogenously added [1-¹⁴C]palmitate with similar time-courses, reaching a plateau at 3–9 h. While Br-C16 at 50 μM and 100 μM inhibited palmitate oxidation by approximately 40% and 60%, respectively, pretreatment with both concentrations inhibited lipolysis in washed cells in an almost identical manner. The magnitude of inhibition increased with time of pretreatment. On the other hand, like inhibition of fatty acid oxidation, inhibition of lipolysis by Br-C4 pretreatment was dose-dependent with maximal inhibition reached after 3 h pretreatment. The finding that isoproterenol- and dibutyryl cAMP-stimulated lipolysis were similarly suppressed by either Br-C4 or Br-C16 pretreatment, suggesting that a step distal to cAMP formation was involved. In addition, while the inhibitory effect of Br-C16 was not significantly influenced, the inhibition of lipolysis caused by Br-C4 was attenuated by pretreating cells with crotonic acid, octanoate, or palmitate. The longer chain-length of the fatty acids the cells were exposed, the stronger attenuation of the inhibition caused by Br-C4 was observed. Moreover, whereas pretreatment with Br-C16 was without effect, pretreatment with Br-C4 significantly decreased hormone-sensitive lipase (HSL) activity in cell extracts, albeit to an extent much smaller than its inhibitory effect on lipolysis. In conclusion, these results indicate that irreversible inhibition of lipolysis by Br-C16 or Br-C4 cannot be attributed to their effect on fatty acid oxidation. Some factor capable of modulating HSL activity seems to be involved.     

Regulation of Root Growth in Lactuca sativa L. Seedlings by the Ent-Kaurane Diterpenoid Epinodosin

Epinodosin, an ent-kaurane diterpenoid isolated from Isodon japonica var. galaucocalyx, had a biphasic, dose-dependent effect on root growth and a strong inhibitory effect on root hair development in Lactuca sativa L. seedlings. Lower levels of epinodosin (25–100 μM) significantly promoted root growth, but higher concentrations (150–200 μM), by contrast, had inhibitory effects. In addition, all of the tested concentrations (20–80 μM) inhibited root hair development of lettuce seedlings in a dose-dependent manner. Further investigations on the underlying mechanism revealed that the promotion effect of epinodosin (25–100 μM) resulted from increasing the cell length in the mature region and enhancing the mitotic activity of meristematic cells in lettuce seedling root tips. On the other hand, epinodosin at higher concentrations inhibited root growth by strongly affecting both the cell length in the mature region and the division of meristematic cells. Comet assay analysis demonstrated that the decrease of mitotic activity of root meristematic cells was due to DNA damage induced by higher levels of epinodosin.     

Effects of an inhibitor of glucosylceramide synthase on glycosphingolipid synthesis and neurite outgrowth in murine neuroblastoma cell lines.

1-Phenyl-2-decanolyamino-3-morpholino-1-propanol (PDMP), an effective inhibitor of UDP-glucose:ceramide glucosyltransferase, caused inhibition of cell growth in murine neuroblastoma cell lines. Metabolic labeling of glycosphingolipids with [14C]galactose in NS-20Y, Neuro2a, and N1E-115 cells showed reduced incorporation of radioactivity into gangliosides and neutral glycosphingolipids when threo-PDMP was present in the medium. Treatment of NS-20Y cells with threo-PDMP resulted in a time-dependent decrease in mass levels of gangliosides and neutral glycosphingolipids. After 24 h in the presence of 50 microM threo-PDMP, neutral glycosphingolipid mass was reduced to 32%, where glucosylceramide was the most affected (90% decrease). The ganglioside mass was reduced to 57% of the original content. Neurite outgrowth from neuroblastoma cells in serum-free medium was significantly inhibited by threo-PDMP in a dose-dependent manner. Threo-PDMP also caused retraction of neurites which had been induced to extend in serum-free medium. Pretreatment of cells with GM1 partially restored the ability of NS-20Y cells for neurite outgrowth in the medium containing threo-PDMP. These results suggest a possible role for glycosphingolipids in neurite outgrowth of murine neuroblastoma cells.     

Gangliosides Inhibit Platelet-Derived Growth Factor-Stimulated Growth, Receptor Phosphorylation, and Dimerization in Neuroblastoma SH-SY5Y Cells

Abstract: SH-SY5Y is a thrice cloned cell line originally derived from the human neuroblastoma cell line SK-N-SH. It grows well in serum-containing medium and undergoes neuritogenesis in response to several trophic factors. Because it has been reported that this clonal line does not have receptors for platelet-derived growth factor (PDGF), it has been unclear what the major mitogenic factor in serum is for these cells. In competitive binding studies using radiolabeled PDGF-BB, we found that SH-SY5Y cells specifically bind PDGF with a K _D = 0.14 ± 0.06 n M and B _max = 7.3 ± 2.3 p M . Functionality of these receptors was demonstrated by an increased [³H]-thymidine incorporation in response to PDGF (stimulation index = 2.5). At concentrations of PDGF-BB between 5 and 100 ng/ml, maximum stimulation occurred with 20 ng/ml. Maximum DNA synthesis occurred after 12–24-h exposure to PDGF. Gangliosides GM3 and GT1b greatly inhibited [³H]thymidine incorporation, which was also inhibited to a lesser extent by GM1. Phosphorylation on tyrosine of a 170-kDa protein in response to PDGF stimulation of intact cells was demonstrated by western blot analysis probing with anti-phosphotyrosine antibody. Immunoprecipitation with anti-PDGF β-receptor antibody and visualization on a western blot with an anti-phosphotyrosine antibody also revealed a 170-kDa protein. Maximum phosphorylation of the 170-kDa protein occurred after 5-min exposure to 20 ng/ml PDGF. This phosphorylation was inhibited by gangliosides GM1, GM2, GD1a, and GT1b but not by GM3. Receptor dimerization was also inhibited by GM1. These results show that SH-SY5Y cells have specific receptors for PDGF-BB that are functional, and can be modulated by gangliosides.     

Isolation and partial characterization of a Taenia taeniaeformis metacestode proteinase inhibitor

Suquet C., Green-Edwards C. and Wes Leid R. 1984. Isolation and partial characterization of a Taenia taeniaeformis metacestode proteinase inhibitor. International Journal for Parasitology14: 165–172. A proteinase inhibitor from the metacestode of Taenia taeniaeformis was purified 136-fold to apparent homogeneity as evidenced by one Coomassie Blue protein staining band on 10% SDS slab gels under both reducing and non-reducing conditions. The apparent molecular weight under dissociating conditions was 19,500. This parasite protein inhibited esterolysis of TAME and BTEE by bovine pancreatic trypsin and chymotrypsin respectively in a time and dose-dependent manner. Proteolysis of casein by both enzymes was also inhibited in a time and dose-dependent manner. The parasite inhibitor was stable from pH 2.2 to 10.5 and was fully active after heating at 56 °C for 3 h. The proteases pronase and thermolysin, at concentrations of 1 mg ml^?1, completely inactivated the metacestode inhibitor. Two sulfhydryl proteases, papain and chymopapain, used at concentrations of 1 mg ml^?1 were without effect. The irreversible proteinase inhibitors TLCK, TPCK and PMSF at concentrations up to 10 mM had no effect on the parasite inhibitor.     

The α4β1 Fibronectin Ligands CS-19 HEP II,and RGD Induce Different Intracellular Events in B Lymphoid Cells. Comparison with the Effects of the Endothelial Ligand V CAM-1

The lymphocyte integrin α4β1 is the receptor for the Hep II domain and CS-1 site in fibronectin (Fn) as well as for VCAM-1. We recently showed that upon activation with anti-β1 mAb TS2/16, α4β1 also recognizes the RGD Fn sequence. To determine the physiological role of these multiple interactions, we have now studied some intracellular events induced by “resting” and activated α4β1 binding to its different ligands. Analyses of actin and tubulin reorganization upon adhesion of B lymphoid cells to Fn fragments or VCAM-1 showed that VCAM-1, a 38 kDa fragment (Hep II+CS-1), and the CS-1 synthetic peptide induced formation of transient cytoplasmic projections; however, cells attached to a 58 kDa (Hep II) or 80 kDa (RGD) fragments remained rounded. Using transfilter assays, we showed that VCAM-1, 38 kDa and CS-1 also induced dose-dependent B cell migration mediated by α4β1. Furthermore, these three ligands, but not the 80 kDa fragment or a synthetic peptide (H1) containing a sequence from Hep II shown to bind α4β1, induced tyrosine phosphorylation of a 110 kDa protein. Activation of α4β1 with TS2/16 inhibited the cytoplasmic protrusions and cell migration but did not affect the pattern of phosphorylation. Our results indicate that the various α4β1 ligands induce different cellular responses. Most importantly they show that α4β1 interaction with CS-1 is sufficient to trigger intracellular events in B cells. Furthermore, they suggest a regulation by the activation form of the receptor as well as by the ligand in events involving lymphocyte adhesion and migration.     

益母草水提物对小鼠前体脂肪细胞体外增殖能力的影响

目的探讨益母草水提物对小鼠前体脂肪细胞的增殖的影响,旨在了解益母草新的药用价值。方法分离培养小鼠前体脂肪细胞,取传代细胞,用不同浓度的益母草水提物处理,MTT法检测前体脂肪细胞增殖情况。结果益母草水提物可明显抑制小鼠前体脂肪细胞的体外增殖,并呈一定的剂量依赖性,其机制有待进一步研究。     

Murine Neuroblastoma Cells Express Ganglioside Binding Sites on Their Cell Surface

The ability of S20Y cholinergic, and N115 adrenergic, murine neuroblastoma cells to adhere to immobilized gangliosides was studied. Viable S20Y cells adhered more strongly to GM1-coated plastic wells than to those coated with GM2, GD1a, or GT1b. The oligosaccharide portion of GM1 inhibited adherence of S20Y cells to GM1-coated wells, indicating that the carbohydrate moiety of GM1 bore the recognition site. Analysis of S20Y cell adherence to wells coated with derivatives of GM1 indicated that the cells did not adhere to asialo-GM1 and adherence to the methyl ester or de-N-acetyl derivatives was significantly reduced. Expression of the GM1 binding sites by S20Y cells appears to be density dependent; cells harvested at the confluent stage of growth were more adherent than those harvested at the preconfluent stage. Trypsin treatment of the S20Y and N115 cells resulted in a loss of binding to GM1-coated wells, suggesting that the cell surface GM1 binding site is a protein. In contrast, N115 cells showed no significant difference in their adherence to wells coated with GM1, GD1a, GT1b, Gal-Cer, asialo-GM1, or the methyl ester of GM1 when assayed under the same conditions as those imposed on the S20Y cells. The N115 cells did show a reduction in adherence to GM2-coated wells, suggesting that they recognized the terminal galactosyl moiety.     

Direct Demonstration of the Activation of UDP-N-Acetylgalactosamine: [GM3]N-Acetylgalactosaminyltransferase by Cyclic AMP

Treatment of NG108-15 cells in culture with the opiate peptide [D-Ala2,D-Leu5]enkephalin produces maximal inhibition of cyclic AMP synthesis in less than 15 min. The activity of [GM3]:N-acetylgalactosaminyltransferase is similarly inhibited, but maximal inhibition is not observed for at least 30 min following the addition of [D-Ala2,D-Leu5]enkephalin. Conversely, the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine rapidly potentiates the intracellular accumulation of cyclic AMP and, in a more gradual fashion, increases [GM3]:N-acetylgalactosaminyltransferase activity. The reductions in the activity of [GM3]:N-acetylgalactosaminyltransferase that occur following treatment of NG108-15 cells with indomethacin argues for a direct role of cyclic AMP in the observed changed in [GM3]:N-acetylgalactosaminyltransferase activity. By adding low concentrations of cyclic AMP (but not cyclic GMP) to microsomes derived from neonatal rat brain, we were able to demonstrate a dose-dependent phosphorylation of membrane protein and subsequent doubling of [GM3]:N-acetylgalactosaminyltransferase activity.     

Dehydroleucodine and dehydroparishin-B inhibit proliferation and motility of B16 melanoma cells

Dehydroleucodine, a known sesquiterpene lactone, and dehydroparishin-B, a new guaiane type sesquiterpene acid, were isolated from aerial parts of Artemisia douglasiana by chloroform extraction. We identified dehydroparishin-B as (7R)-2-oxo-guaia-1(10),3(4),5(6),11(13)-tetraen-12-oic acid by MS and NMR methods. We demonstrated that both dehydroparishin-B and dehydroleucodine blocked cell proliferation of B16 melanoma cells, but not normal murine Melan-A melanocytes, in a dose-dependent manner without affecting cell viability. We also found that both dehydroparishin-B and dehydroleucodine inhibited migration of B16 melanoma cells. These results suggest that dehydroleucodine and dehydroparishin-B could represent potential candidates for the treatment of metastatic melanomas.