Tricholopardins A and B, Anti-inflammatory Terpenoids from the Fruiting Bodies of Tricholoma pardinum.

Two new Tricholoma terpenoids, tricholopardins A and B, were isolated from the fruiting bodies of the basidiomycetes Tricholoma pardinum. Their structures were elucidated by spectroscopic methods, as well as electronic circular dichroism and optical rotatory dispersion calculations. Tricholopardin A potently inhibited nitric oxide production in lipopolysaccharide-induced RAW264.7 macrophages with an IC50 of 0.08 µM. Its anti-inflammatory effects on three inflammatory mediators were also evaluated. A plausible biosynthetic pathway for these products is discussed.

Lanostane triterpenoids from Tricholoma pardinum with NO production inhibitory and cytotoxic activities.

Eight undescribed lanostane triterpenoids, pardinols A‒H, along with one previously reported lanostane triterpenoid, namely saponaceol B, were isolated from the fruiting bodies of Tricholoma pardinum. Their structures and stereoconfigurations were established via combination of extensive spectroscopic analyses, alkaline methanolysis method and TDDFT/ECD calculations. Pardinols B and E-H exhibited certain inhibition activities of nitric oxide (NO) production with IC50 value ranging from 5.3 to 14.7 µM, as well as cytotoxicities against human cancer cell-lines.

Anemhupehins A-C, Podocarpane Diterpenoids from Anemone hupehensis.

Three new podocarpane diterpenoids, namely anemhupehins A-C (1-3), together with four known analogues (4-7), have been isolated from aerial parts of Anemone hupehensis. Their structures were characterized based on extensive spectroscopic data. Compounds 1 and 4 showed certain cytotoxicities against human cancer cell lines.

Chemical constituents and anti-inflammatory activities of Maqian (Zanthoxylum myriacanthum var. pubescens) bark extracts.

In this study, 44 compounds in the petroleum ether extract of Maqian (Zanthoxylum myriacanthum var. pubescens) bark, a traditional Dai herbal medicine, were identified by GC-MS. Major components included 3(2H)-benzofuranone, asarinin and (dimethoxymethyl)-3-methoxy-benzene. A total of 18 compounds were isolated from the ethyl acetate extracts of Maqian bark by column chromatography and identified by chemical and spectral analyses. Rhoifoline B, zanthoxyline dimethoxy derivative, N-nortidine, nitidine, decarine are the major alkaloids. Both the petroleum ether and ethyl acetate extracts showed significant inhibition on NO production, which imply anti-inflammatory activity, in lipopolysaccharide-induced RAW 264.7 cells without cell toxicity. Decarine is the major anti-inflammatory constituent with NO IC50 values of 48.43 µM on RAW264.7 cells. The petroleum ether extract, the ethyl acetate extract and decarine showed anti-inflammatory activities through inhibiting TNF-α and IL-1ß production in lipopolysaccharide-stimulated THP-1 cells without cell toxicity too. Decarine showed anti-inflammatory activity on human colon cells by reducing IL-6 and IL-8 production in TNF-α+IL-1ß-induced Caco-2 cells. These results support the use of Maqian bark as a remedy for enteritis and colitis recorded by Dai medicine in China, and elucidate the major pharmacological compounds in Maqian bark.

Protective effect of the essential oil of Zanthoxylum myriacanthum var. pubescens against dextran sulfate sodium-induced intestinal inflammation in mice.

BACKGROUND: Zanthoxylum myriacanthum var. pubescens is an ethnic medicine for digestive disease known as Maqian. A previous report showed that the Maqian fruits essential oil (MQEO) exhibited an NO inhibitory effect on RAW 264.7 cells, but the effect on inflammatory disease in vivo remains unknown. PURPOSE: To investigate the anti-inflammatory effect of Z. myriacanthum var. pubescens as potential candidate for the treatment of intestinal inflammation. STUDY DESIGN: Evaluation of anti-inflammatory effect of MQEO using dextran sulfate sodium (DSS)-induced intestinal inflammation in mice and exploration of the mechanisms with THP-1 cells. METHODS: C57BL/6 mice were provided drinking water containing 3% DSS for 10 days followed by normal drinking water for 3 days. MQEO (35 and 70mg/kg) were given 5 days before experiments and continued for another 13 days. At the end of experiments, mice were euthanized and colonic tissue was collected to be analyzed by H&E staining, RT-PCR and immunohistochemistry for evaluating the damage of colons, the mRNA levels of IL-1ß, IL-6, IL-12p35 and TNF-α, and the expressions of myeloperoxidase (MPO) and matrix metalloproteinase-9 (MMP-9). The LPS-stimulated THP-1 cell line was used for exploring the role of inflammatory markers using ELISA, western blot and flow cytometry methods. RESULTS: Oral administration of MQEO (35 and 70mg/kg) markedly attenuated the symptoms of intestinal inflammation, including diarrhea, rectal bleeding, and loss of body weight. It also reduced the shortening of colon length and histopathological damage. The expressions of MPO and MMP-9 and the mRNA levels of pro-inflammatory cytokines (IL-1ß, IL-6 and IL-12p35) in colonic tissue significantly decreased after MQEQ treatment. The activation of NF-κB p65 in colonic mucosa was also markedly suppressed. In addition, MQEO significantly suppressed LPS-stimulated production of TNF-α and IL-1ß, effectively blocked phosphorylation of IKK and IκB, and dose-dependently reduced LPS-stimulated expression of TLR4 in THP-1 cells at concentrations ranging from 0.01‰ to 0.05‰ (v/v). CONCLUSION: MQEO exhibited protective effect against DSS-induced intestinal inflammation and the anti-inflammatory activity may be associated with TLR4 mediated NF-κB signaling pathway, suggesting it might be used as an anti-inflammatory agent.

[Effect of levonorgestrel-releasing intrauterine system combined with GnRH analogue for treatment of large adenomyosis].

OBJECTIVE: To evaluate the effects of levonorgestrel-releasing intrauterine system (LNG-IUS) combined with GnRH analogue (GnRH-a) in the treatment of adenomyosis with uterine body enlargement. METHODS: Twelve women (mane age 40.3 years) with adenomyosis and uterine cavity depth over 11 cm received injections of GnRH-a every 4 weeks, and after the uterine cavity depth was reduced to below 10 cm, LNG-IUS was deployed. VAS pain score, PBAC bleeding score, uterine volume, and hemoglobin levels of the women were measured before the treatment and at 6 and 12 months after LNG-IUS placement. RESULTS: The VAS pain score was significantly lowered at 6 and 12 month after LNG-IUS placement (P<0.05), and the PBAC bleeding score also showed significant reductions (P<0.05). The uterine volume decreased significantly at 6 and 12 months after LNG-IUS placement as compared with that before the treatment, but was significantly greater at 6 month in comparison with that at the time of LNG-IUS placement (P<0.05). Serum hemoglobin levels underwent significant increments after LNG-IUS placement (P<0.05). CONCLUSION: LNG-IUS combined with GnRH analogue injection can be effective in the treatment of adenomyosis with dysmenorrhea and hypermenorrhea.

Nuclear Dvl, c-Jun, beta-catenin, and TCF form a complex leading to stabilization of beta-catenin-TCF interaction.

In canonical Wnt signaling, Dishevelled (Dvl) is a critical cytoplasmic regulator that releases beta-catenin from degradation. Here, we find that Dvl and c-Jun form a complex with beta-catenin-T-cell factor 4 (TCF-4) on the promoter of Wnt target genes and regulate gene transcription. The complex forms via two interactions of nuclear Dvl with c-Jun and beta-catenin, respectively, both of which bind to TCF. Disrupting the interaction of Dvl with either c-Jun or beta-catenin suppresses canonical Wnt signaling-stimulated transcription, and the reduction of Dvl diminished beta-catenin-TCF-4 association on Wnt target gene promoters in vivo. Expression of a TCF-Dvl fusion protein largely rescued the c-Jun knockdown Wnt signaling deficiency in mammalian cells and zebrafish. Thus, we confirm that c-Jun functions in canonical Wnt signaling and show that c-Jun functions as a scaffold in the beta-catenin-TCFs transcription complex bridging Dvl to TCF. Our results reveal a mechanism by which nuclear Dvl cooperates with c-Jun to regulate gene transcription stimulated by the canonical Wnt signaling pathway.

The spike protein of severe acute respiratory syndrome (SARS) is cleaved in virus infected Vero-E6 cells.

Spike protein is one of the major structural proteins of severe acute respiratory syndrome-coronavirus. It is essential for the interaction of the virons with host cell receptors and subsequent fusion of the viral envelop with host cell membrane to allow infection. Some spike proteins of coronavirus, such as MHV, HCoV-OC43, AIBV and BcoV, are proteolytically cleaved into two subunits, S1 and S2. In contrast, TGV, FIPV and HCoV-229E are not. Many studies have shown that the cleavage of spike protein seriously affects its function. In order to investigate the maturation and proteolytic processing of the S protein of SARS CoV, we generated S1 and S2 subunit specific antibodies (Abs) as well as N, E and 3CL protein-specific Abs. Our results showed that the antibodies could efficiently and specifically bind to their corresponding proteins from E.coli expressed or lysate of SARS-CoV infected Vero-E6 cells by Western blot analysis. Furthermore, the anti-S1 and S2 Abs were proved to be capable of binding to SARS CoV under electron microscope observation. When S2 Ab was used to perform immune precipitation with lysate of SARS-CoV infected cells, a cleaved S2 fragment was detected with S2-specific mAb by Western blot analysis. The data demonstrated that the cleavage of S protein was observed in the lysate, indicating that proteolytic processing of S protein is present in host cells.

Effects of Deleting the Amino-terminal Domain of GRK-2 on Its Function.

To reveal the possible role of the amino-terminal domain of G protein-coupled receptor kinases(GRKs)in receptor phosphorylation and/or modulation of its kinase activity, a truncated mutant of GRK-2 lacking the amino-terminal domain(deltaN-GRK2)was made. deltaN-GRK2 was expressed effectively in E.coli as a GST fusion protein and was purified by affinity chromatography on a GSH-Sepharose column. deltaN-GRK2 was then separated from GST tag by thrombin cleavage and recovered. Although deltaN-GRK2 had nearly identical activity with wild-type GRK-2 in phosphorylation of peptide substrate, it completely lost the ability to phosphorylate the light-activated receptor rhodopsin. Furthermore, deletion of the amino-terminal domain rendered GRK-2 unresponsive to the regulation of kinase activity by a truncated form of rhodopsin, (329)G-Rho(*) and beta gamma subunits of G protein. These results demonstrated that the amino-terminal domain was necessary to GRK2 for both the phosphorylation of receptor and the regulation of its kinase activity by the receptor. It was reasonable to postulate that this domain has little, if any effect on the catalytic domain of natural form of GRK2.