Semisynthesis and in Vitro Anti-cancer Effect of New Magnolol Derivatives on the Cell Proliferation, Apoptosis, Migration, and Invasion of Human Hepatocellular Carcinoma SMMC-7721 Cells.

Four new magnolol derivatives were synthesized and evaluated for their in vitro anti-cancer properties. Among these, compound 3 showed the most potent cytotoxic activity against the SMMC-7721, SUN-449, and HepG2 human hepatocellular carcinoma cell lines, with IC50 values of 3.39, 4.11, and 6.88 µM, respectively. Compound 3 also induced apoptosis of SMMC-7721 cells by down-regulating Bcl-2 and Akt protein levels, up-regulating of Bax protein level, and cleaving caspase-9 and -3. In addition, transwell assays showed that compound 3 significantly suppressed the migration and invasion of SMMC-7721 cells, which was confirmed based on the down-regulation of hypoxia inducible factor-1α (HIF-1α), matrix metalloproteinase-2 and -9 (MMP-2, and MMP-9) protein levels.

MAPK8 regulates chicken male germ cell differentiation through JNK signaling pathway.

The study aims to analyze the key signaling pathways in regulating the process of embryonic stem cells (ESCs) differentiation into spermatogonial stem cells (SSCs). We explored the specific regulating mechanisms of C-Jun amino-terminal kinase (JNK) signaling in this process. Interference/overexpression of MAPK8 allows the JNK signaling pathway to be blocked/activated. In Retinoic acid (RA) induced in vitro differentiation assays, the expression of germ cell marker genes, cvh, c-kit, integrin α6 and integrin ß1, was observed to upregulate while activating JNK signaling significantly. Fluorescence Activated Cell Sorting (FACs) analysis showed that the proportion of cvh+ and integrin α6+ cells in the overexpression group was significantly higher than which in the RA + shRNA-MAPK8 group. In in vivo situations, shRNA-MAPK8 could stably express in chicken embryos and significantly down-regulate expression of MAPK8 and downstream genes in JNK signaling pathway. With PAS stain, we found that PGCs (primordial germ cells) was significantly decreased after inhibiting MAPK8. With real-time quantitative PCR (qRT-PCR) and Western Blot, we identified that reproductive related genes expression was significantly suppressed after inhibiting MAPK8 in vivo. We preliminarily concluded that knockdown/ overexpression of MAPK8 could affect differentiation of ESC by inhibiting/activating JNK signal.

The inhibition role of miR-22 in hepatocellular carcinoma cell migration and invasion via targeting CD147.

BACKGROUND: Recently, miR-22 is identified as a tumor-suppressing microRNA in many human cancers. CD147 is a novel cancer-associated biomarker that plays an important role in the invasion and metastasis of malignant tumor. However, the involvement of miR-22 in CD147 regulation and hepatocellular carcinoma (HCC) progression and metastasis has not been investigated. METHODS: We measured miR-22 expression level in 34 paired of HCC and matched normal tissues, HCC cell lines by real-time quantitative RT-PCR. Invasion assay, MTT proliferation assay and wound-healing assay were performed to test the invasion and proliferation of HCC cell after overexpression of miR-22. The effect of miR-22 on HCC in vivo was validated by murine xenograft model. The relationship of miR-22 and its target gene CD147 was also investigated. RESULTS: We found that the expression of miR-22 in HCC tissues and cell lines were much lower than that in normal control, respectively. The expression of miR-22 was inversely correlated with HCC metastatic ability. Moreover, overexpression of miR-22 could significantly inhibit the HCC cell proliferation, migration and invasion in vitro and decrease HCC tumor growth in vivo. Finally, we found that miR-22 interacted with CD147 and decreased its expression, via a specific target site within the CD147 3'UTR by luciferase reporter assay. The expression of CD147 was inversely correlated with miR-22 expression in HCC tissues. CONCLUSION: Our results suggested that miR-22 was downexpressed in HCC and inhibited HCC cell proliferation, migration and invasion through downregulating cancer-associated gene CD147 which may provide a new bio-target for HCC therapy.

Potential role of TRIM3 as a novel tumour suppressor in colorectal cancer (CRC) development.

OBJECTIVE: Colorectal cancer (CRC) is the third leading cause of cancer-related mortality in the United States. Recent cancer genome-sequencing efforts and complementary functional studies have led to the identification of a collection of candidate 'driver' genes involved in CRC tumorigenesis. Tripartite motif (TRIM3) is recently identified as a tumour suppressor in glioblastoma but this tumour-suppressive function has not been investigated in CRC. MATERIAL AND METHODS: In this study, we investigated the potential role of TRIM3 as a tumour suppressor in CRC development by manipulating the expression of TRIM3 in two authentic CRC cell lines, HCT116 and DLD1, followed by various functional assays, including cell proliferation, colony formation, scratch wound healing, soft agar, and invasion assays. Xenograft experiment was performed to examine in vivo tumour-suppressive properties of TRIM3. RESULTS: Small-interfering RNA (siRNA) mediated knockdown of TRIM3 conferred growth advantage in CRC cells. In contrast, overexpression of TRIM3 affected cell survival, cell migration, anchorage independent growth and invasive potential in CRC cells. In addition, TRIM3 was found to be down-regulated in human colon cancer tissues compared with matched normal colon tissues. Overexpression of TRIM3 significantly inhibited tumour growth in vivo using xenograft mouse models. Mechanistic investigation revealed that TRIM3 can regulate p53 protein level through its stabilisation. CONCLUSIONS: TRIM3 functions as a tumour suppressor in CRC progression. This tumour-suppressive function is exerted partially through regulation of p53 protein. Therefore, this protein may represent a novel therapeutic target for prevention or intervention of CRC.

Copper-catalyzed aerobic decarboxylative sulfonylation of cinnamic acids with sodium sulfinates: stereospecific synthesis of (E)-alkenyl sulfones.

A copper-catalyzed aerobic decarboxylative sulfonylation of alkenyl carboxylic acids with sodium sulfinates is developed. This study offers a new and expedient strategy for stereoselective synthesis of (E)-alkenyl sulfones that are widely present in biologically active natural products and therapeutic agents. Moreover, the transformation is proposed to proceed via a radical process and exhibits a broad substrate scope and good functional group tolerance.

[Synthesis and identification of artificial antigen of forsythin].

The establishment of high specificity and sensitivity method of small molecule monoclonal antibody-based immunoassay has a great importance in the study of small molecule compounds in Chinese medicine, wherein synthesis of small molecule artificial antigen is a critical step in the preparation of small molecule antibodies. Oxidation method using sodium iodide was used to synthesize immunogenic antigen (FRn-BSA) and coating antigen (FRn-OVA) of forsythin. UV spectroscopy and thin layer chromatography showed that forsythin was successfully conjugated with BSA and OVA. After immuned FRn-BSA, the mice could specifically produce anti-forsythin antibodies with titer up to 1:8 000, and the linear range was from 1 mg x L(-1) to 100 mg x L(-1). In this paper, the artificial antigen of forsythin was successfully synthesized, which can be applied for preparation of monoclonal antibodies and establishment of appropriate immune method.

[Synthesis and identification of artificial antigens of paneoniflorin].

Oxidation method with sodium iodide was used to synthesize immunogenic antigen (PF-BSA) and coating antigen (PF-OVA) of paeoniflorin. UV spectroscopy showed that paeoniflorin was successfully conjugated with BSA and OVA. After immunized by PF-BSA, the mice can produce anti-paeoniflorin antibodies specifically. The ELISA test results showed the high titer (1:12 800) and specificity (IC50 = 0.791 mg x L(-1)) of the antiserum from mice injected with PF-BSA. Also, the antiserum showed low cross activities against nine traditional Chinese medicine (TCM) of small molecules. These artificial antigens were successfully synthesized and the anti-paeoniflorin antibody well prepared, which provides the experimental basis for the further study of ELISA and its kit.

[Effects of increasing CO2 concentration and water deficit on photosynthetic performance and water use efficiency of typical green manure plants]. / CO2æµ“åº¦å¢žåŠ å’Œæ°´åˆ†äºç¼ºå¯¹å ¸åž‹ç»¿è‚¥æ¤ç‰©å ‰åˆæ€§èƒ½åŠæ°´åˆ†åˆ©ç”¨æ•ˆçŽ‡çš„å½±å“.

Exploring the impacts of CO2 and soil water availability on the photosynthetic performance and water use efficiency of three green manure plants could provide theoretical basis for the adaptive management of grassland ecosystems under future climate change. An experiment was conducted in an artificial climate chamber with precisely controled CO2 concentrations of 400 (natural atmospheric) and 800 µmol·mol-1 (doubled), and four water treatments, 80% field water holding capacity (FC) (full irrigation control group), 55%-60% FC (mild water deficit), 35%-40% FC (moderate water deficit), <35% FC (severe water deficit) to investigate the impacts of increasing CO2 concentration and water deficit on chlorophyll content, gas exchange variables, and water use efficiency (WUE) of oilseed rape (Brassica napus), white clover (Trifolium repens), and alfalfa (Medicago sativa). The results showed that under the same CO2 concentration, when soil moisture was less than 40% FC, the chlorophyll content and gas exchange parameters of three plants were significantly decreased. The treatment of 55%-60% FC did not alter the total chlorophyll content of three species, but reduced the photosynthetic rate (Pn) and transpiration rate (Tr) of white clover and alfalfa by 6%-25% and did not affect their WUE. Compared with atmospheric CO2 concentration, the doubled CO2 concentration significantly decreased the Pn of oilseed rape by 21.5% under the full irrigation treatment, increased the Pn of three species under mild water deficit, increased the Pn of oilseed rape and alfalfa under moderate water deficit, but only improved the Pn of alfalfa under severe water deficit. The doubled CO2 concentration significantly increased WUE of white clover and alfalfa under all water deficit conditions, but only increased WUE of oilseed rape under mild water deficit. Increasing CO2 concentration and water deficit significantly interacted to affect Pn of three species and the WUE of oilseed rape. In summary, the three species differed in their responses to doubled atmospheric CO2 concentration and different levels of water deficit. Our results suggested that elevated CO2 concentration could improve the adverse effects of mild water deficit on photosynthetic performance and WUE of three species, but only improve the photosynthetic performance of alfalfa under severe water deficit.