MTHFR Polymorphism and Folic Acid Supplementation Influence Serum Homocysteine Levels in Psoriatic Patients Treated with Methotrexate.

BACKGROUND: Hyperhomocysteinemia has been reported in psoriasis. We investigated the effect of methylenetetrahydrofolate reductase (MTHFR), polymorphism and folic acid supplementation on serum homocysteine levels in psoriasis. METHODS: Serum homocysteine levels were detected at baseline and at week 12 in 201 patients who were genotyped with MTHFR rs1801133 without and 93 psoriatic patients with folate supplement. RESULTS: TT genotype carriers of MTHFR rs1801133 had significantly higher serum homocysteine levels at baseline and at week 12, a better PASI 75 response rate at week 8, and a higher PASI 90 response rate at week 12 than the CT and CC genotype carriers. Multiple regression analysis demonstrated that serum homocysteine concentration at baseline was significantly associated with sex, weight, PASI score at baseline, and the rs1801133 genotype. The significant upregulation of serum homocysteine levels after treatment with methotrexate (MTX) was only observed in male CT and CC genotype carriers and female CC genotype carriers. In contrast, folic acid supplementation significantly decreased serum homocysteine levels after MTX treatment but only in male psoriatic patients. CONCLUSIONS: The effect of MTX on serum homocysteine levels was associated with the polymorphism of MTHFR rs1801133 and sex. Folic acid supplementation only decreased serum homocysteine levels in male psoriatic patients.

Compound K producing from the enzymatic conversion of gypenoside by naringinase.

Compound K is a type of protopanaxadiol-type ginsenosides (PPDs) that has strong bioactivities due to fewer glycosyls. However, compound K is not present in raw and unprocessed ginseng. Some PPDs have the same structure with gypenosides, and could be obtained from Gynostemma pentaphyllum. The enzymolysis of PPD-type gypenosides of G. pentaphyllum by naringinase has been reported for the first time in this research. In addition, isolation and identification of enzymolysis end product, and the optimization of enzymolysis parameters were investigated. The results showed that compound K was produced from the enzymolysis of PPD-type gypenosides by naringinase, and could be isolated and purificated by HP-20 macroporous resin and C-18 column chromatography. The optimum enzymolysis conditions determined by the response surface methodology (RSM) are pH 4.1, 50 °C, and 71 h, with a yield of 65.44 ±â€¯4.52% for compound K. These results demonstrated that enzymolysis could be a promising method for producing compound K from the biotransformation of PPD-type gypenosides of G. pentaphyllum.

Corilagin induces the apoptosis of hepatocellular carcinoma cells through the mitochondrial apoptotic and death receptor pathways.

Corilagin, a gallotannin, is one of the major active components of many ethnopharmacological plants and exhibits antitumor, anti-inflammatory and antioxidative properties. In recent years, corilagin has provoked much attention due to its antitumor activity, yet the mechanisms attributed to its anticancer actions are largely unknown. In our previous research, our group reported that corilagin could inhibit the proliferation of hepatocellular carcinoma (HCC) cells by inducing G2/M phase arrest. In the present study, observation of the morphological changes showed that corilagin induced the apoptosis of HCC cells as determined by AO/EB and Hoechst 33258 staining assays. Furthermore, flow cytometric analysis was carried out to calculate the apoptotic rate which was 24.1% following treatment with corilagin (37.5 µM). At the molecular level, mitochondrial membrane potential assay and western blot analysis showed that the mitochondrial transmembrane potential was reduced and the rate of release of cytochrome c was increased, which led to the activation of caspase-9, caspase-3 and cleavage of PARP in the cytoplasm indicating activation of the mitochondrial apoptotic pathway. Moreover, following treatment with corilagin, we noted upregulation of Fas and FasL and activation of caspase-8 which represented activation of the death receptor pathway, and we also observed downregulation of Bcl-2 and survivin which was also attributed to the antitumor effect of corilagin. These results suggest that corilagin significantly induced the apoptosis of HCC cells through both the mitochondrial apoptotic pathway and the death receptor pathway, and corilagin is a potential complementary anticancer herbal drug for HCC therapy.

Corilagin, a promising medicinal herbal agent.

Corilagin, a gallotannin, is one of the major active components of many ethnopharmacological plants. It was isolated from Caesalpinia coriaria (Jacq.) Willd. (dividivi) by Schmidt in 1951 for the first time. In the past few decades, corilagin was reported to exhibit anti-tumor, anti-inflammatory and hepatoprotective activities, etc. However, little attention was paid to its pharmacological properties due to the complicated and inefficient extract method. In recent years, with the development of extraction technology corilagin was much easier to obtain than before. Thus, people return to pay attention to its anti-tumor, hepatoprotective, and anti-inflammatory activities, particularly as an anti-tumor agent candidate. Our research team had focused on the distribution, preparation and anti-tumor activity of corilagin since 2005. We found corilagin showed good anti-tumor activity on hepatocellular carcinoma and ovarian cancer. What's more, corilagin showed a low level of toxicity toward normal cells and tissues. Due to the extensive attention that corilagin has received, we present a systematic review of the pharmacological effects of corilagin. In this review, we summarized all the pharmacological effects of corilagin with a focus on the molecular mechanism of anti-tumor activity and show you how corilagin affected the signaling pathways of tumor cells as well as its physicochemical properties, distribution and preparation methods.

Corilagin sensitizes epithelial ovarian cancer to chemotherapy by inhibiting Snail­glycolysis pathways.

We identified that corilagin is a major component extracted from a well-known hepatoprotective and antiviral medicinal herb, Phyllanthus niruri L with antitumor activity. Our previous study found that corilagin inhibited the growth of ovarian cancer cells via the TGF-ß/AKT/ERK signaling pathways. Recently, we demonstrated that corilagin enhanced the sensitivity of ovarian cancer cells to chemotherapy. Ovarian cancer cell lines, SKOv3ip, Hey and HO-8910PM-Snail, were treated with different concentrations of corilagin in combination with paclitaxel and carboplatin. Corilagin distinctly enhanced the inhibitory effects of paclitaxel and carboplatin. To understand the mechanisms involved in the chemo-sensitization by corilagin, we performed reverse phase protein array analysis to determine the signaling networks induced by corilagin. We observed that both paclitaxel and carboplatin upregulated the expression levels of several apoptotic and death-related proteins, such as caspase 3, caspase 7 and PDCD4, which were further enhanced when combined with corilagin. Meanwhile, corilagin induced distinct pathways to paclitaxel and carboplatin treatment. We also performed isobaric tags for relative and absolute quantitation proteomics analysis in corilagen-treated ovarian cancer cells. This analysis indicated that corilagin is mainly involved in the glycolysis pathway. Seahorse XF96 extracellular acidification rate analysis confirmed that corilagin inhibited glycolysis by downregulation of CD44 and STAT3. In summary, our observations indicate that corilagin sensitized epithelial ovarian cancer cells to paclitaxel and carboplatin treatment by primarily inhibiting Snail-glycolysis pathways. Corilagin is a herbal medicine with low toxic effects to normal cells, particularly hepatoprotective, and may be an ideal complimentary medicine when combined with highly toxic chemotherapeutic agents.

Bioguided Fraction and Isolation of the Antitumor Components from Phyllanthus niruri L.

Phyllanthus niruri L., a well-known medicinal plant, has been used as a folk antitumor remedy in the worldwide scale. However, the antitumor components in P. niruri have not been reported. In order to verify the antitumor components of P. niruri and the plants which have the high content of these components, we isolated the antitumor components with bioguided fraction and isolation, by different chromatographic methods from the ethyl acetate fraction of P. niruri., and identified them as ethyl brevifolincarboxylate and corilagin by 1H-NMR, 13C-NMR, 2D-NMR, and mass spectrometric analyses. Cell cytotoxicity assays showed that corilagin has broad-spectrum antitumor activity, a better antitumor potential, and lower toxicity in normal cells. Besides, the coefficient of drug interaction (CDI) of 10 µM corilagin and 20 µM cDDP reached up to 0.77, which means corilagin can promote the antitumor activity of cDDP. Furthermore, by the extensive screening among 10 species of plants reported to contain corilagin, we found that Dimocarpus longan Lour. has the maximum content of corilagin. In conclusion, corilagin is the major active antitumor composition in P. niruri. L. on HCC cells and has high content in D. longan.

[Biotransformation in vivo/vitro and bioactive properties of rare ginsenoside IH901].

Recent metabolomics research revealed a new ginseng ginsenoside IH901 that is synthesized by intestinal microbial transformation in oral administration of ginseng. IH901 shows various biological activities, including anti-tumor, anti-inflammatory, anti-diabetic, and anti-aging. In recent years, great effort has been made to prepare IH901 by microbial and enzymatic transformation in a large scale. In this paper, we reviewed the biotransformation pathways both in vivo and in vitro and bioactive properties of rare ginsenoside IH901.

Ginsenoside compound K attenuates metastatic growth of hepatocellular carcinoma, which is associated with the translocation of nuclear factor-κB p65 and reduction of matrix metalloproteinase-2/9.

The intestinal metabolite of ginseng saponin, compound K (CK), has various chemopreventive and chemotherapeutic activities, including anti-tumor activity. However, the functional mechanisms through which CK attenuates metastatic growth in hepatocellular carcinoma (HCC) remain unclear. Here, using multiple IN VITRO and IN VIVO models, we reported that CK strongly attenuated colony formation, adhesion, and invasion of HCC cells IN VITRO and dramatically inhibited spontaneous HCC metastatic growth IN VIVO. At the molecular level, immunofluorescence and Western blotting analysis confirmed that inhibition of metastatic growth of HCC induced by CK treatment caused a time-dependent decrease in nuclear NF- κB p65 and a concomitant increase in cytosolic NF- κB p65, indicating that CK suppressed the activation of the NF- κB pathway. Meanwhile, our study showed that the inhibition of matrix metalloproteinase2/9 (MMP2/9) expression caused by CK treatment was associated with NF- κB p65 nuclear export. Taken together, our results not only revealed that NF- κB p65 nuclear export and the reduction of MMP2/9 expression were associated with the metastatic inhibition induced by CK, but also suggested that CK may become a potential cytotoxic drug in the prevention and treatment of HCC.

[Inhibitory effect of ginseng saponin IH901 on proliferation and metastasis of ECV304 cell line and its molecular mechanism].

This study aims to investigate the inhibitory effect on proliferation and metastasis of 20-O-(beta-D-glucopyranosyl)-20(S)-protopanaxadiol (IH901) on ECV304 cell line. MTT assay was used to examine the effect of cell proliferation inhibition and the adhesive ability of ECV304 cells to artificial basement membrane. Morphology of cell apoptosis was observed with phase contrast microscope. Apoptosis rate and cell cycle were detected by flow cytometry (FCM). Cell migration was measured by wound healing assay. ELISA kit was used to detect VEGF and bFGF. Caspases were detected by Western blotting. Results indicated that ginseng saponin IH901 can downregulate the expression of growth promoting protein VEGF and bFGF, and upregulate pro apoptosis protein cleaved caspase-9 and cleaved caspase-3. The increase in the apoptotic sub-G1 fraction is in a dose-dependent manner, and cell cycle arrests in the G0/G1 phase was detected by FCM. Morphological examination of IH901-treated samples showed cells with chromatin condensation, cell shrinkage, and all typical characteristics of apoptotic cells. Therefore, IH901 dramatically suppresses cell proliferation and adhesion and migration of ECV304 cell line.