Elimination of apple stem grooving virus by chemotherapy and development of an immunocapture RT-PCR for rapid sensitive screening

Ombuin (7,4′-dimethyl quercetin) (10 μg ml^-1, for 12 wk), glycyrrhizin/quercetin (80 μg ml^-1and 10 μg ml^-1respectively, for 18 wk), ribavirin (10 μg ml^-1, for 12 wk) and quercetin/ribavirin (10 μg ml^-1each, for 9–12 wk) reduced the titre of apple stem grooving virus (ASGV) when applied in vitro to infected tissue cultures of Nicotiana occidentalis obliqua Wheeler, and/or Malus domestica. ASGV was not detectable in both plant species after the quercitin/ribavirin treatment when tested by ISEM, herbaceous host indexing, RT-PCR, and immunocapture RT-PCR. A sensitive immunocapture RT-PCR procedure for the detection of ASGV was developed for the screening of treated samples to assess antiviral activity.     

含离子液体体系中固定化细胞转化甘草酸生成单葡萄糖醛酸基甘草次酸

研究疏水性离子液体1-丁基-3-甲基咪唑六氟磷酸盐([BMIM]PF6)与醋酸-醋酸钠缓冲液两相体系中,固定化产紫青霉Penicillium purpurogenum Li-3细胞转化甘草酸(GL)生成单葡萄糖醛酸基甘草次酸(GAMG)的反应,并与缓冲液单相体系作为对照.确定了在[BMIM]PF6/缓冲液两相体系中,最适离子液体加入比例、缓冲液pH、反应温度、底物浓度分别为10%、5.8、35℃和6.0mmol/L,在此条件下反应58h,甘草酸转化率为87.03%,比缓冲液单相体系提高了15.02%.离子液体循环使用8次后,回收利用率维持在85.28%.主产物GAMG和副产物甘草次酸(GA)在两相体系中得到有效分离,为后续产物分离带来便利.     

Mesorhizobium sp. J8 can establish symbiosis with Glycyrrhiza uralensis,increasing glycyrrhizin production

Licorice (Glycyrrhiza uralensis) is a medicinal plant that contains glycyrrhizin (GL), which has various pharmacological activities. Because licorice is a legume, it can establish a symbiotic relationship with nitrogen-fixing rhizobial bacteria. However, the effect of this symbiosis on GL production is unknown. Rhizobia were isolated from root nodules of Glycyrrhiza glabra, and a rhizobium that can form root nodules in G. uralensis was selected. Whole-genome analysis revealed a single circular chromosome of 6.7 Mbp. This rhizobium was classified as Mesorhizobium by phylogenetic analysis and was designated Mesorhizobium sp. J8. When G. uralensis plants grown from cuttings were inoculated with J8, root nodules formed. Shoot biomass and SPAD values of inoculated plants were significantly higher than those of uninoculated controls, and the GL content of the roots was 3.2 times that of controls. Because uninoculated plants from cuttings showed slight nodule formation, we grew plants from seeds in plant boxes filled with sterilized vermiculite, inoculated half of the seedlings with J8, and grew them with or without 100 µM KNO₃. The SPAD values of inoculated plants were significantly higher than those of uninoculated plants. Furthermore, the expression level of the CYP88D6 gene, which is a marker of GL synthesis, was 2.5 times higher than in inoculated plants. These results indicate that rhizobial symbiosis promotes both biomass and GL production in G. uralensis.     

Dual inhibitory effect of Glycyrrhiza glabra (GutGard™) on COX and LOX products

Glycyrrhiza glabra and its phytoconstituents have been known to possess widespread pharmacological properties as an anti-inflammatory, anti-viral, antitumour and hepatoprotective drug. In this study, we examined the inhibitory potential of extract of G. glabra (GutGard™) root and its phytoconstituents (glabridin, glycyrrhizin, and isoliquiritigenin) on both cyclooxygenase (COX) and lipoxygenase (LOX) products in order to understand the mechanism of its anti-inflammatory action. Inhibitory effect of GutGard™ and its phytoconstituents on lipopolysaccharide (LPS) induced prostaglandin E₂ (PGE₂), calcimycin (A23187) induced thromboxane (TXB₂), and leukotriene (LTB₄) release was studied using murine macrophages (J774A.1) and human neutrophil (HL-60) cells. Results revealed that, G. glabra and glabridin significantly inhibited PGE₂, TXB₂ (COX) and LTB₄ (LOX), while, isoliquiritigenin exerted inhibitory effect only against COX products but failed to suppress LOX product. However, glycyrrhizin at the tested concentrations failed to exhibit inhibitory effect on both COX and LOX products. Here, we report for the first time that G. glabra (almost devoid of glycyrrhizin) exhibits anti-inflammatory property likely through the inhibition of PGE₂, TXB₂ and LTB₄ in mammalian cell assay system, which could be influenced in part by glabridin and isoliquiritigenin.     

中药活性物质的提纯及抗SARS病毒的研究

首次利用逆流色谱,对黄芩、甘草和金银花等中药中的生物活性物质进行提取、纯化,黄芩甙、甘草甜素和绿原酸的纯度分别为96．5％,95．2％和94．8％,通过对10个SAILS冠状病毒临床分离株在胎体恒河猴腰4细胞和Vero—E6细胞的中和试验和斑块缩小试验,研究三种纯品在培养48和72h的抗SARS病毒活性。结果表明黄芩甙抑制SARS病毒活性效果明显,甘草甜素具有一定的效果,而绿原酸的效果较差。     

Purification and characterization of glycyrrhizin-β-d-glucuronidase and baicalin-β-d-glucuronidase from a commercial enzyme preparation

Abstract

Five commercial enzyme preparations were screened for hydrolysis of the glucuronic acid units of glycyrrhizin (GL) and baicalin. Two preparations hydrolyzing GL to glycyrrhetic acid (GA) and four enzyme preparations hydrolyzing baicalin to baicalein were obtained. One enzyme preparation with the ability to hydrolyze both GL and baicalin, namely Rapidase Pineapple, was purified by anion exchange, cation exchange and molecular sieve chromatography. The results of purification indicated that the enzymes containing the glycyrrhizin-β-d-glucuronidase (GBDG) and baicalin-β-d-glucuronidase (BBDG) activities were distinct, with different substrate specificities, molecular weights and enzymatic characteristics. GBDB hydrolyzed GL to GA, but had no detectable activity on baicalin, and BBDG hydrolyzed baicalin to baicalein, but could not hydrolyze GL. However, both GBDG and BBDG could hydrolyze the artificial substrate p-nitrophenyl- β-d-glucuronide (pNPGA).     

Glycyrrhizin protects against sodium iodate‐induced RPE and retinal injury though activation of AKT and Nrf2/HO‐1 pathway

Glycyrrhizin is a bioactive triterpenoid saponin extracted from a traditional Chinese medicinal herb, glycyrrhiza, and has been reported to protect the organs such as liver and heart from injuries. However, there is no report about the effects of glycyrrhizin on atrophic age‐related macular degeneration (AMD). This study investigated the effects of glycyrrhizin on retinal pigment epithelium (RPE) in vitro and retina of mice in vivo treated with sodium iodate (SI). Glycyrrhizin significantly inhibited SI‐induced reactive oxygen species (ROS), and decreased apoptosis of RPE in vitro. The underlying mechanisms included increased phosphorylation of Akt, and increased expression of nuclear factor erythroid 2‐related factor2 (Nrf‐2) and HO‐1, thereby protecting RPE from SI‐induced ROS and apoptosis. Furthermore, glycyrrhizin significantly decreased the apoptosis of retinal cells in vivo, resulting in the inhibition of thinning of retina, decreasing the number of drusen and improving the function of retina. These findings suggested that glycyrrhizin may be a potential candidate for the treatment of atrophic AMD in clinical practice.     

Selective activation of extrathymic T cells in the liver by glycyrrhizin

Extrathymic pathways for T cell differentiation were recently demonstrated in the liver, intestine and omentum. In this study, glycyrrhizin (GL), a plant extract was investigated as to its effect on extrathymic T cells in the liver of mice. A new method using anti-LFA-1 mAb in conjunction with anti-TCR or -CD3 mAbs to sensitively identify such extrathymic T cells is included. Single injection and repeated injections of GL increased not only the number of total hepatic MNC but also the proportion of intermediate TCR cells, which are extrathymic T cells uniquely seen in the liver. In contrast to other tested reagents (e.g., lymphotoxin and estrogen) that activated the extrathymic T cells and simultaneously induced profound thymic atrophy, GL did not affect regular T cells in the thymus. The present results suggest that the selective activation of extrathymic T cells in the liver might be intimately related to the clinical effects of GL.