Biological control of take-all in wheat by endophytic Bacillus subtilis E1R-j and potential mode of action

The bacterial strain E1R-j, isolated as an endophyte from wheat roots, exhibited high antifungal activity to Gaeumannomyces graminis var. tritici (Ggt). Strain E1R-j was identified as Bacillus subtilis based on morphological, physiological and biochemical methods as well as on 16S rDNA analysis. This strain inhibited mycelium growth in vitro of numerous plant pathogenic fungi, especially of Ggt, Coniothyrium diplodiella, Phomopsis sp. and Sclerotinia sclerotiorum. In greenhouse experiments, soil drenches with cell densities of 10⁶, 10⁹ and 10¹² CFU ml⁻¹ E1R-j reduced significantly take-all disease, caused by Ggt, in wheat seedling by 62.6%, 68.6% and 70.7%, respectively, compared to the inoculated control, 4 weeks after sowing. Growth parameters such as lengths and fresh weights of roots and shoots of Ggt-inoculated control plants were significantly lower compared to Ggt-inoculated and E1R-j treated plants. Field experiments in the season 2006/2007, heights of wheat plants in the Ggt inoculated plots were significantly reduced compared to the non inoculated treatments. Yield parameters such as kernels per head and thousand kernel weight (TKW) in inoculated control plants were lower compared to the other treatments. In the experimental year 2007/2008, independent treatments with the bacterial strain E1R-j and the fungicide Triadimefon reduced take-all disease in wheat roots by 55.3% and 61.9%, compared to the inoculated control plants. In this season plant height in inoculated control was significantly lower and also the yield parameters seeds per head and especially TKW were drastically reduced compared to the other treatments. E1R-j treatment alleviated the detrimental effects of take-all on grain yield parameters to a similar extent as Triadimefon application. SEM studies revealed that in the presence of E1R-j, hyphae of Ggt showed leakage, appeared ruptured, swollen and shriveled. Following root drench, strain E1R-j was able to colonize endophytically roots and leaves of wheat seedlings. While the population of the bacterial strain in wheat roots steadily increased from the second to the fourth leaf stage, in the leaf tissue the population of the strain rapidly declined. TEM studies also showed that cells of E1R-j were present in roots of wheat seedlings and effectively retarded infection and colonization of Ggt in root tissue; suppression of Ggt by E1R-j was accompanied by disintegration of hyphal cytoplasm. In addition, in the presence of E1R-j cells in Ggt-infected root tissue morphological defense reactions were triggered such as formation of wall appositions and papillae. The results presented indicate that the endophytic strain E1R-j of B. subtilis meets demands required for biocontrol of take-all.     

LRP1 controls intracellular cholesterol storage and fatty acid synthesis through modulation of Wnt signaling

The low-density lipoprotein receptor-related protein LRP1 is a cell surface receptor with functions in diverse physiological pathways, including lipid metabolism. Here we show that LRP1-deficient fibroblasts accumulate high levels of intracellular cholesterol and cholesteryl-ester when stimulated for adipocyte differentiation. We demonstrate that LRP1 stimulates a canonical Wnt5a signaling pathway that prevents cholesterol accumulation. Moreover, we show that LRP1 is required for lipolysis and stimulates fatty acid synthesis independently of the noradrenergic pathway, through inhibition of GSK3beta and its previously unknown target acetyl-CoA carboxylase (ACC). As a result of ACC inhibition, mature LRP1-deficient adipocytes of adult mice are hypotrophic, and lower uptake of fatty acids into adipose tissue leads to their redistribution to the liver. These results establish LRP1 as a novel integrator of adipogenic differentiation and fat storage signals.     

Cyclin D1 Induction by Benzo[a]pyrene-7,8-diol-9,10-epoxide via the Phosphatidylinositol 3-Kinase/Akt/MAPK- and p70s6k-dependent Pathway Promotes Cell Transformation and Tumorigenesis

Benzo[a]pyrene-7,8-diol-9,10-epoxide (B[a]PDE), the major metabolite of B[a]P, has been well recognized as one ubiquitous carcinogen, but the molecular mechanism involved in its carcinogenic effect remains obscure. In the present study, we found that bronchial epithelial cells (Beas-2B) and hepatocytes treated with B[a]PDE presented a significant increase of cyclin D1 expression. Moreover, Akt, p70^s6k, and MAPKs including JNK, Erks, and p38 were notably activated in B[a]PDE-treated Beas-2B cells, whereas NF-κB, NFAT, and Egr-1 were not. Our results demonstrated that JNK and Erks were required in B[a]PDE-induced cyclin D1 expression because the inhibition of JNK or Erks by a selective chemical inhibitor or dominant negative mutant robustly impaired the cyclin D1 induction by B[a]PDE. Furthermore, we found that overexpression of the dominant negative mutant of p85 (regulatory subunit of phosphatidylinositol 3-kinase) or Akt dramatically suppressed B[a]PDE-induced JNK and Erk activation as well as cyclin D1 expression, suggesting that cyclin D1 induction by B[a]PDE is via the phosphatidylinositol 3-kinase/Akt/MAPK-dependent pathway. In addition, we clarified that p70^s6k is also involved in B[a]PDE-induced cyclin D1 expression because rampamycin pretreatment dramatically reduced cyclin D1 induction by B[a]PDE. More importantly, we demonstrated that up-regulated cyclin D1 by B[a]PDE plays a critical role in oncogenic transformation and tumorigenesis of Beas-2B cells. These results not only broaden our knowledge of the molecular mechanism of B[a]PDE carcinogenicity but also lead to the further study of chemoprevention of B[a]PDE-associated human cancers.     

A Binding Domain on Mesothelin for CA125/MUC16

Ovarian cancer and malignant mesothelioma frequently express both mesothelin and CA125 (also known as MUC16) at high levels on the cell surface. The interaction between mesothelin and CA125 may facilitate the implantation and peritoneal spread of tumors by cell adhesion, whereas the detailed nature of this interaction is still unknown. Here, we used truncated mutagenesis and alanine replacement techniques to identify a binding site on mesothelin for CA125. We examined the molecular interaction by Western blot overlay assays and further quantitatively analyzed by enzyme-linked immunosorbent assay. We also evaluated the binding on cancer cells by flow cytometry. We identified the region (296–359) consisting of 64 amino acids at the N-terminal of cell surface mesothelin as the minimum fragment for complete binding activity to CA125. We found that substitution of tyrosine 318 with an alanine abolished CA125 binding. Replacement of tryptophan 321 and glutamic acid 324 with alanine could partially decrease binding to CA125, whereas mutation of histidine 354 had no effect. These results indicate that a conformation-sensitive structure of the region (296–359) is required and sufficient for the binding of mesothelin to CA125. In addition, we have shown that a single chain monoclonal antibody (SS1) recognizes this CA125-binding domain and blocks the mesothelin-CA125 interaction on cancer cells. The identified CA125-binding domain significantly inhibits cancer cell adhesion and merits evaluation as a new therapeutic agent for preventing or treating peritoneal malignant tumors.Ovarian cancer largely is confined to the peritoneal cavity for much of its natural history (1). Peritoneal mesothelioma is a highly invasive tumor originating from the mesothelial linings of the peritoneum (2). The development of effective drug regimens against ovarian cancer and mesothelioma has proven extremely difficult.Mesothelin was first identified in 1992 by the monoclonal antibody (mAb)² K1 that was generated by the immunization of mice with human ovarian carcinoma (OVCAR-3) cells (3). The mesothelin gene encodes a 71-kDa precursor protein that is processed to a 40-kDa protein termed mesothelin, which is a glycosylphosphatidylinositol (GPI)-anchored glycoprotein present on the cell surface (4). Mesothelin is a differentiation antigen that is present on a restricted set of normal adult tissues such as the mesothelium. In contrast, it is overexpressed in a variety of cancers including mesothelioma, ovarian cancer, and pancreatic cancer (5). In addition, mesothelin is also expressed on the surface of non-small cell lung cancer cells (6, 7), especially most lung adenocarcinomas (8).We and others have shown that mesothelin is shed from tumor cells (9, 10), and antibodies specific for mesothelin are elevated in the sera of patients with mesothelioma and ovarian cancer (11). Shed serum mesothelin has been approved by the United States Food and Drug Administration (FDA) as a new diagnostic biomarker in mesothelioma. In a Phase I clinical study of an intrapleural interferon-β gene transfer using an adenoviral vector in patients with mesotheliomas, we found that antitumor immune responses targeting mesothelin were elicited in several patients (12). A recent study indicated that anti-mesothelin antibodies and circulating mesothelin relate to the clinical state in ovarian cancer patients (13). Pastan and colleagues (14) developed an immunotoxin (SS1P) with a Fv for mesothelin. Two Phase I clinical trials were completed at the National Cancer Institute (National Institutes of Health, Bethesda, MD) and there was sufficient antitumor activity of SS1P to justify a Phase II trial. A chimeric antibody containing the mouse SS1 Fv for mesothelin was also developed and is currently examined in a Phase I clinical trial for ovarian cancer, mesothelioma, pancreatic cancer, and non-small cell lung cancer (15).Mucins are heavily glycosylated proteins found in the mucus layer or at the cell surface of many epitheliums (16). There are two structurally distinct families of mucins, secreted and membrane-bound forms. CA125 (also known as MUC16) was first identified in 1981 by OC125, a mAb that had been developed from mice immunized with human ovarian cancer cells (17). The first cDNA clones were reported in 2001 (18, 19). CA125 is a very large membrane-bound cell surface mucin, with an average molecular mass between 2.5 and 5 million daltons. It is also heavily glycosylated with both O-linked and N-linked oligosaccharides (20). The peptide backbone of CA125 is composed of the N-terminal region, extensive Ser/Thr/Pro-rich tandem repeats (TR) with 156 amino acids each with both N- and O-glycosylations, a SEA domain with high levels of O-glycosylation and a C-terminal region with a short cytoplasmic tail (19). The SEA domain was first identified as a module commonly found in sea urchin sperm protein, enterokinase and agrin (21, 22). The significance of the SEA domain in CA125 is not clear.CA125 was originally used as a biomarker in ovarian cancer due to its high expression in ovarian carcinomas and that it is shed into the serum (23). A majority (88%) of mesotheliomas are also CA125 positive on the cell membrane (24). It was shown that 25% of peritoneal mesotheliomas have high CA125 expression (25). The intensity of CA125 membranous expression is indistinguishable between ovarian carcinomas and peritoneal mesotheliomas. Gene expression analysis using the SAGE tag data base has shown that mesothelioma has the second highest co-expression of CA125 and mesothelin after ovarian cancer (26). Rump and colleagues (26) have shown that mesothelin binds to CA125 and that this interaction may mediate cell adhesion. Scholler et al. (27) recently showed that CA125/mesothelin-dependent cell attachment could be blocked with anti-CA125 antibodies. Because mesothelin is present on peritoneal mesothelium, there may be an important role for the mesothelin-CA125 interaction in the tumorigenesis of ovarian cancer and mesothelioma in the peritoneal cavity. The mesothelin binding site on CA125 may lie within the 156-amino acid TR units, indicating multimeric binding of mesothelin to CA125. It has been found that the extraordinarily abundant N-glycans on CA125, presumably in the TR region, are required for binding to both glycosylated and non-glycosylated mesothelin (28).Here, we identified the binding site of CA125 on mesothelin by use of truncated mutagenesis and alanine replacement approaches. We measured binding qualitatively by Western blot overlay assays and quantitatively by enzyme-linked immunosorbent assay (ELISA). We also evaluated the interaction of CA125 and mesothelin on cancer cells by flow cytometry. Furthermore, we have shown that a single chain mAb (SS1) recognized the CA125-binding domain and blocked the mesothelin-CA125 interaction on cancer cells. The identified CA125-binding domain-Fc fusion protein also significantly inhibited cancer cell adhesion. Our results suggest that conformation-sensitive structures of the region (296–359) are required and sufficient for specific binding of mesothelin to CA125. The domain proteins or the antibodies that block the mesothelin-CA125 interaction merit evaluation as new therapeutic agents in treating peritoneal malignant tumors.     

基于核酶技术的人线粒体色氨酸tRNA的高效转录及其活性鉴定

利用T7RNA聚合酶(T7 RNA polymerase,T7 RNAP)的体外转录方法因其简便、高效而在RNA制备中得到广泛应用,但该法由于T7RNAP的启动子跨越转录起始位点而会导致转录产物多出附加序列;如果去掉T7启动子的转录起始位点,则会严重降低T7RNAP的转录活性。本实验很好地消除了以上弊端,将T7RNAP的高效转录系统与核酶高度专一的自剪切技术相结合,成功构建了一种不影响转录效率的体外转录方法,而且转录后核酶能够在设计的特定位点进行自剪切并释放出目的RNA,得到了活性达113.6pmol/μg的人线粒体色氨酸tRNA(HmtRNATrp(UCA))。该方法转录效率高、重复性好,适合RNA的大量精确制备。     

Design,synthesis and biological evaluation of novel dual inhibitors of acetylcholinesterase and β-secretase

To explore novel effective drugs for the treatment of Alzheimer’s disease (AD), a series of dual inhibitors of acetylcholineterase (AChE) and β-secretase (BACE-1) were designed based on the multi-target-directed ligands strategy. Among them, inhibitor 28 exhibited good dual potency in enzyme inhibitory potency assay (BACE-1: IC₅₀ = 0.567 μM; AChE: IC₅₀ = 1.83 μM), and also showed excellent inhibitory effects on Aβ production of APP transfected HEK293 cells (IC₅₀ = 98.7 nM) and mild protective effect against hydrogen peroxide (H₂O₂)-induced PC12 cell injury. Encouragingly, intracerebroventricular injection of 28 into amyloid precursor protein (APP) transgenic mice caused a 29% reduction of Aβ_1–40 production. Therefore, 28 was demonstrated as a good lead compound for the further study and more importantly, the strategy of AChE and BACE-1 dual inhibitors might be a promising direction for developing novel drugs for AD patients.     

Floral symmetry: pollinator-mediated stabilizing selection on flower size in bilateral species

Pollinator-mediated stabilizing selection (PMSS) has been proposed as the driver of the evolutionary shift from radial to bilateral symmetry of flowers. Studies have shown that variation in flower size is lower in bilateral than in radial species, but whether bilateral flowers experience more stabilizing selection pressures by employing fewer, more specialized pollinators than radial flowers remains unclear. To test the PMSS hypothesis, we investigate plant–pollinator interactions from a whole community in an alpine meadow in Hengduan Mountains, China, to examine: (i) variance in flower size and level of ecological generalization (pollinator diversity calculated using functional groups) in 14 bilateral and 13 radial species and (ii) the role pollinator diversity played in explaining the difference of variance in flower size between bilateral and radial species. Our data showed that bilateral species had less variance in flower size and were visited by fewer pollinator groups. Pollinator diversity accounted for up to 40 per cent of the difference in variance in flower size between bilateral and radial species. The mediator effect of pollinator diversity on the relationship between floral symmetry and variance in flower size in the community is consistent with the PMSS hypothesis.     

Effect of different plant growth regulators on micro-tuber induction and plant regeneration of Pinellia ternate (Thunb) Briet

An efficient micropropagation system for Pinellia ternate (Thunb) Briet, a traditional Chinese medicinal plant, has been developed. Petiole and lamina of P. ternate were used as explants and cultured on Murashige and Skoog (MS) medium containing different concentrations of different plant growth regulators. The results indicated that low concentration of 2,4-dicholorophenoxy acetic acid (2,4-D), indole-3-acetic acid (IAA) and α-naphthalene acetic acid (NAA) were suitable for micro-tuber induction, but callus induction rate increased with increasing concentrations of growth regulators. Tubers induction rates of petiole and leaf were (81.8 %–100 %) and (89.4 %–96.0 %) respectively, when 0.2 mg l⁻¹ 2, 4-dicholorophenoxy acetic acid, indole-3-acetic acid or α-naphthalene acetic acid were present in the medium. Tubers induction rates of petiole and leaf cultured on MS medium supplemented with 0.2–0.5 mg l⁻¹ 6-benzyl amino purine (6-BAP) were (94.1 %–100 %) and (96.0 %–100 %) respectively. When the concentration of 2,4-dicholorophenoxy acetic acid, α-naphthalene acetic acid and 6-benzyl amino purine was increased to 2.0 mg l⁻¹, callus induction rates of petiole and leaf were 100 % and 98.2 %, 91.0 % and 36.0 %, 62.3 % and 70.0 %, respectively. Different concentration of kinetin (KT) and zeatin (ZT) had no significant effect on micro-tuber induction of petiole. Most petioles showed polarity during the cultivation of explants, when supplemented with different concentrations of auxin or cytokinin in the MS medium.     

一种简单有效且适于土壤微生物多样性分析的DNA提取方法

参照Zhou[11]的方法进行了改进,获得了一种简单、有效的DNA提取方法.此方法操作简单、从大量样品改为小量样品的提取,利用高浓度的PEG沉淀,不作回收纯化,所提DNA片段较大,在23 kb以上,每克土的DNA提取量从3.74～15.28 μg,OD260/OD230比值在0.89～1.21范围内,用真菌和细菌核糖体特异性引物进行PCR扩增,均获得较好的结果,DGGE图谱显示丰富性较高,可用于细菌多样性和真菌多样性的分析.此方法能够从4种不同性质土壤中提取出DNA,但提取盐渍土壤和碱性土壤的效果更好一些,为土壤微生物群落结构的多样性分析奠定良好的基础.