核蛋白MARVELD1与核质转运受体蛋白Importin β1相互作用的鉴定

核蛋白MARVELD1（MARVEL domain containing 1）是一个在多种肿瘤中表达下调的肿瘤相关基因. 为寻找其相互作用分子,构建pGEX-4T-2/MARVELD1重组体并在大肠杆菌中成功表达GST-MARVELD1融合蛋白. 采用GST pull-down 结合LC-MS/MS（液相色谱-串联质谱）的方法对MARVELD1蛋白的相互作用分子进行筛选,发现了16个与MARVELD1相互结合的蛋白. 进一步的免疫共沉淀实验证实, MARVELD1与核质转运受体蛋白importin β1能够相互作用,说明MARVELD1可能参与了importin β1的部分生物学作用, 或是它通过与importin β1结合而进入细胞核. 研究结果为进一步分析MARVELD1和importin β1的生物学功能奠定了基础.     

DNA柔韧性与成环性质研究进展

DNA成环在生物体内是一个非常重要的生理现象理解DNA的柔韧性,成环性,及其机理非常重要。然而迄今为止,对于这个问题一直没有一个统一的认识：过去对此有几个不同的理论,比较成熟的是蠕虫（WLC）模型。它能够解释一些实验数据。但是最近有人对这一理论提出异议,认为其并不;位确,并通过实验说明该理论有一些观点失之偏颇,因此,有必要发展一套新的、更为完善的理论;此外还发现,一些实验结果与另外的两种新的模型相吻合。这就引起了学术界的争议和研究热潮。有关DNA成环的问题已经成为目前研究热点,近年来,应用各种新技术和新方法该领域研究不断取得新的进展。     

Optimization of hydrogen bonds for combined DNA/collagen complex

Many natural and biological systems including collagen and DNA polymers are formed by a process of molecular self-assembly. In this paper, we developed two novel structural models and built heterogeneous DNA/collagen complexes through a preferable arrangement of multiple hydrogen bonds (H-bonds) between DNA and collagen molecules. The simulation results based on three sets of criteria indicate that one of the models with five collagen molecules, which are positioned around each strand of DNA molecules emerged to form a suitable polymer complex with the maximum number of H-bonds. Our predictions quantitatively validated and agreed with the molecular structure reported by Mrevlishvili and Svintradze [2005. Int. J. Biol. Macromol. 36, 324-326].     

Discovery and Characterization of a Small Molecule Inhibitor of the PDZ Domain of Dishevelled

Dishevelled (Dvl) is an essential protein in the Wnt signaling pathways; it uses its PDZ domain to transduce the Wnt signals from the membrane receptor Frizzled to downstream components. Here, we report identifying a drug-like small molecule compound through structure-based ligand screening and NMR spectroscopy and show the compound to interact at low micromolar affinity with the PDZ domain of Dvl. In a Xenopus testing system, the compound could permeate the cell membrane and block the Wnt signaling pathways. In addition, the compound inhibited Wnt signaling and reduced the levels of apoptosis in the hyaloid vessels of eye. Moreover, this compound also suppressed the growth of prostate cancer PC-3 cells. These biological effects suggest that by blocking the PDZ domain of Dvl, the compound identified in our studies effectively inhibits the Wnt signaling and thus provides a useful tool for studies dissecting the Wnt signaling pathways.The Wnt signaling pathways are regulated by a family of secreted Wnt glycoproteins. The canonical Wnt pathway, which is highly conserved, is best understood. In this pathway, Wnt molecules interact with the seven-transmembrane Frizzled (Fz)² proteins (1) by binding to an N-terminal cysteine-rich-domain (2). The signal is then transduced into the cell through an internal sequence of Fz, C-terminal to the seventh transmembrane domain, which binds directly to the PDZ (postsynaptic density-95/discs large/zonula occludens-1) domain of the cytoplasmic protein Dishevelled (Dvl) (3). Dvl then transduces the Wnt signals to downstream components (4). Three Dvl homologs (Dvl-1, -2, and -3) have been identified in humans; all are expressed in both embryonic and adult tissues, including brain, heart, lung, kidney, skeletal muscle, and others (4). Up-regulation and overexpression of Dvl proteins have been reported in many cancers, including those of breast, colon, prostate, mesothelium, and lung (non-small cell) (5–8).The Dvl protein is made up of three conserved domains: an N-terminal DIX domain, a central PDZ domain, and a C-terminal DEP domain (9). The central PDZ domain is of particular interest because of its interaction with Fz and other Wnt pathway proteins (3, 10). The direct interaction between the PDZ domain and Fz peptides is relatively weak, and other factors may play a role to ensure the communication between the two molecules (3). For example, several studies suggest that the DEP domain of Dvl has a membrane-targeting function that may facilitate PDZ-Fz interaction (11–14). However, the weak PDZ-Fz interaction provides an opportunity to block Wnt signaling at the Dvl level by using a small molecule inhibitor. An earlier study in our laboratories used an NMR-assisted virtual ligand screening approach to identify a peptide mimic that can bind to the Dvl PDZ domain (15). We have now used an improved algorithm to conduct an additional structure-based virtual screen of the PDZ domain of Dvl and have discovered a group of drug-like compounds that bind to the PDZ domain with moderate to low micromolar affinity. One of these compounds effectively blocked Wnt signaling in vivo and reduced the growth rate of a prostate cancer cell line.     

Biochemical Characterization and Function of Complexes Formed by Hyaluronan and the Heavy Chains of Inter-��-inhibitor (HC��HA) Purified from Extracts of Human Amniotic Membrane

Clinically, amniotic membrane (AM) suppresses inflammation, scarring, and angiogenesis. AM contains abundant hyaluronan (HA) but its function in exerting these therapeutic actions remains unclear. Herein, AM was extracted sequentially with buffers A, B, and C, or separately by phosphate-buffered saline (PBS) alone. Agarose gel electrophoresis showed that high molecular weight (HMW) HA (an average of ∼3000 kDa) was predominantly extracted in isotonic Extract A (70.1 ± 6.0%) and PBS (37.7 ± 3.2%). Western blot analysis of these extracts with hyaluronidase digestion or NaOH treatment revealed that HMW HA was covalently linked with the heavy chains (HCs) of inter-α-inhibitor (IαI) via a NaOH-sensitive bond, likely transferred by the tumor necrosis factor-α stimulated gene-6 protein (TSG-6). This HC·HA complex (nHC·HA) could be purified from Extract PBS by two rounds of CsCl/guanidine HCl ultracentrifugation as well as in vitro reconstituted (rcHC·HA) by mixing HMW HA, serum IαI, and recombinant TSG-6. Consistent with previous reports, Extract PBS suppressed transforming growth factor-β1 promoter activation in corneal fibroblasts and induced mac ro phage apo pto sis. However, these effects were abolished by hyaluronidase digestion or heat treatment. More importantly, the effects were retained in the nHC·HA or rcHC·HA. These data collectively suggest that the HC·HA complex is the active component in AM responsible in part for clinically observed anti-inflammatory and anti-scarring actions.Hyaluronan (HA)⁴ is widely distributed in extracellular matrices, tissues, body fluids, and even in intracellular compartments (reviewed in Refs. 1 and 2). The molecular weight of HA ranges from 200 to 10,000 kDa depending on the source (3), but can also exist as smaller fragments and oligosaccharides under certain physiological or pathological conditions (1). Investigations over the last 15 years have suggested that low M_r HA can induce the gene expression of proinflammatory mediators and proangiogenesis, whereas high molecular weight (HMW) HA inhibits these processes (4–7).Several proteins have been shown to bind to HA (8) such as aggrecan (9), cartilage link protein (10), versican (11), CD44 (12, 13), inter-α-inhibitor (IαI) (14, 15), and tumor necrosis factor-α stimulated gene-6 protein (TSG-6) (16, 17). IαI consists of two heavy chains (HCs) (HC1 and HC2), both of which are linked through ester bonds to a chondroitin sulfate chain that is attached to the light chain, i.e. bikunin. Among all HA-binding proteins, only the HCs of IαI have been clearly demonstrated to be covalently coupled to HA (14, 18). However, TSG-6 has also been reported to form stable, possibly covalent, complexes with HA, either alone (19, 20) or when associated with HC (21).The formation of covalent bonds between HCs and HA is mediated by TSG-6 (22–24) where its expression is often induced by inflammatory mediators such as tumor necrosis factor-α and interleukin-1 (25, 26). TSG-6 is also expressed in inflammatory-like processes, such as ovulation (21, 27, 28) and cervical ripening (29). TSG-6 interacts with both HA (17) and IαI (21, 24, 30–33), and is essential for covalently transferring HCs on to HA (22–24). The TSG-6-mediated formation of the HC·HA complex has been demonstrated to play a crucial role in female fertility in mice. The HC·HA complex is an integral part of an expanded extracellular “cumulus” matrix around the oocyte, which plays a critical role in successful ovulation and fertilization in vivo (22, 34). HC·HA complexes have also been found at sites of inflammation (35–38) where its pro- or anti-inflammatory role remain arguable (39, 40).Immunostaining reveals abundant HA in the avascular stromal matrix of the AM (41, 42).⁵ In ophthalmology, cryopreserved AM has been widely used as a surgical graft for ocular surface reconstruction and exerts clinically observable actions to promote epithelial wound healing and to suppress inflammation, scarring, and angiogenesis (for reviews see Refs. 43–45). However, it is not clear whether HA in AM forms HC·HA complex, and if so whether such an HC·HA complex exerts any of the above therapeutic actions. To address these questions, we extracted AM with buffers of increasing salt concentration. Because HMW HA was found to form the HC·HA complex and was mainly extractable by isotonic solutions, we further purified it from the isotonic AM extract and reconstituted it in vitro from three defined components, i.e. HMW HA, serum IαI, and recombinant TSG-6. Our results showed that the HC·HA complex is an active component in AM responsible for the suppression of TGF-β1 promoter activity, linkable to the scarring process noted before by AM (46–48) and by the AM soluble extract (49), as well as for the promotion of macrophage death, linkable to the inflammatory process noted by AM (50) and the AM soluble extract (51).     

Ad-IL-24对SGC-7901胃癌细胞生长抑制的体外实验

旨在研究携带人IL-24基因的腺病毒表达载体(Ad-IL-24)对SGC-7901人胃癌细胞的生长抑制作用并分析其分子机制。以不同MOI(感染复数)的Ad空载体腺病毒感染SGC-7901人胃癌细胞,筛选出最佳感染剂量;Ad-IL-24以最佳感染剂量感染SGC-7901胃癌细胞,RT-PCR法和Western blotting法检测腺病毒介导的IL-24基因在SGC-7901胃癌细胞中的转录;MTT法检测Ad-IL-24对SGC-7901胃癌细胞的生长抑制作用,流式细胞仪检测其诱导SGC-7901人胃癌细胞凋亡和细胞周期改变的效应,Hoechst33258染色荧光显微镜检测其诱导胃癌细胞凋亡的核形态改变;RT-PCR半定量法进一步检测SGC-7901胃癌细胞中凋亡相关基因的转录。结果显示,100MOI为感染SGC-7901胃癌细胞的腺病毒最佳感染剂量;Ad-IL-24能成功介导IL-24基因在SGC-7901胃癌细胞中转录性表达;Ad-IL-24感染SGC-7901胃癌细胞后,能明显抑制胃癌细胞生长和诱导凋亡;Ad-IL-24能显著上调SGC-7901胃癌细胞中bax、caspase-3和p53的表达和下调bc...     

斜生栅藻中虾青素的积累过程及其光合活性变化

分析了斜生栅藻（Scenedesmus obliquus）在光温（30℃,180 μmol/m2·s）胁迫条件下积累虾青素的过程,观察了该过程中细胞形态及细胞光合生理的变化。胁迫条件下,细胞在48h内生成并积累了包括海胆酮、角黄素、金盏花黄素和金盏花红素在内的多种次生类胡萝卜素,并合成了虾青素及其酯。该过程中,细胞形态由两端尖细变得不规则、膨大,原来由4、8个细胞组成的定形群体变为游离的单个细胞或2个细胞组成的群体。藻细胞光合速率在24h内先下降后上升,而后又呈现下降趋势,从34.29 μmol O2/mg Chla/h迅速下降为5.21 μmol O2/mg Chla/h;呼吸速率在前24h内升高至60.37 μmol O2/mg Chla/h,而后缓慢下降到38.40 μmol O2/mg Chla/h;光合系统Ⅱ的活性随着胁迫时间的延续而逐步下降,较初始值降低了63.9％。结果表明,斜生栅藻细胞在高光照条件下可以合成虾青素,并通过调节光合速率、呼吸速率以及光合系统Ⅱ的效率来应对胁迫。     

Development and Application of a Real-time PCR Method for Pharmacokinetic and Biodistribution Studies of Recombinant Adenovirus

A replication-deficient recombinant adenovirus (Ad5-LFA-3/IgG₁) that encodes secreted LFA-3/IgG₁ was constructed for gene therapy treatment of psoriasis. The purpose of this study was to develop a real-time PCR method for pharmacokinetic and biodistribution studies of Ad5-LFA-3/IgG₁ within the circulation and organs. This method showed good specificity, sensitivity and reproducibility over a wide dynamic range of concentrations. Quantitative measurement of recombinant adenoviral DNA suggested that the level of Ad5-LFA-3/IgG₁ DNA in circulating blood peaked within 10 min following intravenous injection in rhesus macaques. Following this peak, the adenoviral DNA level dropped significantly to a very low level. Real-time PCR revealed that Ad5-LFA-3/IgG₁ DNA was enriched in the spleen, lung and liver after injection of the adenovirus into rats through the tail vein. The adenoviral DNA was barely detected in other tissues. These data provide important information for clinical trials of Ad5-LFA-3/IgG₁ and confirm the utility of the real-time PCR assay for monitoring gene therapy trials.     

Biochemical characteristics and function of a threonine dehydrogenase encoded by ste11 in Ebosin biosynthesis of Streptomyces sp. 139

Aims:  Ebosin, a novel exopolysaccharide (EPS) produced by Streptomyces sp. 139 has antagonistic activity for interleukin-1 receptor (IL-1R) in vitro and remarkable anti-rheumatic arthritis activity in vivo. Ebosin biosynthesis gene ( ste ) cluster has been identified in our laboratory. This paper reports our effort to characterize the function of ste11 gene.
Methods and Results:  After the ste11 gene was cloned and expressed in Escherichia coli BL21, the recombinant Ste11 was purified and found capable of catalyzing NAD⁺ and l -threonine to NADH and 2-amino-3-ketobutyrate, hence identified as a threonine dehydrogenase (TDH). To investigate its function in the biosynthesis of Ebosin, the ste11 gene was knocked out with a double crossover via homologous recombination. The monosaccharide composition of EPS produced by the mutant strain (EPS-m) was altered from that of Ebosin. The analysis of IL-1R antagonist activity for EPSs showed that the bioactivity of EPS-m was lower than Ebosin.
Conclusions:  ste11 gene encoding a TDH may function as a modifier gene of Ebosin during its biosynthesis.
Significance and Impact of the Study:  TDH encoded by ste11 is functional in Ebosin biosynthesis. It is the first characterized TDH in Streptomyces .     

Ced-9 inhibits Al-induced programmed cell death and promotes Al tolerance in tobacco

Our previous data showed that apoptotic suppressors inhibit aluminum (Al)-induced programmed cell death (PCD) and promote Al tolerance in yeast cells, however, very little is known about the underlying mechanisms, especially in plants. Here, we show that the Caenorhabditis elegans apoptotic suppressor Ced-9, a Bcl-2 homologue, inhibited both the Al-induced PCD and Al-induced activity of caspase-like vacuolar processing enzyme (VPE), a crucial executioner of PCD, in tobacco. Furthermore, we show that Ced-9 significantly alleviated Al inhibition of root elongation, decreased Al accumulation in the root tip and greatly inhibited Al-induced gene expression in early response to Al, leading to enhancing the tolerance of tobacco plants to Al toxicity. Our data suggest that Ced-9 promotes Al tolerance in plants via inhibition of Al-induced PCD, indicating that conserved negative regulators of PCD are involved in integrated regulation of cell survival and Al-induced PCD by an unidentified mechanism.