Increased intratumoral IL-22-producing CD4+ T cells and Th22 cells correlate with gastric cancer progression and predict poor patient survival

IL-22-producing CD4⁺ T cells (IL-22⁺CD4⁺ T cells) and Th22 cells (IL-22⁺IL-17^?IFN-γ^?CD4⁺ T cells) represent newly discovered T-cell subsets, but their nature, regulation, and clinical relevance in gastric cancer (GC) are presently unknown. In our study, the frequency of IL-22⁺CD4⁺ T cells in tumor tissues from 76 GC patients was significantly higher than that in tumor-draining lymph nodes, non-tumor, and peritumoral tissues. Most intratumoral IL-22⁺CD4⁺ T cells co-expressed IL-17 and IFN-γ and showed a memory phenotype. Locally enriched IL-22⁺CD4⁺ T cells positively correlated with increased CD14⁺ monocytes and IL-6 and IL-23 detection ex vivo, and in vitro IL-6 and IL-23 induced the polarization of IL-22⁺CD4⁺ T cells in a dose-dependent manner and the polarized IL-22⁺CD4⁺ T cells co-expressed of IL-17 and IFN-γ. Moreover, IL-22⁺CD4⁺ T-cell subsets (IL-22⁺IL-17⁺CD4⁺, IL-22⁺IL-17^?CD4⁺, IL-22⁺IFN-γ⁺CD4⁺, IL-22⁺IFN-γ^?CD4⁺, and IL-22⁺IL-17⁺IFN-γ⁺CD4⁺ T cells), and Th22 cells were also increased in tumors. Furthermore, higher intratumoral IL-22⁺CD4⁺ T-cell percentage and Th22-cell percentage were found in patients with tumor-node-metastasis stage advanced and predicted reduced overall survival. In conclusion, our data indicate that IL-22⁺CD4⁺ T cells and Th22 cells are likely important in establishing the tumor microenvironment for GC; increased intratumoral IL-22⁺CD4⁺ T cells and Th22 cells are associated with tumor progression and predict poorer patient survival, suggesting that tumor-infiltrating IL-22⁺CD4⁺ T cells and Th22 cells may be suitable therapeutic targets in patients with GC.     

Rational design to improve thermostability and specific activity of the truncated Fibrobacter succinogenes 1,3-1,4-β-d-glucanase

1,3-1,4-β-D-Glucanase has been widely used as a feed additive to help non-ruminant animals digest plant fibers, with potential in increasing nutrition turnover rate and reducing sanitary problems. Engineering of enzymes for better thermostability is of great importance because it not only can broaden their industrial applications, but also facilitate exploring the mechanism of enzyme stability from structural point of view. To obtain enzyme with higher thermostability and specific activity, structure-based rational design was carried out in this study. Eleven mutants of Fibrobacter succinogenes 1,3-1,4-β-D-glucanase were constructed in attempt to improve the enzyme properties. In particular, the crude proteins expressed in Pichia pastoris were examined firstly to ensure that the protein productions meet the need for industrial fermentation. The crude protein of V18Y mutant showed a 2 °C increment of Tm and W203Y showed ～30% increment of the specific activity. To further investigate the structure-function relationship, some mutants were expressed and purified from P. pastoris and Escherichia coli. Notably, the specific activity of purified W203Y which was expressed in E. coli was 63% higher than the wild-type protein. The double mutant V18Y/W203Y showed the same increments of Tm and specific activity as the single mutants did. When expressed and purified from E. coli, V18Y/W203Y showed similar pattern of thermostability increment and 75% higher specific activity. Furthermore, the apo-form and substrate complex structures of V18Y/W203Y were solved by X-ray crystallography. Analyzing protein structure of V18Y/W203Y helps elucidate how the mutations could enhance the protein stability and enzyme activity.     

Structure,composition and mechanical properties of the silk fibres of the egg case of the Joro spider, <Emphasis Type="Italic">Nephila clavata</Emphasis> (Araneae,Nephilidae)

The silk egg case and orb web of spiders are elaborate structures that are assembled from a number of components. We analysed the structure, the amino acid and fibre compositions, and the tensile properties of the silk fibres of the egg case of Nephila clavata. SEM shows that the outer and inner covers of the egg case consist of thick, medium and thin silk fibres. The silk fibres of the outer cover of the egg case are probably produced by the major and minor ampullate glands. The silk fibres of the inner cover of the egg case from cylindrical glands appears to be distinct from the silk fibres of the major ampullate glands based on their micro-morphology, mole percent amino acid composition and types, and tensile behaviour and properties. Collectively, our investigations show that N. clavata uses silk fibres from relatively few glands in varying combinations to achieve different physical and chemical properties (e.g., color, diameter, morphology and amino acid composition) and functional and mechanical properties in the different layers of the egg case.     

利用Red同源重组系统构建兔次黄嘌呤-鸟嘌呤磷酸核糖转移酶基因打靶载体

利用EL350基因工程菌进行同源重组,成功进行基因敲除已有报道,但利用该系统进行兔次黄嘌呤-鸟嘌呤磷酸核糖转移酶(Hypoxanthine guanine phosphoribosyl transferase,HPRT)基因突变和基因打靶方面的研究还没有报道。本实验首先在已经筛选到含有兔全长HPRT基因BAC克隆（LBNL1-304M19）的基础上,利用Red重组系统,通过Gap-Repair方式从此克隆上将一段47Kb无启动子的HPRT基因组片段（不含有第1个外显子）克隆到pBACLinkSp质粒上,产生pBACLinkSp-rHPRT质粒。然后基于pBACLinkSp-rHPRT质粒,设计不同的同源臂,从而删除了HPRT基因的不同编码区,成功构建了三个不同的HPRT基因打靶载体。同时对利用同源重组技术敲除不同大小的DNA片段的效率进行了研究。基于本实验所构建的三个不同的兔HPRT基因打靶载体,为探索兔成纤维细胞和胚胎干细胞基因打靶的适宜条件,及进一步获得兔HPRT基因敲除动物疾病模型奠定了基础。     

Granzyme K cleaves the nucleosome assembly protein SET to induce single-stranded DNA nicks of target cells

Although granzymes (Gzms) A- and B-induced cell death pathways have been defined, little is known about how other orphan Gzms function in CTL-mediated cytotoxicity. GzmK and A are tryptases among all the Gzms of humans and they are closely linked on the same chromosome. In this study, we showed that GzmK can be efficiently delivered into target cells with a cationic lipid protein transfection reagent Pro-Ject. We found human GzmK triggers rapid cell death independently of caspase activation. The features of death are characterized by rapid externalization of phosphatidylserine, nuclear morphological changes and single-stranded DNA nicks. GzmK hydrolyzes the nucleosome assembly protein SET in its recombinant and native forms or in intact cells. Cleavage of SET by GzmK abrogates its nucleosome assembly activity. After GzmK loading, SET and DNase NM23H1 rapidly translocate into the nucleus and SET is cleaved, where the nuclease activity of NM23H1 is activated to nick chromosomal DNA.     

Temperature dependence of the free energy landscape of the src-SH3 protein domain

The temperature dependence of the free energy landscape of the src-SH3 protein domain is investigated through fully atomic simulations in explicit solvent. Simulations are performed above and below the folding transition temperature, enabling an analysis of both protein folding and unfolding. The transition state for folding and unfolding, identified from the free energy surfaces, is found to be very similar, with structure in the central hydrophobic sheet and little structure throughout the rest of the protein. This is a result of a polarized folding (unfolding) mechanism involving early formation (late loss) of the central hydrophobic sheet at the transition state. Unfolding simulations map qualitatively well onto low-temperature free energy surfaces but appear, however, to miss important features observed in folding simulations. In particular, details of the folding mechanism involving the opening and closing of the hydrophobic core are not captured by unfolding simulations performed under strongly denaturing conditions. In addition, free energy surfaces at high temperatures do not display a desolvation barrier found at lower temperatures, involving the expulsion of water molecules from the hydrophobic core.