一种新型T细胞免疫原的原核表达及对口蹄疫疫苗的免疫增强作用

主要探讨了T细胞免疫原TI对口蹄疫疫苗的免疫增强作用。设计并原核表达产生了一种包含口蹄疫病毒VP1,VP4,3A和3D蛋白上多个T细胞表位与两个通用T细胞表位的T细胞免疫原,命名为TI;同时表达了O和Asia 1两个型口蹄疫病毒 VP1 蛋白的串联编码基因,表达产物命名为OA-VP1。将上述T细胞免疫原分别与OA-VP1和口蹄疫灭活疫苗按不同剂量组合免疫小鼠,于免疫后不同时间测定各组小鼠的体液与细胞免疫应答情况。采用微量中和试验检测小鼠O型和Asia1型中和抗体,采用流式细胞检测技术和测定γ-干扰素的水平来分析不同免疫组小鼠细胞免疫的水平。结果显示,与灭活疫苗或OA-VP1单独免疫组相比,添加TI抗原后灭活疫苗 (P＜0.01) 和OA-VP1免疫组(P＜0.05)小鼠均能产生高水平的特异性中和抗体;且CD4+ T细胞数量显著增多,IFN-γ产生水平显著升高 (P＜0.01)。说明TI抗原具有很好的诱导特异性体液与细胞免疫应答的作用,是一种很好的免疫增效剂,可作为口蹄疫蛋白亚单位疫苗和灭活疫苗中的一种有效成分,以提高疫苗的免疫效果。     

EFFECTS OF INCREASED TEMPERATURE AND CO2 ON PHOTOSYNTHESIS,GROWTH, AND ELEMENTAL RATIOS IN MARINE SYNECHOCOCCUS AND PROCHLOROCOCCUS (CYANOBACTERIA)1

Little is known about the combined impacts of future CO₂ and temperature increases on the growth and physiology of marine picocyanobacteria. We incubated Synechococcus and Prochlorococcus under present‐day (380 ppm) or predicted year‐2100 CO₂ levels (750 ppm), and under normal versus elevated temperatures (+4°C) in semicontinuous cultures. Increased temperature stimulated the cell division rates of Synechococcus but not Prochlorococcus. Doubled CO₂ combined with elevated temperature increased maximum chl a–normalized photosynthetic rates of Synechococcus four times relative to controls. Temperature also altered other photosynthetic parameters (α, Φ_max, E_k, and ) in Synechococcus, but these changes were not observed for Prochlorococcus. Both increased CO₂ and temperature raised the phycobilin and chl a content of Synechococcus, while only elevated temperature increased divinyl chl a in Prochlorococcus. Cellular carbon (C) and nitrogen (N) quotas, but not phosphorus (P) quotas, increased with elevated CO₂ in Synechococcus, leading to ～20% higher C:P and N:P ratios. In contrast, Prochlorococcus elemental composition remained unaffected by CO₂, but cell volume and elemental quotas doubled with increasing temperature while maintaining constant stoichiometry. Synechococcus showed a much greater response to CO₂ and temperature increases for most parameters measured, compared with Prochlorococcus. Our results suggest that global change could influence the dominance of Synechococcus and Prochlorococcus ecotypes, with likely effects on oligotrophic food‐web structure. However, individual picocyanobacteria strains may respond quite differently to future CO₂ and temperature increases, and caution is needed when generalizing their responses to global change in the ocean.     

Identification of bis-ANS binding sites in Mycobacterium tuberculosis small heat shock protein Hsp16.3: evidences for a two-step substrate-binding mechanism

Small heat shock proteins (sHSPs), as one important subclass of molecular chaperones, are able to specifically bind to denatured substrate proteins rather than to native proteins, of which their substrate-binding sites are far from clear. Our previous study showed an overlapping nature of the sites for both hydrophobic probe 1,1'-Bi(4-anilino)naphthalene-5,5'-disulfonic acid (bis-ANS) binding and substrate binding in Mycobacterium tuberculosis Hsp16.3 [X. Fu, H. Zhang, X. Zhang, Y. Cao, W. Jiao, C. Liu, Y. Song, A. Abulimiti, Z. Chang, A dual role for the N-terminal region of M. tuberculosis Hsp16.3 in self-oligomerization and binding denaturing substrate proteins, J. Biol. Chem. 280 (2005) 6337-6348]. In this work, two bis-ANS binding sites in Hsp16.3 were identified by a combined use of reverse phase HPLC, mass spectroscopy and N-terminal protein sequencing. One site is in the N-terminal region and the other one in the N-terminus of alpha-crystallin domain, both of which are similar to those identified so far in sHSPs. However, accumulating data suggest that these two sites differentially function in binding substrate proteins. With regard to this difference, we proposed a two-step mechanism by which Hsp16.3 binds substrate proteins, i.e., substrate proteins are recognized and initially captured by the N-terminal region that is exposed in the dissociated Hsp16.3 oligomers, and then the captured substrate proteins are further stabilized in the complex by the subsequent binding of the N-terminus of alpha-crystallin domain.     

巴东过路黄中三萜皂苷及其体外抗肿瘤活性研究

从巴东过路黄(Lysimachia patungensis)95%乙醇提取物的正丁醇萃取部位中,分离到2个齐墩果烷型三萜皂苷,经光谱鉴定,分别为ardicrenin(1)和ardisiacrispinA(2)。体外抗肿瘤实验显示ardicrenin(1)对人脑胶质瘤(SWO-38)、口腔上皮癌(KB)、人乳腺癌(MCF-7)和人宫颈癌(Hela)细胞的半数毒性浓度(TC50)分别为3.16、3.16、2.97、2.42μmol/L,ArdisiacrispinA(2)对上述细胞的TC50分别为3.96、3.01、1.98、2.73μmol/L。     

Suppression of NF-κB and NF-κB-Regulated Gene Expression by Apigenin through IκBα and IKK Pathway in TRAMP Mice

Aberrant Nuclear Factor-κappaB (NF-κB) activation due to rapid IκBα turnover and high basal IκBα kinase (IKK) activity has been frequently observed in prostate cancer. Apigenin, a naturally occurring plant flavone, exhibits anti-proliferative, anti-inflammatory and anti-carcinogenic activities by inhibiting NF-κB pathway, through a mechanism not fully understood. We found that apigenin feeding in microgram doses (bioavailable in humans) inhibited prostate tumorigenesis in TRAMP mice by interfering with NF-κB signaling. Apigenin feeding to TRAMP mice (20 and 50 μg/mouse/day, 6 days/week for 20 weeks) exhibited significant decrease in tumor volumes of the prostate and completely abolished metastasis, which correlated with inhibition of NF-κB activation and binding to the DNA. Apigenin intake blocked phosphorylation and degradation of IκBα by inhibiting IKK activation, which in turn led to suppression of NF-κB activation. The expression of NF-κB-regulated gene products involved in proliferation (cyclin D1, and COX-2), anti-apoptosis (Bcl-2 and Bcl-xL), and angiogenesis (vascular endothelial growth factor) were also downregulated after apigenin feeding. These events correlated with the induction of apoptosis in tumor cells, as evident by increased cleaved caspase-3 labeling index in the dorsolateral prostate. Our results provide convincing evidence that apigenin inhibits IKK activation and restores the expression of IκBα, preventing it’s phosphorylation in a fashion similar to that elicited by IKK and proteasomal inhibitors through suppression of NF-κB signaling pathway.     

Apple Fruit Diameter and Length Estimation by Using the Thermal and Sunshine Hours Approach and Its Application to the Digital Orchard Management Information System

In apple cultivation, simulation models may be used to monitor fruit size during the growth and development process to predict production levels and to optimize fruit quality. Here, Fuji apples cultivated in spindle-type systems were used as the model crop. Apple size was measured during the growing period at an interval of about 20 days after full bloom, with three weather stations being used to collect orchard temperature and solar radiation data at different sites. Furthermore, a 2-year dataset (2011 and 2012) of apple fruit size measurements were integrated according to the weather station deployment sites, in addition to the top two most important environment factors, thermal and sunshine hours, into the model. The apple fruit diameter and length were simulated using physiological development time (PDT), an indicator that combines important environment factors, such as temperature and photoperiod, as the driving variable. Compared to the model of calendar-based development time (CDT), an indicator counting the days that elapse after full bloom, we confirmed that the PDT model improved the estimation accuracy to within 0.2 cm for fruit diameter and 0.1 cm for fruit length in independent years using a similar data collection method in 2013. The PDT model was implemented to realize a web-based management information system for a digital orchard, and the digital system had been applied in Shandong Province, China since 2013. This system may be used to compute the dynamic curve of apple fruit size based on data obtained from a nearby weather station. This system may provide an important decision support for farmers using the website and short message service to optimize crop production and, hence, economic benefit.     

甘蓝型油菜小孢子胚状体发生的细胞学观察

应用甘蓝型油菜ＤＨ系保６０４为材料研究小孢子胚发生过程,结果表明,在小孢子离体培养１～５ｄ内,随培养天数增加,小孢子的存活率迅速下降,部分小孢子培养后出现细胞膨大和分裂,并沿２－细胞。“ｆ”形３细胞,多细胞原体,胚柄球形胚,心形胚最终发育成鱼雷形胚,一般在心形胚阶段,胚柄脱离胚主体部分游离到培养基中,大多数膨大的细胞不能分裂或分裂后停止发育或发育异常。     

Enzymatic synthesis of 5-bromo-2’-deoxyuridine-2-14C and of 5-iodo-2’-deoxyuridine-2-14C and their incorporation into deoxyribonucleic acid (Allium cepa)

5-Bromo-2’-deoxyuridine-2-¹⁴C was prepared from 5-bromouracil-2-¹⁴C and 2’-de-oxyguanosine using trans-N-deoxyribosylase fromLactobacillus helveticus and incorporated into DNA ofAllium cepa roots. After isolating the DNA and hydrolyzing it enzymatically to deoxynucleoside-5’-phosphates a radioactive nucleotide was detected which yielded 5-bromo-2’-deoxyuridine-2-¹⁴C on enzymatic dephosphorylation. The incorporation of 5-iodo-2’-deoxy-uridine-2-¹⁴C was followed only by microautoradiography.     

Lipopolysaccharide and interferon-gamma-induced nitric oxide production and protein oxidation in mouse peritoneal macrophages are affected by glutathione peroxidase-1 gene knockout

This study investigated the role of glutathione peroxidase-1 (GPX1) in protein oxidation in peritoneal macrophages. Macrophages isolated from both wild-type (WT) and GPX1 knockout (KO) mice were activated by lipopolysaccharide (LPS, 1 microg/ml) and interferon-gamma (IFN, 10 U/ml for 24 or 48 h in the presence or absence of 1 microM diquat (DQ), 250 microM aminoguanidine (AG, an inhibitor of inducible nitric oxide synthase), and (or) 100 microM diethyldithiocarbamate (DETC, an inhibitor of Cu,Zn-SOD). In the KO macrophages, there was no protein band detected by Western blot with anti-GPX1 antibody and 98% reduction in total GPX activity compared with WT cells. Nitric oxide (NO) synthesis was greatly enhanced after 24 h by GPX1 knockout and DQ, but inhibited by AG or DETC. Protein carbonyl formation in total cell extract was clearly associated with NO synthesis as higher levels of protein carbonyl were detected in activated KO than WT macrophages, and DQ enhanced slightly while AG or DETC virtually blocked its formation. A similarly marginal effect of GPX1 KO was observed on protein nitration. The LPS/IFN/DQ-induced DNA fragmentation was blocked by AG, but not by DETC. Cell viability at 48 h was decreased by the LPS/IFN activation and further reduced by the addition of DQ, but restored by AG. In conclusion, GPX1 affects the NO production in activated peritoneal macrophages and protects these cells against NO-associated protein oxidation.