连续性血液净化与血液透析对尿毒症脑病疗效的比较研究

目的:比较连续性血液净化(continuous blood purification,CBP)和血液透析(haemodialysis,HD)治疗尿毒症脑病的疗效.方法:70例尿毒症脑病(uremic encephalopathy,UE)患者随机分成连续性血液净化(CBP)组(n=35)和血液透析(HD)组(n=35),分别给予相应治疗.观察缓解率、平均动脉压、肾功能、电解质及血气指标等.结果:1周缓解率分别为100%(CBP组)和65.7%(HD组)(P＜0.05);两组的BUN,Scr,K+,Na+,Cl-和β2-MG均显著降低(P＜0.05),但治疗后CBP组的BUN,Scr和β2-MG显著低于HD组(P＜0.05);CBP组的HC03-和pH较治疗前显著降低(P＜0.05),而HD组中HC03-和pH治疗前后无显著改变(P＞0.05).CBP组治疗前后平均动脉压变化无统计学差异(P＞0.05),HD组低血压发生率为13.7%,高血压发生率为15.4%.结论:CBP治疗能很好清除BUN、Scr和β2-MG,纠正电解质及酸碱紊乱,维持患者血液动力学,具有较好的临床疗效.     

内质网应激预处理条件下大鼠肝脏缺血再灌注损伤模型的建立

目的:通过建立了内质网应激预处理条件下的大鼠肝脏缺血再灌注损伤模型,探讨内质网应激预处理在体内的应用.方法:以衣霉素为内质网应激诱导剂,采用大鼠肝脏70%缺血再灌注损伤模型.按照不同给药剂量分为50μ g/kg组、100μ g,kg组、200μ g/kg组、对照组,观察不同给药剂量条件下,血清转氨酶水平的变化.结果:给药100μ g/kg体重、诱导5天条件下大鼠术后转氨酶水平显著低于对照组.其它组与对照组无统计学差异.肝组织病理切片证实该预处理条件对肝脏缺血再灌注损伤有显著保护作用.结论:在特定的给药剂量条件下,衣霉素诱导的内质网应激预处理对大鼠肝脏缺血再灌注损伤有显著的保护作用.     

Expression of rice gall dwarf virus outer coat protein gene (<Emphasis Type="Italic">S8</Emphasis>) in insect cells

To obtain the P8 protein of Rice gall dwarf virus (RGDV) with biological activity, its outer coat protein gene S8 was expressed in Spodoptera frugiperda (Sf9) insect cells using the baculovirus expression system. The S8 gene was subcloned into the pFastBac™1 vector, to produce the recombinant baculovirus transfer vector pFB-S8. After transformation, pFB-S8 was introduced into the competent cells (E. coli DH10Bac) containing a shuttle vector, Bacmid, generating the recombinant bacmid rbpFB-S8. After being infected by recombinant baculovirus rvpFB-S8 at different multiplicities of infection, Sf9 cells were collected at different times and analyzed by SDS-PAGE, Western blotting and immunofluorescence microscopy. The expression level of the P8 protein was highest between 48–72 h after transfection of Sf9 cells. Immunofluorescence microscopy showed that P8 protein of RGDV formed punctate structures in the cytoplasm of Sf9 cells.     

Understanding of stem cells in bone biology and translation into clinical applications

Developments of stem cell biology provide new approaches for understanding the mechanisms of a number of diseases, including osteoporosis. In this minireview, we highlight two areas that related to stem cells in bone biology. Recent discovery of the role of osteoclast and their stem cells leads to developing a new approach for treatment of osteoporosis with the initial stimulation of cells in osteoclast lineage and followed by sequentially enhanced bone formation. Stimulation on both sides in bone remodeling is expected to achieve a long term effect on bone formation. For bone regeneration, multiple disciplinary collaborations among bone biologists, stem cell biologists and biomaterial scientists are necessary to successfully develop an integrated stem cell therapy that should include stem cells, suitable scaffolds and bioactive factors/small molecular compounds.     

Spatially complex neighboring relationships among grassland plant species as an effective mechanism of defense against herbivory

Close spatial relationships between plant species are often important for defense against herbivory. The associational plant defense may have important implications for plant community structure, species diversity, and species coexistence. An increasing number of studies have focused on associational plant defense against herbivory at the scale of the individual plant and its nearest neighbors. However, the average neighborhood effects between plant species at the scale of whole plant communities have received almost no attention. The aims of this study were to determine patterns of spatial relationship between different plant species that can provide effective defense against herbivory. We conducted a manipulative experiment using sheep and three native plant species with different palatability. Consumption of palatable plants by herbivores was largest when the three plant species were isolated in three patches and independent of each other. A homogenous and spatially equal neighbor relationship between the three species did not reduce the risk of herbivory of palatable species compared to isolation of these species, but it reduced the total intake of all plant species. The palatable species was subject to less herbivory in a complex spatial neighborhood of several plant species. High complexity of spatial neighborhood resulted in herbivores passively reducing selectivity, thereby reducing the probability of damage to palatable species in the community, or making inaccurate judgments in foraging selectivity between and within patches, thereby reducing the vulnerability of palatable plants and even the whole plant community. We conclude that compelling herbivores to passively reduce the magnitude of foraging selectivity by establishing spatially complex neighborhoods between plant species is a compromise and optimal spatial strategy by plants to defend themselves again herbivory. This may contribute not only to maintenance of plant species diversity but also to a stable coexistence between herbivores and plants in grassland ecosystems.     

Two storage hexamerins from the beet armyworm <Emphasis Type="Italic">Spodoptera exigua</Emphasis>: Cloning,characterization and the effect of gene silencing on survival

Background  

In insects, hemocyanin superfamily proteins accumulate apparently to serve as sources of amino acids during metamorphosis, reproduction and development. Storage hexamerins are important members of the hemocyanin superfamily. Although insects possess storage hexamerins, very little is known about the character and specific functions of hexamerin 1 and storage protein 1 in insect development.     

Nanofibers and nanoparticles from the insect-capturing adhesive of the Sundew (<Emphasis Type="Italic">Drosera</Emphasis>) for cell attachment

Background  

The search for naturally occurring nanocomposites with diverse properties for tissue engineering has been a major interest for biomaterial research. In this study, we investigated a nanofiber and nanoparticle based nanocomposite secreted from an insect-capturing plant, the Sundew, for cell attachment. The adhesive nanocomposite has demonstrated high biocompatibility and is ready to be used with minimal preparation.