晚期糖基化终产物通过其受体促进内皮细胞分泌IL-8的研究

探讨晚期糖基化终产物(AGE)修饰蛋白对内皮细胞生成白介素8(IL-8)的作用,及晚期糖基化终产物受体(RAGE)在此病理过程中的作用.内皮细胞来自培养的人脐静脉内皮细胞(HUVEC).将内皮细胞与不同浓度的AGE修饰人血清白蛋白(AGE-HSA)在体外共同培养,或以可溶性晚期糖基化终产物受体(sRAGE)对AGE-HSA进行预处理后再与HUVEC共同培养.用蛋白质液相芯片法检测HUVEC培养上清中IL-8水平,并提取细胞RNA,进行RT-PCR反应,检测细胞中IL-8 mRNA的表达水平.结果表明,AGE-HSA以时间和剂量依赖的方式刺激HUVEC生成IL-8,未经修饰的HSA无此作用.AGE-HSA用sRAGE预处理后,刺激HUVEC生成IL-8的作用被抑制,并且此抑制作用呈剂量依赖的方式.AGE-HSA刺激HUVEC使IL-8 mRNA表达增高,未经修饰的HSA无此作用.sRAGE能够阻断AGE-HSA诱导HUVEC表达IL-8mRNA的作用.整个变化趋势与蛋白质水平一致.研究首次证实,AGE-HSA与细胞表面受体RAGE相互作用可刺激内皮细胞分泌IL-8,并上调IL-8 mRNA的表达.这为研究加速型血管病变的发病机制提供了新视角,也为治疗由AGE增多和潴留所引起的病理损害提供了新靶点.     

Non-enzymatic glycation of type I collagen diminishes collagen-proteoglycan binding and weakens cell adhesion

Non-enzymatic glycation of type I collagen occurs in aging and diabetes, and may affect collagen solubility, charge, polymerization, and intermolecular interactions. Proteoglycans(1) (PGs) bind type I collagen and are proposed to regulate fibril assembly, function, and cell-collagen interactions. Moreover, on the collagen fibril a keratan sulfate (KS) PG binding region overlaps with preferred collagen glycation sites. Thus, we examined the effect of collagen modified by simple glycation on PG-collagen interactions. By affinity coelectrophoresis (ACE), we found reduced affinities of heparin and KSPGs for glycated but not normal collagen, whereas the dermatan sulfate (DS)PGs decorin and biglycan bound similarly to both, and that the affinity of heparin for normal collagen decreased with increasing pH. Circular dichroism (CD) spectroscopy revealed normal and glycated collagens to assume triple helical conformations, but heparin addition caused precipitation and decreased triple helical content-effects that were more marked with glycated collagen. A spectrophotometric assay revealed slower polymerization of glycated collagen. However, ultrastructural analyses indicated that fibrils assembled from normal and glycated collagen exhibited normal periodicity, and had similar structures and comparable diameter distributions. B-cells expressing the cell surface heparan sulfate PG syndecan-1 adhered well to normal but not glycated collagen, and endothelial cell migration was delayed on glycated collagen. We speculate that glycation diminishes the electrostatic interactions between type I collagen and PGs, and may interfere with core protein-collagen associations for KSPGs but not DSPGs. Therefore in vivo, collagen glycation may weaken PG-collagen interactions, thereby disrupting matrix integrity and cell-collagen interactions, adhesion, and migration.     

胃癌发展相关阶段中E-cadherin基因启动子甲基化及蛋白表达的研究

为了研究E cadherin基因启动子甲基化在胃癌发生及发展阶段中的作用 ,我们采用甲基化特异性PCR和免疫组化的方法对异型增生 (2 3例 )、早期胃癌 (2 0例 )和进展期胃癌 (2 0例 )石蜡标本进行启动子甲基化状态及蛋白表达的分析。结果表明E cadherin基因启动子在异型增生、早期胃癌和进展期胃癌中均有甲基化 ,其阳性率分别为78 3% ,80 %和 90 % ,经χ2 检验各病例组与正常组 (30 % )比较均有差异 (P <0 0 5 ) ,但各病例组间没有差异 (P >0 0 5 ) ;进展期胃癌E cadherin蛋白表达全部阴性 ,早期胃癌 70 %阴性 ,异型增生中无蛋白阴性 ,在早期胃癌和进展期胃癌 34例蛋白表达阴性的标本中 31例有启动子甲基化 (91 2 % ) ,蛋白表达与启动子甲基化呈明显负相关 (P <0 0 1)。表明E cadherin启动子甲基化是胃癌发生的早期事件 ,也是胃癌发生、进展的重要事件     

Investigating variables and mechanisms that influence protein integrity in low water content amorphous carbohydrate matrices

Biopharmaceutical proteins are often formulated and freeze dried in agents that protect them from deleterious reactions that can compromise activity and authenticity. Although such approaches are widely used, a detailed understanding of the molecular mechanisms of protein stabilization in low water content amorphous glasses is lacking. Further, whilst deterioration chemistries are well described in dilute solution, relatively little is known about the extent and mechanisms by which protein integrity is compromised in the glassy state. Here we have investigated the relationship between protein modification and rate thereof, with variation of pH, carbohydrate excipient, temperature and the glass transition temperature using a model protein, lysozyme. Mass spectrometry analysis and peptide mapping confirm that protein modifications do occur in the glassy state in a time‐, temperature‐, and carbohydrate excipient‐dependent manner. There were clear trends between the buffer pH and the primary modification detected (glycation). Most importantly, there were differences in the apparent reactivities of the lysine residues in the glass compared with those previously determined in solution, and therefore, the well‐characterized solution reactivity of this reaction cannot be used to predict likely sites of modification in the glassy state. These findings have implications for (i) the selection and combinations of formulation components, particularly with regard to glycation in the glassy state, and (ii) the design of procedures and methodologies for the improvement of protein stability in the glassy state. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009     

自然曝气生物滤床去除二级污水处理厂尾水中酚类内分泌干扰物的应用

采用自然曝气生物滤床工艺对二级污水处理厂尾水进行深度处理。结果表明该工艺可在净化过程中创造良好的好氧环境,对尾水中悬浮颗粒物(SS)、化学需要氧量(COD)和氨氮(NH₄⁺)的去除效率分别可达76%、45%和77%。尾水中可检出不同程度的酚类内分泌干扰物,其中双酚A(BPA)、壬基酚(4-NP)、辛基酚(4-t-OP)、三氯生(TCS)和雌酮(E₁)的浓度在1～1639ng/L之间,未检出雌二醇(E₂)和炔雌醇(EE₂)。该工艺可显著削减上述有机微污染物的含量,去除效率分别可达49%、63%、78%、80%和46%。4-NP、4-t-OP和TCS的去除效率随水力负荷(HLR)减小而升高,E₁的去除效率不随HLR变化而变化,BPA的去除效率随HLR减小而下降,主要因为强疏水性有机物可在吸附竞争中降低疏水性较弱的有机物在系统中的吸附能力。     

Abundance matters: role of albumin in diabetes,a proteomics perspective

Introduction: Human serum albumin (HSA) is a multifaceted protein with vital physiological functions. It is the most abundant plasma protein with inherent capability to bind to diverse ligands, and thus susceptible to various post-translational modifications (PTMs) which alter its structure and functions. One such PTM is glycation, a non-enzymatic reaction between reducing sugar and protein leading to formation of heterogeneous advanced glycation end products (AGEs). Glycated albumin (GA) concentration increases significantly in diabetes and is implicated in development of secondary complications.

Areas covered: In this review, we discuss in depth, formation of GA and its consequences, approaches used for characterization and quantification of GA, milestones in GA proteomics, clinical relevance of GA as a biomarker, significance of maintaining abundant levels of albumin and future perspectives.

Expert commentary: Elevated GA levels are associated with development of insulin resistance as well as secondary complications, in healthy and diabetic individuals respectively. Mass spectrometry (MS) based approaches aid in precise characterization and quantification of GA including early and advanced glycated peptides, which can be useful in prediction of the disease status. Thus GA has evolved to be one of the best candidates in the pursuit of diagnostic markers for prediction of prediabetes and diabetic complications.     

Proteomic analysis of red blood cells and the potential for the clinic: what have we learned so far?

Introduction: Red blood cells (RBC) are the most abundant host cells in the human body. Mature erythrocytes are devoid of nuclei and organelles and have always been regarded as circulating ‘bags of hemoglobin’. The advent of proteomics has challenged this assumption, revealing unanticipated complexity and novel roles for RBCs not just in gas transport, but also in systemic metabolic homeostasis in health and disease.

Areas covered: In this review we will summarize the main advancements in the field of discovery mode and redox/quantitative proteomics with respect to RBC biology. We thus focus on translational/clinical applications, such as transfusion medicine, hematology (e.g. hemoglobinopathies) and personalized medicine. Synergy of omics technologies – especially proteomics and metabolomics – are highlighted as a hallmark of clinical metabolomics applications for the foreseeable future.

Expert commentary: The introduction of advanced proteomics technologies, especially quantitative and redox proteomics, and the integration of proteomics data with omics information gathered through orthogonal technologies (especially metabolomics) promise to revolutionize many biomedical areas, from hematology and transfusion medicine to personalized medicine and clinical biochemistry.