Oxidative stress induces autophagic cell death independent of apoptosis in transformed and cancer cells

Autophagy is a self-digestion process that degrades intracellular structures in response to stresses leading to cell survival. When autophagy is prolonged, this could lead to cell death. Generation of reactive oxygen species (ROS) through oxidative stress causes cell death. The role of autophagy in oxidative stress-induced cell death is unknown. In this study, we report that two ROS-generating agents, hydrogen peroxide (H(2)O(2)) and 2-methoxyestradiol (2-ME), induced autophagy in the transformed cell line HEK293 and the cancer cell lines U87 and HeLa. Blocking this autophagy response using inhibitor 3-methyladenine or small interfering RNAs against autophagy genes, beclin-1, atg-5 and atg-7 inhibited H(2)O(2) or 2-ME-induced cell death. H(2)O(2) and 2-ME also induced apoptosis but blocking apoptosis using the caspase inhibitor zVAD-fmk (benzyloxycarbonyl-Val-Ala-Asp fluoromethylketone) failed to inhibit autophagy and cell death suggesting that autophagy-induced cell death occurred independent of apoptosis. Blocking ROS production induced by H(2)O(2) or 2-ME through overexpression of manganese-superoxide dismutase or using ROS scavenger 4,5-dihydroxy-1,3-benzene disulfonic acid-disodium salt decreased autophagy and cell death. Blocking autophagy did not affect H(2)O(2)- or 2-ME-induced ROS generation, suggesting that ROS generation occurs upstream of autophagy. In contrast, H(2)O(2) or 2-ME failed to significantly increase autophagy in mouse astrocytes. Taken together, ROS induced autophagic cell death in transformed and cancer cells but failed to induce autophagic cell death in non-transformed cells.     

植物凝集素(PHA)对小鼠白细胞及血清乳酸脱氢酶同工酶的影响

本文就 PHA 在不同时间内对小鼠白细胞及血清 LDH,同工酶的影响进行了观察,结果表明,PHA 对小鼠白细胞及血清的 LDH 酶活性有一定的影响,24h,48h,72h 三个不同时间组均与对照组有显著性差异(P<0.01),其中以48h 组酶活性最强,同时淋巴细胞的酶活性明显高于粒细胞;血清同工酶谱也有明显的变化,LDH_(1-4)均低于正常(P<0.01),LDH_5明显增高(P<0.01),同时出现了 LDH_5(?)亚带.     

复方中药对大鼠力竭运动与恢复过程中端脑神经递质含量的影响

目的：探讨复方中药对运动大鼠中枢神经递质含量的影响,进一步认识中药提高运动能力和促进运动性疲劳恢复的作用机理。方法：选8周龄大鼠64只,随机分成服药组和对照组,服药组灌服中药煎剂8周。然后,每组再分成4个亚组分别于不同状态下断头处死,测其中枢递质含量。结果：服药组大鼠力竭运动时间极显著长于对照组（P〈0．01）;安静时,除谷氨酸（GLU）含量服药组极显著高于对照组（P〈0．01）外、其余各指标无组间显著性差异;定量负荷后,服药组5-羟色胺（5-HT）、5-羟吲哚乙酸（5-HIAA）、弘氨基丁酸（GABA）、多巴胺（DA）含量和5-HT／5-HIAA显著低于对照组,GLU、GLU／GABA和DA／5-HT明显高于对照组;力竭即刻,服药组5-HT、GABA含量和5-HT／5-mAA显著低于对照组（P〈0．05）,GLU含量、DA／5-HT和GLU／GABA显著高于对照组（P〈0．05）;恢复12h。服药组5-HT含量和5-HT／5-HIAA极显著低于对照组（P〈0．01）,GLU、DA、GABA含量和DA／5-HT明显高于对照组（P〈0．05）。结论：在大鼠运动至力竭性的过程中,复方中药制剂有明显抑制5-HT、5-HIAA、DA、GABA生成和促进GLU中枢递质合成的作用,其综合效应表现为兴奋性递质相对显著增多,使中枢神经兴奋性增强、明显延长大鼠运动时间和促进中枢疲劳的恢复。     

d-Ribose glycates β(2)-microglobulin to form aggregates with high cytotoxicity through a ROS-mediated pathway

β(2)-Microglobulin (β(2)M) modified with advanced glycation end products (AGEs) is a major component of the amyloid deposits in hemodialysis-associated amyloidosis (HAA). However, the effect of glycation on the misfolding and aggregation of β(2)M has not been studied so far. Here we examine the molecular mechanism of aggregate formation of HAA-related ribosylated β(2)M in vitro. We find that the glycating agent d-ribose interacts with human β(2)M to generate AGEs that form aggregates in a time-dependent manner. Ribosylated β(2)M molecules are highly oligomerized compared with unglycated β(2)M, and have granular morphology. Furthermore, such ribosylated β(2)M aggregates show significant cytotoxicity to both human SH-SY5Y neuroblastoma and human foreskin fibroblast FS2 cells and induce intracellular reactive oxygen species (ROS). Presence of the antioxidant N-acetylcysteine (1.0mM) attenuated intracellular ROS and prevented cell death induction in both SH-SY5Y and FS2 cells, indicating that the cytotoxicity of ribosylated β(2)M aggregates depends on a ROS-mediated pathway in both cell lines. In other words, d-ribose reacts with β(2)M and induces the ribosylated protein to form granular aggregates with high cytotoxicity through a ROS-mediated pathway. These findings suggest that ribosylated β(2)M aggregates could contribute to the dysfunction and death of cells and could play an important role in the pathogenesis of β(2)M-associated diseases such as HAA.     

Proteomics analysis reveals diabetic kidney as a ketogenic organ in type 2 diabetes

Diabetic nephropathy (DN) is the leading cause of end-stage renal disease. To date, the molecular mechanisms of DN remain largely unclear. The present study aimed to identify and characterize novel proteins involved in the development of DN by a proteomic approach. Proteomic analysis revealed that 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA) synthase 2 (HMGCS2), the key enzyme in ketogenesis, was increased fourfold in the kidneys of type 2 diabetic db/db mice. Consistently, the activity of HMGCS2 in kidneys and 24-h urinary excretion of the ketone body β-hydroxybutyrate (β-HB) were significantly increased in db/db mice. Immunohistochemistry, immunofluorescence, and real-time PCR studies further demonstrated that HMGCS2 was highly expressed in renal glomeruli of db/db mice, with weak expression in the kidneys of control mice. Because filtered ketone bodies are mainly reabsorbed in the proximal tubules, we used RPTC cells, a rat proximal tubule cell line, to examine the effect of the increased level of ketone bodies. Treating cultured RPTC cells with 1 mM β-HB significantly induced transforming growth factor-β1 expression, with a marked increase in collagen I expression. β-HB treatment also resulted in a marked increase in vimentin protein expression and a significant reduction in E-cadherin protein levels, suggesting an enhanced epithelial-to-mesenchymal transition in RPTCs. Collectively, these findings demonstrate that diabetic kidneys exhibit excess ketogenic activity resulting from increased HMGCS2 expression. Enhanced ketone body production in the diabetic kidney may represent a novel mechanism involved in the pathogenesis of DN.     

SYBR Green I荧光RT-PCR检测犬瘟热方法的建立和应用

根据GenBank发表的犬瘟热病毒（CDV）的F基因序列,经过分析在F片段的保守区域内设计引物,建立了SYBR Green I荧光RT-PCR检测CDV的方法,并通过对厦门市宠物医院收集的临床发病和疑似发病的犬病料（包括眼分泌物、鼻拭子、唾液、血液、尿液等）的检测,结果表明,本研究建立的快速检测CDV的SYBR Green I荧光RT-PCR方法具有特异性强、灵敏度高、操作简便等优点,值得推广应用。     

2008年中国植物科学若干领域重要研究进展

在国家各类重大研究计划的持续支持和推动下, 2008年中国植物科学研究继续快速发展, 中国科学家在植物科学各领域中取得了大量的原创性研究成果, 尤其是在水稻株型功能基因组、水稻开花控制和种子发育、生殖隔离机制以及转基因生态安全研究等方面取得了一系列重大进展, 受到了国内外的广泛关注。该文对2008年中国本土科学家在植物生命科学若干领域取得的重要研究进展进行概括性评述, 旨在全面追踪当前中国植物科学领域发展的最新前沿和热点事件, 并展现我国科学家所取得的杰出成就。     

固定对免疫组织化学反应的影响

为在组织固定过程中最大程度地减少固定剂对抗原性和组织结构的破坏,使免疫组织化学反应清晰可靠,我们观察研究了１０％中性缓冲福尔马林（ＮＢＦ）、酒精－甲醛（ＡＦ）、甲醛钙（Ｆｃａ）、Ｃａｒｎｏｙ氏液、Ｂｏｕｉｎ氏液、Ｋａｒｎｏｖｓｋｙ氏液和Ｈｅｌｙ氏液,分别对ＡＢＣ法显示基底膜Ⅳ型胶原,ＳＰ法显示血管内皮第Ⅷ因子和小肠固有层浆细胞的影响。结果表明用同一免疫组织化学方法显示不同固定剂固定的同一抗原物质可出现明显差异。本文还简要阐述了有关固定剂的作用机理与免疫组织化学染色的相关性。为观察研究组织和细胞的某种或某些抗原物质,而准确选择适当固定剂提供了一定依据     

Trans‐repression of NFκB pathway mediated by PPARγ improves vascular endothelium insulin resistance

Previous study has shown that thiazolidinediones (TZDs) improved endothelium insulin resistance (IR) induced by high glucose concentration (HG)/hyperglycaemia through a PPARγ‐dependent‐NFκB trans‐repression mechanism. However, it is unclear, whether changes in PPARγ expression affect the endothelium IR and what the underlying mechanism is. In the present study, we aimed to address this issue. HG‐treated human umbilical vascular endothelial cells (HUVEC) were transfected by either PPARγ‐overexpressing (Ad‐PPARγ) or PPARγ‐shRNA‐containing (Ad‐PPARγ‐shRNA) adenoviral vectors. Likewise, the rats fed by high‐fat diet (HFD) were infected by intravenous administration of Ad‐PPARγ or Ad‐PPARγ‐shRNA. The levels of nitric oxide (NO), endothelin‐1 (ET‐1) and cytokines (TNFα, IL‐6, sICAM‐1 and sVCAM‐1) and the expression levels of PPARγ, eNOS, AKT, p‐AKT, IKKα/β and p‐IKKα/β and IκBα were examined; and the interaction between PPARγ and NFκB‐P65 as well as vascular function were evaluated. Our present results showed that overexpression of PPARγ notably increased the levels of NO, eNOS, p‐AKT and IκBα as well as the interaction of PPARγ and NFκB‐P65, and decreased the levels of ET‐1, p‐IKKα/β, TNFα, IL‐6, sICAM‐1 and sVCAM‐1. In contrast, down‐expression of PPARγ displayed the opposite effects. The results demonstrate that the overexpression of PPARγ improves while the down‐expression worsens the endothelium IR via a PPARγ‐mediated NFκB trans‐repression dependent manner. The findings suggest PPARγ is a potential therapeutic target for diabetic vascular complications.     

裂解系统在细菌载体疫苗中的应用

重组细菌载体疫苗因其能够诱导机体产生粘膜免疫、体液免疫和细胞免疫的特点,已经被广泛用作递送保护性抗原和核酸疫苗的载体来预防某些传染病。但是重组到细菌载体疫苗中的保护性抗原和核酸难以穿越细菌细胞壁释放到宿主细胞内发挥作用,残留在动物或畜禽产品中的疫苗菌株还可能造成环境的污染和疫苗菌株的传播。而有效解决这些问题的方法是构建一种细菌自动裂解系统,使疫苗菌株能够在体外培养时正常生长而在体内环境中自动裂解死亡。目前主要应用的细菌裂解系统包括:基于调控延迟肽聚糖合成的裂解系统、基于噬菌体裂解蛋白调控的裂解系统、基于毒素-抗毒素系统(Toxin-antitoxin system)的裂解系统。此外,一种潜在的基于细菌Ⅵ型分泌系统(Type Ⅵ secretion system,T6SS)的裂解系统也有望成为构建自动裂解菌株的新方法。文中将着重对这几种裂解系统的调控机制进行阐述。