蛋白激酶B/Akt抑制剂

磷脂酰肌醇-3-激酶(phosphatidylinositol 3-kinase,PI3K)/蛋白激酶B(protein kinase B,PKB/Akt)信号通路在细胞生长与存活中起着关键作用,PI3K/Akt通路的过度激活在多种肿瘤中常见。Akt激酶本身以及Akt激酶上游调节分子,例如PTEN和PI3K,在超过50%的人类肿瘤中均有异常变化。因此Akt成为肿瘤预防和肿瘤靶向治疗的热点之一。许多小分子化合物通过不同机制抑制Akt活性,根据小分子抑制剂与激酶的结合部位和化学结构不同,主要分为ATP竞争性抑制剂、Akt变构抑制剂和磷脂酰肌醇类似物抑制剂。本文综述了PI3K/Akt通路与肿瘤的关系和Akt抑制剂的研究现状,为新型抗癌药物的设计研究提供参考。     

MICA/B分子研究进展

MICA/B基因具有高度多态性,所编码的蛋白是NKG2D的主要配体,MICA/B蛋白结合NKG2D后介导NK和T细胞等的活化及细胞杀伤效应.应激条件下,MICA/B蛋白高表达于细胞表面,并以游离的sMICA/B蛋白分子形式进入细胞外液.越来越多的研究证实MICA/B分子与肿瘤、感染、移植排斥、自身免疫病等多种炎性疾病相关,因此对其表达调控的研究是当前的热点.主要从MICA/B分子与疾病相关性、表达调控及其临床应用等方面近年来的研究进展进行综述.     

免疫磁珠技术分离唾液A/B血型抗原并用于吸附血清A/B抗体

目的:应用免疫磁珠分离技术获得具有良好抗原性的A/B血型抗原,并探究其作为ABO血型抗体吸附剂去除A/B抗体的可行性。方法:将含有血型物质的唾液进行预处理,再与包被了抗体的磁珠混合,分离出纯度较高的A/B抗原,运用酶联免疫及凝集抑制试验验证所得抗原的抗原性及是否存在交叉反应。用未纯化A/B抗原和纯化A/B抗原包被磁珠,对含有抗A/B IgM、IgG的血清进行抗体吸附,用纯化A/B抗原对100份来自O型血孕妇的临床血清样本进行抗体吸附,分别评价其吸附效果。结果:纯化抗原与对应抗体反应后,其吸光度显著高于对照组(A抗原与A抗体0.85±0.12 vs.0.27±0.03,P0.01;B抗原与B抗体0.86±0.09 vs.0.24±0.06,P0.01),与其它类型抗体反应后的吸光度值与对照组比较差异无统计学意义(P0.05)。进行红细胞凝集抑制试验时,纯化抗原可显著抑制相应抗体与红细胞的凝集反应,对其它类型抗体与红细胞的凝集没有抑制作用。血清抗体吸附实验表明纯化抗原的吸附效率比未纯化抗原的高(97.00%vs.88.00%,P0.001)。临床样本抗体吸附实验显示,纯化A抗原对抗A IgM/IgG的吸附效率分别为96.88%、98.44%;纯化B抗原对抗B IgM/IgG的吸附效率分别为96.88%、98.44%。结论:磁珠纯化抗原能特异性地与对应抗体结合,有效吸附血清中的血型抗体,有望作为合成A/B抗原的替代品。     

B型流感病毒B/Yamagata/16/88反向遗传操作平台的搭建及BALB/c小鼠感染模型的建立

目的利用基因工程技术全基因合成B型流感病毒B/Yamagata/16/88的8个基因节段,并利用反向遗传技术从体外拯救B型流感病毒B/Yamagata/16/88,同时建立BALB/c小鼠感染模型,为下一步研究B型流感病毒致病机制、传播机制以及开发新型疫苗奠定基础。方法通过基因合成和反向遗传技术体外拯救B型流感病毒B/Yamagata/16/88。全基因组测序验证拯救病毒基因组序列与Genbank序列的一致性。将拯救病毒以105EID50的攻毒剂量人工感染BALB/c小鼠,通过体重变化、生存率、肺脏病毒复制等方面进行致病性分析,建立小鼠感染模型。结果成功从体外拯救出B型流感病毒B/Yamagata/16/88,命名为B-S9。全基因组测序结果表明,B-S9基因组序列与Genbank公布序列一致。B-S9能够人工感染BALB/c小鼠,但不致死,对BALB/c小鼠呈现低致病性;攻毒后第3天,B-S9感染小鼠体重出现下降,攻毒后第8天,小鼠体重开始回升;攻毒后第3天和第6天,B-S9感染小鼠的肺脏内均能检测到病毒复制,且攻毒后第3天的小鼠肺脏病毒滴度比攻毒后第6天的小鼠肺脏滴度高132倍。结论成功搭建B型流感病毒B/Yamagata/16/88反向遗传操作平台,并建立BALB/c小鼠感染模型。目前国内外对B型流感病毒的研究比较少,该反向遗传操作平台的建立为B型流感病毒致病机制和传播机制的研究奠定了基础,同时也为包括B型流感病毒减毒活疫苗在内的新型疫苗的研制开辟了新途径。     

Rel/NF-κB与神经系统疾病

自从 1 986年真核细胞核转录因子Ｒｅｌ/ＮＦ κＢ被发现以来 ,对它的研究就一直方兴未艾。Ｒｅｌ/ＮＦ κＢ参与一系列病理和生理过程反应 ,如免疫反应、炎症反应等 ,在细胞的生长、分化、粘附、凋亡等过程中也具有十分重要的作用。1 .Ｒｅｌ/ＮＦ κＢ信号转导通路在静息状态时 ,Ｒｅｌ/ＮＦ κＢ与抑制蛋白ＩκＢ结合 ,抑制其核转位信号 ,使之以无活性形式存在于胞浆中 ;胞外刺激信号如活性氧介质 (ＲＯＩ)、细胞因子、神经递质、病毒、ＵＶ、内质网超载等通过转导激活ＩＫＫ上游激酶ＭＥＫＫ 1或ＮＩＫ而使ＩＫＫ复合物活化 ,在酪蛋白激…     

HeLa/GFP-Plk1/Cherry-H2B稳定细胞系的构建

目的:构建可研究Polo样激酶1(Plk1)定位的HeLa细胞系。方法:用PCR方法扩增Plk1基因,定向克隆到pRex-EGFP-IRES-Hygro载体中,构建pRex-EGFP-Plk1-IRES-Hygro表达载体;利用逆转录病毒感染的方法,向HeLa细胞系中依次转染pRex-EGFP-Plk1-IRES-Hygro、pRex-Cherry-H2B-IRES-Hygro,构建Hela/GFP-Plk1/Cherry-H2B稳定细胞系;激光共聚焦显微镜观察Hela/GFP-Plk1/Cherry-H2B稳定细胞系在不同有丝细胞分裂期时Plk1的定位。结果:质粒酶切及测序证明pRex-EGFP-Plk1-IRES-Hygro载体构建正确;在Hela/GFP-Plk1/Cherry-H2B稳定细胞系有丝分裂中期和末期时,观察到Plk1分别定位于着丝粒和中间体上。结论:构建了Hela/GFP-Plk1/CherryH2B稳定细胞系,为研究Plk1在有丝分裂不同时期的调控机制提供了细胞模型。     

B型流感病毒B/Guangxi-Jiangzhou/1352/2018毒株的遗传进化及其对小鼠的致病性分析北大核心CSCD

B型流感病毒(influenza B virus,IBV)比A型流感病毒(influenza A virus,IAV)更易引发并发症,在一定季节内造成的疾病负担甚至超过IAV,但目前人们对IBV的关注较少。为了分析IBV临床毒株B/Guangxi-Jiangzhou/1352/2018的遗传进化特点,本研究构建了系统进化树,并以世界卫生组织推荐的疫苗株为参考,对其血凝素(hemagglutinin,HA)和神经氨酸酶(neuraminidase,NA)进行了氨基酸序列同源性及突变位点分析。分析结果发现B/Guangxi-Jiangzhou/1352/2018毒株无谱系间重配现象,与同年疫苗株B/Colorado/06/2017匹配性较差。另外,测定了B/Guangxi-Jiangzhou/1352/2018毒株感染小鼠的半数致死量(median lethal dose,LD_(50))及其对小鼠的致病性。结果表明,B/Guangxi-Jiangzhou/1352/2018毒株感染小鼠的LD_(50)为10^(5.9) TCID_(50)(median tissue culture infective dose),小鼠肺脏中病毒滴度在感染后1 d达到高峰,炎性细胞因子的mRNA水平在感染后12 h达到高峰,且感染后肺脏中的肺泡损伤严重,有大量炎性细胞浸润。本研究证明了IBV临床毒株B/Guangxi-Jiangzhou/1352/2018可以感染小鼠并诱发典型的肺脏炎症,为研究IBV致病及传播机制奠定了基础,为评价新型流感疫苗、抗病毒和抗炎症药物提供了理想的动物模型。     

Picus leuconotus in B?hmen erlegt

Ohne Zusammenfassung     

MICA/B基因多态性与血吸虫病相关性研究

本研究采用PCR-SSP与PCR-SBT方法对正常健康对照组与血吸虫病感染组、血吸虫病性重度肝纤维化病人组和轻度肝纤维化病人组中MICA/B基因进行分型,并比较各组基因的多态性。结果在血吸虫感染组与健康对照组中共发现13种MICA等位基因和5种MICA-STR基因型,MICA*012:01(11.58%vs 5.83%)、MI-CA*017(2.11%vs 0.00%)及MICA*027(3.16%vs 0.97%)在对照人群组较血吸虫病人组中分布频率较高,但Pc值显示没有统计学意义(Pc>0.05)。MICA-STR型别分析显示,MICA-STR与血吸虫病易感没有相关性,但MICA*A5基因型的分布频率在重度肝纤维化组显著高于轻度肝纤维化组(45.10%vs 26.92%,Pc<0.05)。在血吸虫病人组中一共检出10种MICB等位基因。在本研究人群中未发现与日本血吸虫感染显著相关的MICB等位基因。同时MICB等位基因多态性在重度纤维化组、轻度纤维化组、以及正常对照组相互之间均无显著的相关性。研究显示在血吸虫病人组中,MICA和MICB具有连锁不平衡,其中单倍型MICB*008-MICA*002:01和MICB*014-MICA*045在血吸虫病人组中显示具有显著的连锁不平衡。     

Schisandrin B Ameliorates ICV-Infused Amyloid β Induced Oxidative Stress and Neuronal Dysfunction through Inhibiting RAGE/NF-κB/MAPK and Up-Regulating HSP/Beclin Expression

Amyloid β (Aβ)-induced neurotoxicity is a major pathological mechanism of Alzheimer’s disease (AD). Our previous studies have demonstrated that schisandrin B (Sch B), an antioxidant lignan from Schisandra chinensis, could protect mouse brain against scopolamine- and cisplatin-induced neuronal dysfunction. In the present study, we examined the protective effect of Sch B against intracerebroventricular (ICV)-infused Aβ-induced neuronal dysfunction in rat cortex and explored the potential mechanism of its action. Our results showed that 26 days co-administration of Sch B significantly improved the behavioral performance of Aβ (1–40)-infused rats in step-through test. At the same time, Sch B attenuated Aβ-induced increases in oxidative and nitrosative stresses, inflammatory markers such as inducible nitric oxide syntheses, cyclooxygenase-2, interleukin-1β (IL-1β), IL-6, and tumor necrosis factor-α, and DNA damage. Several proteins such as receptor for advanced glycation end products (RAGE), nuclear factor-κB, mitogen-activated protein kinases, and apoptosis markers were over expressed in Aβ-infused rats but were significantly inhibited by Sch B treatment. Furthermore, Sch B negatively modulated the Aβ level with simultaneous up-regulation of HSP70 and beclin, autophagy markers in Aβ-infused rats. The aforementioned effects of Sch B suggest its protective role against Aβ-induced neurotoxicity through intervention in the negative cycle of RAGE-mediated Aβ accumulation during AD patho-physiology.     

Hepatitis B virus–triggered autophagy targets TNFRSF10B/death receptor 5 for degradation to limit TNFSF10/TRAIL response

Death receptors of TNFSF10/TRAIL (tumor necrosis factor superfamily member 10) contribute to immune surveillance against virus-infected or transformed cells by promoting apoptosis. Many viruses evade antiviral immunity by modulating TNFSF10 receptor signaling, leading to persistent infection. Here, we report that hepatitis B virus (HBV) X protein (HBx) restricts TNFSF10 receptor signaling via macroautophagy/autophagy-mediated degradation of TNFRSF10B/DR5, a TNFSF10 death receptor, and thus permits survival of virus-infected cells. We demonstrate that the expression of the TNFRSF10B protein is dramatically reduced both in liver tissues of chronic hepatitis B patients and in cell lines transfected with HBV or HBx. HBx-mediated downregulation of TNFRSF10B is caused by the lysosomal, but not proteasomal, degradation pathway. Immunoblotting analysis of LC3B and SQSTM1, and microscopy analysis of tandem-fluorescence-tagged LC3B revealed that HBx promotes complete autophagy. Inhibition of autophagy with a pharmacological inhibitor and LC3B knockdown revealed that HBx-induced autophagy is crucial for TNFRSF10B degradation. Immunoprecipitation and GST affinity isolation assays showed that HBx directly interacts with TNFRSF10B and recruits it to phagophores, the precursors to autophagosomes. We confirmed that autophagy activation is related to the downregulation of the TNFRSF10B protein in liver tissues of chronic hepatitis B patients. Inhibition of autophagy enhanced the susceptibility of HBx-infected hepatocytes to TNFSF10. These results identify the dual function of HBx in TNFRSF10B degradation: HBx plays a role as an autophagy receptor–like molecule, which promotes the association of TNFRSF10B with LC3B; HBx is also an autophagy inducer. Our data suggest a molecular mechanism for HBV evasion from TNFSF10-mediated antiviral immunity, which may contribute to chronic HBV infection.     

西安市MRSA 耐消毒剂基因qacA/B 的检测

目的:了解西安市三甲综合医院耐甲氧西林金黄色葡萄球菌(MRSA)qacA/B基因的携带情况,以便掌握其对消毒剂的耐药情况。方法:收集临床分离的152株耐甲氧西林金黄色葡萄球菌,采用聚合酶链反应检测qacA/B基因,并将qacA/B基因扩增产物进行测序,测序结果进行比对。结果:152株耐甲氧西林金黄色葡萄球菌中有11株检出qacA/B阳性,qacA/B携带率7.2%;测序结果比对发现,4株qacA的基因编码序列同一位点均有一个碱基发生突变(C→T),苏氨酸突变为异亮氨酸。结论:该地区临床分离的耐甲氧西林金黄色葡萄球菌中qacA/B携带率相对较低,但也存在抵抗消毒剂的风险,临床应加强消毒剂使用的管理,阻止MRSA的传播,减少感染的发生。     

基于B /S构架医疗新技术管理系统的研发

为了使医疗新技术工作规范化、科学化,整合现有资源,进而推动医疗新技术管理工作的健康、可持续发展,设计开发了基于B/S构架的医疗新技术管理系统。采用基于B/S结构的C#编程语言、HTML语言、JavaScript 语言、AJAX脚本技术和MS SQL SERVER 2005数据库技术对系统进行实现。     

TLR/NF-κB信号通路与肺部疾病

Toll样受体(Toll like receptor,TLR)是一种重要的模式识别受体,核转录因子-κB(nuclear factor-κB,NF-κB)处于TLR下游信号通路中的关键位置,当TLR受到病原微生物刺激后,激活NF-κB,诱导炎症因子释放,启动固有免疫。但TLR/NF-κB信号通路过度激活,有可能导致炎症反应失控。本文将介绍TLR/NF-κB信号通路及其在肺部炎症疾病例如急性肺损伤、慢性阻塞性肺疾病、肺癌、哮喘等发生发展中的作用。     

Visfatin induces MUC8 and MUC5B expression via p38 MAPK/ROS/NF-κB in human airway epithelial cells

Background

Among a variety of inflammatory mediators, visfatin is a proinflammatory adipocytokine associated with inflammatory reactions in obesity, metabolic syndrome, chronic inflammatory disease, and autoimmune disease. However, the biological role of visfatin in secretion of major mucins in human airway epithelial cells has not been reported. Therefore, this study was conducted in order to investigate the effect and the brief signaling pathway of visfatin on MUC8 and MUC5B expression in human airway epithelial cells.

Results

Visfatin significantly induced MUC8 and MUC5B expression. Visfatin significantly activated phosphorylation of p38 MAPK. Treatment with SB203580 (p38 MAPK inhibitor) and knockdown of p38 MAPK by siRNA significantly blocked visfatin-induced MUC8 and MUC5B expression.Visfatin significantly increased ROS formation. Treatment with SB203580 significantly attenuated visfatin-induced ROS formation. Treatment with NAC (ROS scavenger) and DPI (NADPH oxidase inhibitor) significantly attenuated visfatin-induced MUC8 and MUC5B expression. However, treatment with NAC and DPI did not attenuate visfatin-activated phosphorylation of p38 MAPK. Visfatin significantly activated the phosphorylation of NF-κB. Treatment with PDTC (NF-κB inhibitor) significantly attenuated visfatin-induced MUC8 and MUC5B expression.

Conclusions

These results suggest that visfatin induces MUC8 and MUC5B expression through p38 MAPK/ROS/NF-κB signaling pathway in human airway epithelial cells.     

Vinorelbine-Induced Oxidative Injury in Human Endothelial Cells Mediated by AMPK/PKC/NADPH/NF-κB Pathways

Vinorelbine tartrate (VNR), a semi-synthetic vinca alkaloid acquired from vinblastine, has extensively been used as an anticancer agent. However, VNR-induced oxidative damage may cause several side effects, such as venous irritation, vascular pain, and necrotizing vasculitis, thereby repressing clinical treatment efficiency. The molecular mechanisms underlying the induced oxidative stress in endothelial cells are still largely unknown. This study was designed to test the hypothesis that VNR induces oxidative injury through modulation of AMP-activated protein kinase (AMPK) and possible mechanisms were then explored. Human umbilical vein endothelial cells (HUVECs) were treated with VNR (5–0.625 μM) to produce oxidative damage. The VNR-mediated AMPK, PKC, and NADPH oxidase expressions were investigated by western blotting. Furthermore, several oxidative stress-induced oxidative damage markers as well as pro-inflammatory responses were also investigated. VNR treatment resulted in dephosphorylation of AMPK, which in turn led to an activation of NADPH oxidase by PKC; however, the phenomena were repressed by AICAR (an agonist of AMPK). Furthermore, VNR suppressed Akt/eNOS and enhanced p38 mitogen-activated protein kinase (MAPK), which in turn activated the NF-κB pathway. Furthermore, VNR facilitated several pro-inflammatory events, such as the adherence of monocytic THP-1 cells to HUVECs, pro-inflammatory cytokines release, and overexpression of adhesion molecular. Our results highlight a possible molecular mechanism for VNR-mediated endothelial dysfunction.