p38 MAPK参与LPS诱导RAW细胞TNF—α基因表达的调控

构建ＴＮＦ－α启动子驱动的荧光酶报告基因系统,研究ｐ３８ＭＡＰＫ信号转导系统对ＴＮＦ－α基因表达的影响,ＲＡＷ２６４．７细胞共转染实验发现,ＬＰＳ对ｐ３８的激活作用与其诱导ＴＮＦ－α转录活性的作用显著相关,虽然单纯转染ｐ３８未见明显诱导ＴＮＦ－α报告基因系统的转录活性。     

五灵胶囊对LPS诱导鼠枯否细胞p38MAPK信号转导通路的影响

目的:探讨五灵胶囊对脂多糖(LPS)诱导的大鼠枯否细胞(Kupffer cells,KC)p38MAPK信号转导通路的影响。方法:分离纯化KCs,60ng/ml LPS刺激建立LPS的肝细胞损伤模型;40只SD大鼠药物处理后,分离制备含药血清。实验分为四组:空白血清组、LPS+空白血清组、含药血清Ⅰ组(10.0g/kg)+LPS、含药血清Ⅱ组(6.25g/kg)+LPS。KCs产生促炎因子(I125放免法测定TNF-α、IL-6、IL-8,比色法测定NO生成量),采用Western blot法检测ERK、p-ERK、p38、p-p38、TNF-α和STAT3的蛋白水平。结果:1、空白血清+LPS组,TNF-α、IL-6、IL-8和NO浓度明显高于空白血清组;2、同空白血清+LPS组比较,含药血清Ⅰ、Ⅱ组TNF-α、IL-6、IL-8和NO水平明显降低;3、与空白血清组比较,空白血清+LPS组能上调KCs对p-ERK、P38、p-P38、STAT3和TNF-α表达(p<0.01,p<0.05),对ERK表达无影响(p>0.05)4、同空白血清+LPS组比较,含药血清Ⅰ+LPS、含药血清Ⅱ+LPS组p-p38、S...     

RhoA—p38MAPK信号转导通路及其进展

RhoA属于小G蛋白家族成员,p38MAPK属于丝/苏氨酸蛋白激酶家族成员。本文从巨噬细胞、肌肉细胞、成纤维细胞、神经元和肿瘤几个方面阐述RhoA-p38MAPK信号通路的研究进展,此信号通路在细胞骨架的改变和肿瘤的发生发展方面有望成为新的研究热点。     

p38 MAPK信号转导途径在关节软骨细胞中的激活和作用

p38信号转导途径是MAPK途径的一种,软骨细胞是关节软骨中唯一的细胞成分。软骨细胞中的p38 MAPK可以被多种细胞因子、机械因素等所激活,它与软骨细胞表型的保持和分化、软骨细胞的肥大化和钙化、凋亡、软骨基质金属蛋白酶的合成、软骨炎性细胞因子的产生等有密切关系,可能在关节炎的发生发展中发挥了重要作用。     

p38MAPK介导的胶质细胞iNOS的转录激活机制

丝裂原激活蛋白激酶(MAPK)酶级联反应系统参与胶质细胞中iNOS的合成.通过瞬时转染p38MAPK途径中上游激酶,MAPK激酶3(MKK3)和MAPK激酶6 (MKK6 )表达质粒,进一步了解p38MAPK级联传导信号系统调节iNOS基因在胶质细胞中的转录激活机制.MKK3或MKK6表达质粒与接有荧光素酶(luciferase ,Luc)的大鼠iNOS启动基因质粒(iNOS Luc)联合转染C6星形胶质细胞株引起iNOS Luc的激活,并且使细胞因子诱导的iNOSmRNA的表达增强.这两种效应都能够被p38MAPK抑制剂SB2 0 35 80所抑制.MKK3 6也可以诱导核因子κB(NFκB Luc)依赖的转录活性.这些分子水平的研究结果为p38MAPK信号级联传导途径在调节大鼠胶质细胞中iNOS基因转录激活中的重要作用,包括转录因子NFκB的作用提供了证据.通过阻断iNOS表达或NO的生成,抑制细胞炎症发生,为防治神经细胞炎症反应性疾病提供实验依据.     

p38 MAPK通路在脂多糖致呼吸道上皮损伤中的作用

脂多糖（Lipopolysaccharide,LPS）是革兰阴性杆菌细胞壁的主要组成成分,也是一种很强的炎症反应和氧化应激诱导剂。呼吸道上皮是机体防御外界细菌、病毒、香烟烟雾等生物和化学因素损伤的天然屏障,在维持呼吸道局部微环境稳态中可发挥重要作用,也是吸入性药物治疗的主要靶细胞。呼吸道上皮结构完整性缺陷或功能紊乱还参与了哮喘、慢性阻塞性肺疾病等多种肺部疾病的发生和发展。LPS可引起呼吸道上皮损伤,但其具体的分子机制目前尚不清楚。p38丝裂原活化蛋白激酶（P38mitogen-activated protein kinase,p38 MAPK）作为MAPK家族四个亚家族成员之一,包含四个成员：p38α、p38β、p38γ和p38δ,可通过经典和非经典的p38 MAPK信号通路激活方式及通过激酶活性无关的功能参与调控炎症反应、细胞生长、细胞分化和细胞死亡等多种病理生理过程。本文就p38 MAPK信号通路在LPS致呼吸道上皮损伤中的作用做一综述。     

人CD14基因的克隆及序列测定

采用PCR技术,从佛波酯乙醇刺激的HL-60细胞基因组DNA中扩增获得了1.1 kb的人CD14基因.序列分析表明,有四个碱基发生了突变,其中两处为首次报道.     

抗感染免疫中CD14/TLR-MD-2复合体的信号转导作用

TOLL样受体(TOLL—like receptor,TLR)是近年发现的一族天然受体,在机体内其主要成员可与MD-2蛋白及CD14结合形成CDl4／TLR—MD-2复合体,特异性识别多种病原微生物,通过偶联信号转导途径,激活机体的免疫细胞．产生一系列的炎症反应,在抗感染免疫中发挥重要作用。     

重组人可溶性CD14在昆虫细胞表达系统中的表达

BAC-TO-BAC杆状病毒表达系统是一种快速、高效、便捷的表达系统.将人可溶性CD14(sCD14)基因克隆入pFASTBAC1转移质粒中,重组质粒转化DH10BAC感受态细胞,目的基因通过同源重组插入BacmidDNA中,后者转染sf21昆虫细胞获得重组杆状病毒.利用重组蛋白C-末端的6×His@Tag,经TALON金属螯合色谱将重组病毒感染昆虫细胞获得的无血清培养上清--步纯化得到重组蛋白,计算表明从1L培养基中可纯化到约8mg纯度大于95%的重组sCD14蛋白,免疫印迹结果表明重组蛋白具有与抗6×His单抗和抗CD14单抗结合的抗原性.疑胶迁移实验和细胞活性实验表明重组sCD14蛋白能在体外与LPS结合,并能增强LPS诱导THP-1细胞产生细胞毒性因子.     

脂联素激活心肌细胞AMPK及p38MAPK通路

此荣获“第五届海峡两岸心血管科学研讨会”青年优秀论二等奖。作为北京大学医学部生理与病理生理学系吴立玲教授的在职博士生。[编按]     

p38 MAPK信号传导通路

丝裂原活化蛋白激酶（ｍｉｔｏｇｅｎ－ａｃｔｉｖａｔｅｄｐｏｒｏｔｅｉｎｋｉｎａｓｅ,ＭＡＰＫ）介导了生长、发育,分裂,死亡,以及细胞间的功能同步等多种细胞生理功能,在哺乳动物细胞中已发现和克隆了ＥＲＫ、ＪＮＫ／ＳＡＰＫ,ＥＲＫ５／ＢＭＫ１和ｐ３８／ＲＫ四个ＭＡＰＫ亚族,这些新的ＭＡＰＫ介导了物理,化学反激,细菌产物,炎性细胞因子等多种刺激引起的细胞反应,ｐ３８亚族至少包括ｐ３８（α）,ｐ３８β,ｐ     

Evidence of a trimolecular complex involving LPS,LPS binding protein and soluble CD14 as an effector of LPS response

The kinetics of the interaction of lipopolysaccharide (LPS), lipopolysaccharide binding protein (LBP) and CD14 was studied using surface plasmon resonance. The association and dissociation rate constants for the binding of LPS and rsCD14 were 2.9 x 10(4) M(-1) s(-1) and 0.07 s(-1) respectively, yielding a binding constant of 4.2 x 10(5) M(-1). Significantly, the presence of LBP increased not only the association rate but also the association constant for the interaction between LPS and CD14 by three orders of magnitude. Our experimental results suggest that LBP interacts with LPS and CD14 to form a stable trimolecular complex that has significant functional implications as it allows monocytes to detect the presence of LPS at a concentration as low as 10 pg/ml or 2 pM, and to respond by secreting interleukin-6. Thus, LBP is not merely transferring LPS to CD14 but it forms an integral part of the LPS-rLBP-rsCD14 complex.     

The mitogen-activated protein kinase p38 pathway is conserved in metazoans: cloning and activation of p38 of the SAPK2 subfamily from the sponge Suberites domuncula

Our recent data suggest that during auto- and allograft recognition in sponges (Porifera), cytokines are differentially expressed. Since the mitogen-activated protein kinase (MAPK) signal transduction modulates the synthesis and release of cytokines, we intended to identify one key molecule of this pathway. Therefore, a cDNA from the marine sponge Suberites domuncula encoding the MAPK was isolated and analyzed. Its encoded protein is 366 amino acids long (calculated Mr 42 209), has a TGY dual phosphorylation motif in protein kinase subdomain VIII and displays highest overall similarity to the mammalian p38 stress activated protein kinase (SAPK2), one subfamily of MAPKs. The sponge protein was therefore termed p38_SD. The overall homology (identity and similarity) between p38_SD and human p38alpha (CSBP2) kinase is 82%. One feature of the sponge kinase is the absence of threonine at position 106. In human p38alpha MAPK this residue is involved in the interaction with the specific pyridinyl-imidazole inhibitor; T106 is replaced in p38_SD by methionine. Inhibition studies with the respective inhibitor SB 203580 showed that it had no effect on the phosphorylation of the p38 substrate myelin basic protein. A stress responsive kinase Krs_SD similar to mammalian Ste20 kinases, upstream regulators of p38, had already previously been found in S. domuncula. The S. domuncula p38 MAPK is phosphorylated after treatment of the animal in hypertonic medium. In contrast, exposure of cells to hydrogen peroxide, heat shock and ultraviolet light does not cause any phosphorylation of p38. It is concluded that sponges, the oldest and most simple multicellular animals, utilize the conserved p38 MAPK signaling pathway, known to be involved in stress and immune (inflammatory) responses in higher animals.     

LPS诱导乳鼠心肌细胞p38蛋白激酶的激活与转位

探讨p38蛋白激酶信号传导通路在细胞中的特异性作用机制。应用共聚焦激光扫描技术观察心肌细胞中p38蛋白激酶的分布及LPS对其分布的影响。结果提示未受刺激静止的及EGF刺激的心肌细胞中,p38在胞浆和胞核中荧光强度呈散性分布。LPS刺激30分钟后,细胞核区的荧光强度明显增强,而胞浆区域的荧光强度降低,心肌细胞受LPS刺激激活后,其p38蛋白激酶由胞浆转位到胞核。     

Primate Torpor:Regulation of Stress-activated Protein Kinases During Daily Torpor in the Gray Mouse Lemur,Microcebus murinus

Very few selected species of primates are known to be capable of entering torpor. This exciting discovery means that the ability to enter a natural state of dormancy is an ancestral trait among primate...     

Pathogen recognition and signal transduction by the Pto kinase

In tomato, the disease resistance genePto confers resistance to bacterial speck disease by recognizing the expression of a corresponding avirulence gene,avrPto, in the pathogenPseudomonas syringae pv.tomato (Martinet al. 1993). Similar “gene-for-gene” interactions occur in many plant-pathogen associations (Flor 1971). Such recognition events often lead to the activation in the plant of a variety of defense responses including a rapid induction of localized necrosis at the site of infection (the hypersensitive response, HR), increased expression of defense-related genes, production of antimicrobial compounds, lignin formation, and the oxidative burst (Lambet al. 1989, Mehdy 1994). As a result, the pathogen is contained at the infection site and its growth is inhibited.Pto encodes a serine/threonine protein kinase and belongs to a clustered multigene family. Another member of thePto family calledFen confers no known disease resistance, but mediates a hypersensitive-like reaction in the plant to the insecticide fenthion (Martinet al. 1994). We are interested in a number of fundamental questions concerning the Pto signaling pathways. What is the molecular basis of thePto-avrPto gene-for-gene interaction? What are the components involved in thePto-mediated signal transduction chain? How does thePto kinase activate complex defense responses? This paper summarizes our recent progress towards understanding these questions.     

The MAP kinase cascade. Discovery of a new signal transduction pathway

Using biochemical techniques similar to those used by Krebs and Fischer in elucidating the cAMP kinase cascade, a protein kinase cascade has been found that represents a new pathway for signal transduction. This pathway is activated in almost all cells that have been examined by many different growth and differentiations factors suggesting control of different cell responses. At this writing, four tiers of growth factor regulated kinases, each tier represented by more than one enzyme, have been reconstitutedin vitro to form the MAP kinase cascade. Preliminary findings suggesting multiple feedback or feedforward regulation of several components in the cascade predict higher complexity than a simple linear pathway.     

Mycophenolic acid inhibits mesangial cell activation through p38 MAPK inhibition

Mesangial cell (MC) proliferation and extracellular matrix (ECM) accumulation are major pathologic features of chronic renal disease including chronic allograft nephropathy (CAN). Mycophenolic acid (MPA), a potent immunosuppressant, has emerged as a treatment to prevent CAN because it inhibits MC proliferation and ECM synthesis, but the mechanism involved has not been clarified. The present study examined relative role of extracellular signal-regulated kinase 1/2 (ERK1/2) and p38 mitogen-activated protein kinase (p38 MAPK) activation in inhibitory effect of MPA on MC activation. Growth arrested and synchronized primary rat MC (passages 7-11) were stimulated by PDGF 10 ng/ml in the presence and absence of clinically attainable dose of MPA (0-10 microM). Cell proliferation was assessed by [(3)H]thymidine incorporation, fibronectin and the activation of ERK and p38 MAPK by Western blot analysis, and total collagen by [(3)H]proline incorporation. PDGF increased cell proliferation by 4.6-fold, fibronectin secretion by 3.2-fold, total collagen synthesis by 1.8-fold, and the activation of ERK and 38 MAPK by 5.6-fold and 3.1-fold, respectively, compared to control. MPA, at doses inhibiting PDGF-induced MC proliferation and ECM synthesis, effectively blocked p38 MAPK activation but reduced ERK activation by 23% at maximal concentration tested (10 microM). Exogenous guanosine partially reversed the inhibition of MPA on p38 MAPK activation. Inhibitor of ERK or p38 MAPK suppressed PDGF-induced MC proliferation and ECM synthesis. In conclusion, MPA inhibits p38 MAPK activation leading to inhibiting proliferation and ECM synthesis in MC. Guanosine reduction is partially responsible for inhibitory effect of MPA on p38 MAPK activation in MC.     

Inflammatory cytokines activate p38 MAPK to induce osteoprotegerin synthesis by MG-63 cells

Inflammatory bone diseases are characterized by the presence of pro-inflammatory cytokines that regulate bone turnover. Osteoprotegerin (OPG) is a soluble osteoblast-derived protein that influences bone resorption by inhibiting osteoclast differentiation and activation. In the present study, we demonstrate that interleukin-1beta and tumor necrosis factor alpha induce OPG mRNA production and OPG secretion by osteoblast-like MG-63 cells. Maximum induction of OPG secretion by either cytokine requires activation of the p38 mitogen activated protein kinase (MAPK) pathway but neither the p42/p44 (ERK) nor the c-Jun N-terminal MAPK pathways. Induction of OPG mRNA by either cytokine is also p38 MAPK dependent. Taken together, these data indicate that cytokine-induced OPG gene expression and protein secretion are differentially regulated by specific MAP kinase signal transduction pathways.