双特异性磷酸酶3在肿瘤中的作用

双特异性磷酸酶3(dual-specificity phosphatase 3, DUSP3)是一种双特异性蛋白酪氨酸磷酸酶,其不仅可使磷酸酪氨酸残基去磷酸化,同时也能使磷酸丝/苏氨酸残基去磷酸化。因此,DUSP3具有多样的底物特异性,除了丝裂原活化蛋白激酶(mitogen-activated protein kinase, MAPK)ERK、JNK和p38底物外,还可以作用于其他信号通路的蛋白质,通过MAPK依赖性或非依赖性机制参与细胞周期调控、细胞增殖、衰老、凋亡、迁移以及血管生成、基因组稳定性等多种生物学反应,与肿瘤的发生发展密切相关,是一个潜在的有价值的治疗靶点。本文就DUSP3的生物学特征及其在肿瘤研究中的进展进行了综述。     

内皮素-1对大鼠血管平滑肌细胞产生MCP-1的影响及其机制

目的：观察内皮素-1（ET-1）对大鼠血管平滑肌细胞（VSMCs）产生单核细胞趋化蛋白-1（MCP-1）的影响及其机制。方法：培养大鼠血管平滑肌细胞（VSMCs）。细胞分为2组：ET-1刺激组：以不同浓度ET-1刺激VSMCs不同时间;阻断剂干预组：VSMCs分别与不同阻断剂[ET_AR、ET_BR阻断剂BQ123、BQ788,抗氧化剂N-乙酰半胱氨酸（NAC）,ERK、p38MAPK、JNK及NF-κB抑制剂PD98059、SB203580、SP600125及PDTC]预先孵育30 min,再加入ET-1刺激24 h。在预定时间,以酶联免疫吸附（ELISA）法、逆转录聚合酶链反应（RT-PCR）法分别测定不同因素下VSMCs MCP-1蛋白质及mRNA表达量。VSMCs分别与不同阻断剂（BQ123、BQ788、NAC、PD98059、SB203580及SP600125预先孵育20 min,再加入ET-1刺激5 min,免疫印迹（WB）法测定VSMCs胞浆中细胞外调节蛋白激酶（ERK）、p38丝裂原活化蛋白激酶（p38MAPK）、c-Jun氨基末端激酶（JNK）及其各自磷酸化蛋白质的水平。各项检测均重复3次。结果：ET-1能刺激VSMCs MCP-1蛋白质及mRNA表达,其表达量随ET-1浓度及刺激时间的增加呈升高趋势（P<0.05,P<0.01）;BQ123、NAC、PD98059、SB203580及PDTC能显著抑制ET-1诱导的大鼠VSMCs MCP-1蛋白质及mRNA表达（P<0.01）,而BQ788及SP600125对此作用无明显影响。BQ123、NAC与PD98059或SB203580能分别抑制ET-1刺激后VSMCs胞浆内ERK及p38MAPK的磷酸化（P<0.05,P<0.01）,而ET-1对JNK的磷酸化无明显激活作用。结论：ET-1通过ET_AR、ROS、ERK、p38MAPK及NF-κB诱导大鼠VSMCs产生MCP-1。     

UVB 诱导凋亡时MAPK 和Mst1/caspase-3 信号通路调节 H2B 磷酸化作用

凋亡是真核细胞执行的高度协调的程序性自杀机制. 细胞凋亡时, 组蛋白的修饰与核
内事件有关. 尤其H2B 被Mst1 激酶磷酸化后, 参与调节核内凋亡事件染色质凝聚作用. 本研究
发现, UVB诱导细胞凋亡时, H2B发生磷酸化作用, 并且受MAPK家族(ERK1/2, JNK1/2 和p38),
Mst1 和caspase-3 信号通路调控. UVB能够以时间依赖方式激活MAPK家族激酶, 进而介导H2B
磷酸化, 但是H2B 乙酰化作用不受影响. 分别阻断ERK1/2, JNK1/2 或p38 任何一种激酶, 均能
抑制H2B 磷酸化作用. 而且, UVB 也能激活caspase-3, 活化的caspase-3 激活下游Mst1. 受到激
活的Mst1 直接磷酸化H2B, 导致染色质凝聚. 但是caspase-3 和Mst1 信号通路被完全阻断时, 只
能部分抑制H2B 磷酸化作用, 同时MAPK 家族激酶的活化不受影响. 因此, 细胞在受到UVB
诱导发生凋亡时, MAPK 和caspase-3/Mst1 信号途径分别独立调节H2B 磷酸化和染色质凝聚
作用.     

柴胡提取物诱导人类白血病细胞HL-60的细胞凋亡及其机理研究

柴胡提取物诱导人类白血病细胞HL-60的细胞凋亡从而抑制其细胞生长.为了研究该过程的作用机理,我们研究了丝裂原活化蛋白激酶(MAPKs),包括胞外信号调节激酶(ERK1/2),c-jun氨基末端蛋白激酶(JNK)和p38丝裂原活化蛋白激酶(MAPK),在该过程中的磷酸化特征与动态变化.结果表明,柴胡提取物显著的增加了p38丝裂原活化蛋白激酶和胞外信号调节激酶(ERK1/2)的磷酸化作用,其增加值在测试范围内与测试剂量和作用时间成正相关,但在柴胡提取物诱导人类白血病细胞HL-60的细胞凋亡过程中,没有发现对氨基末端蛋白激酶(JNK)表现出磷酸化活性.柴胡提取物诱导白血病HL-60的细胞凋亡部分归结于对p38丝裂原活化蛋白激酶的上调节作用,这种上调节作用能够受到p38 MAPK特异性的抑制剂SB203580的部分逆转,而MEK的抑制剂U0126则对柴胡提取物诱导HL-60细胞凋亡过程中的胞外信号调节激酶(ERK1/2)的磷酸化具有显著的协同效应.这是首次报道柴胡提取物在诱导人白血病细胞HL-60细胞凋亡过程中参与p38丝裂原活化蛋白激酶的磷酸化,同时柴胡提取物作为胞外信号调节激酶(ERK1/2)抑制剂的协同作用物具有相应的药物学功能.     

花生四烯酸诱导肌球蛋白磷酸化被抑制的平滑肌细胞 迁移的信号传导途径

在应用肌球蛋白轻链激酶特异抑制剂ML-7抑制了肌球蛋白轻链磷酸化后,花生四烯酸(arachidonic acid,AA)仍可诱导兔血管平滑肌细胞（SM3）发生迁移.为了进一步阐明其信号传导途径,应用多种信号抑制剂,采用免疫印迹、Boyden小室和提取细胞膜蛋白等实验方法,对上述迁移作用的信号传导途径进行了深入的研究.结果显示,PTX（Gi蛋白抑制剂）、U73122（PLC抑制剂）、staurosporine (PKC抑制剂)、PD98059（ERK1/2抑制剂）和SB203580（p38抑制剂）分别可拮抗上述AA诱导的SM3细胞迁移作用,而SP600125（JNK抑制剂）的作用较弱.免疫印迹结果显示,AA可提高SM3细胞中PKC(ε)、ERK1/2、p38和JNK信号的磷酸化水平,呈时间依赖性, PTX或U73122可抑制上述作用;staurosporine可抑制由AA 引起的ERK1/2和JNK的磷酸化水平增强,但对p38的磷酸化水平无影响.还发现AA可促进PLCβ2的细胞膜移位, PTX可抑制其作用.上述结果表明,当肌球蛋白轻链的磷酸化被抑制后, AA可通过Gi蛋白的活化促进PLCβ2向细胞膜移位,进而通过激活PKC(ε)、ERK1/2、p38和JNK等信号转导途径而诱导SM3细胞发生迁移     

酸性鞘磷脂水解酶和MAPK信号通路在UVA诱导细胞凋亡中的作用

为了探讨酸性鞘磷脂水解酶 (ASM)和MAPK信号通路在UVA诱导的细胞凋亡中的作用 ,用DNA梯形条带 (DNAladder)和荧光显微镜鉴定细胞凋亡 ,Western印迹分析MAPK信号通路的激活情况 .结果显示 :①经UVA照射 ,正常的淋巴母细胞JY出现严重的细胞凋亡 ,而ASM遗传性缺陷的淋巴母细胞MS1 4 1 8出现轻微凋亡 ;给予ASM特异性抑制剂NB6 ,UVA诱导的JY细胞凋亡明显减轻 ,表明UVA诱导的细胞凋亡依赖于ASM .②UVA照射后 ,磷酸化ERK含量在MS1 4 1 8细胞中明显升高 ,在JY细胞中受到抑制 ;UVA照射前给予NB6 ,JY细胞中磷酸化ERK含量上升 ,表明ASM能抑制ERK的激活 .③UVA照射后 ,磷酸化JNK含量在MS1 4 1 8细胞中几乎没有变化 ,而在JY细胞中含量升高 ;UVA照射前给予NB6 ,JY细胞中磷酸化JNK含量没有明显升高 ,表明ASM激活JNK通路 .④NB6对UVA激活的p38MAPK信号通路没有影响 ,表明p38的激活与ASM关系不大 .研究表明 ,UVA诱导的细胞凋亡是通过激活ASM、激活JNK信号通路并抑制ERK信号通路来完成的     

姜黄素通过MAPK信号通路诱导人肝癌SMMC-7721细胞凋亡

本文阐述了姜黄素(Curcumin)对体外培养的人肝癌SMMC-7721细胞增殖和凋亡的影响,并探讨了其诱导凋亡的信号转导机制。采用MTT法和细胞计数法检测不同浓度姜黄素对人肝癌细胞株SMMC-7721增殖的影响,利用流式细胞术检测姜黄素对人肝癌SMMC-7721细胞凋亡的影响,通过RT-PCR及Western blot检测姜黄素对人肝癌SMMC-7721细胞中凋亡相关蛋白Caspase-3、Survivin、Bcl-2和Bax表达的影响,最后通过检测MAPK的磷酸化水平分析姜黄素诱导SMMC-7721细胞凋亡的信号转导机制,通过MAPK抑制剂实验进一步证实诱导凋亡的分子机制。研究结果显示,姜黄素呈时间和剂量依赖性抑制人肝癌SMMC-7721细胞的增殖,其中40μmol/L姜黄素可明显诱导SMMC-7721细胞的凋亡,并呈时间依赖性上调促凋亡蛋白Caspase-3和Bax的表达、下调抗凋亡蛋白Survivin和Bcl-2的表达,姜黄素对凋亡相关蛋白表达的调节及诱导凋亡可以通过激活JNK、抑制ERK和p38 MAPK信号通路实现。表明姜黄素可诱导人肝癌SMMC-7721细胞凋亡,其机制与姜黄素激活JNK、抑制ERK和p38 MAPK信号通路从而上调Caspase-3和Bax的表达,下调Survivin和Bcl-2的表达有关。     

滋养细胞胞内双链DNA感受器通过MAPK/IκB信号介导炎性细胞因子分泌

目的:探究滋养细胞能否感受胞内双链DNA刺激及其对炎性因子分泌的影响,揭示胎盘的免疫识别和免疫屏障功能,探讨妊娠期感染所致不良妊娠结局的发病机制。方法:利用人工合成的双链DNA模拟物poly (dA:dT)转染人滋养细胞系HTR-8/SVneo,Real-Time PCR方法检测滋养细胞胞内双链DNA识别受体的表达水平;Western Blot检测滋养细胞MAPK和IκB信号的活化情况;ELISA检测HTR-8/SVneo细胞培养上清中IL-6、IL-8、MCP-1、CXCL10的分泌水平。结果:Real-Time PCR结果表明,HTR-8/SVneo能够感受胞内双链DNA刺激并上调包括IFI16、AIM2、DHX36、DHX9、LRRFIP1、KU70、ZBP1/DAI和DDX41在内的多种双链DNA感受器的m RNA表达水平;Western Blot实验结果表明,滋养细胞识别双链DNA后能够促进MAPK和IκB信号通路活化,转染90分钟后ERK、JNK、p38和IκBα的磷酸化水平最高,其后随着时间逐渐减弱;加入IκB、p38和JNK特异性抑制剂能够抑制poly(dA:dT)介导的IL-8、IL-6和CXCL10分泌,但其分泌不受ERK抑制剂的影响;MCP-1的分泌能够被p38和JNK抑制剂阻断,但p38和ERK抑制剂不影响其分泌。结论:人滋养细胞存在功能性胞内双链DNA识别机制,活化的DNA识别信号能够激活MAPK和IκB信号通路,并通过IκB、p38或JNK信号介导IL-8、IL-6、MCP-1及CXCL10等细胞因子和趋化因子的分泌。     

丝裂原活化蛋白激酶和磷酸酯酶-1在心肌病和细胞凋亡中的作用

ERK、JNK和p38等丝裂原活化蛋白激酶通过生长因子、激动剂或应激反应等介导生长、分化、凋亡以及细胞间相互作用等多种过程。ERK、JNK和p38是参与心衰病理过程的主要信号元件,MKP-1是丝裂原活化蛋白激酶等的去磷酸化因子,是一种应激蛋白,在应激反应中可以抑制ERK、JNK和p38的活性,并通过凋节ERK、JNK和p38的活性,参与对心衰病理过程的调节。本文以转基因研究结果为主要线索,对丝裂原活化蛋白激酶和磷酸酯酶．1在心衰病理过程中的作用进行了综述。     

丝裂原活化蛋白激酶信号通路相关研究

丝裂原活化蛋白激酶信号通路是生物体内重要的信号转导系统之一,参与介导细胞生长、发育、分裂、分化等多种生理反应过程。在哺乳动物细胞中存在5个MAPK亚族,分别是ERK1／2、JNK、p38、ERK3／4和ERK5。MAPK通常定位于细胞质中,受激活后移行进入细胞核,并产生相应的生理作用。     

MCP-1-stimulated chemotaxis of monocytic and endothelial cells is dependent on activation of different signaling cascades

Monocyte chemoattractant protein-1 (MCP-1) is important in attracting monocytes to sites of inflammation. Besides induction of monocyte recruitment, MCP-1 can also affect chemotactic response of endothelial cells. The molecular mechanisms involved in MCP-1-induced cell migration are poorly understood. In the current investigation, we demonstrate activation of p42/44(ERK1/2) and p38 mitogen-activated protein kinases (MAPKs), phosphatydilinositol-3-kinase (PI3K) and Src-kinases in both monocytes and endothelial cells stimulated with MCP-1 in vitro. The response was rapid and time-dependent, detectable within 3 min of MCP-1 stimulation. MCP-1-induced phosphorylation of p42/44(ERK1/2) MAPKs was partially blocked by inhibitor of PI3K LY294002, while phosphorylation of p38 MAPK was diminished to a greater extent in presence of Src-kinase inhibitor PP2. There was a substantial inhibition of monocyte migration upon treatment with inhibitors of p38 MAPK, at the same time inhibition of p42/44(ERK1/2) MAPK activation had no effect. On the contrary, the MCP-1-stimulated chemotaxis of endothelial cells was completely abolished by inhibitors of PI3K and p42/44(ERK1/2), but not by p38 MAPK inhibitors. These results suggest that parallel signal transduction pathways are activated by MCP-1, and that depending on the cell type these pathways differentially contribute to cell chemotactic activity.     

Monocyte 15-lipoxygenase expression is regulated by a novel cytosolic signaling complex with protein kinase C delta and tyrosine-phosphorylated Stat3

Our previous studies demonstrated that the IL-13-induced 15-lipoxygenase expression in primary human monocytes is regulated by the activation of both Stat1 and Stat3 and by protein kinase C (PKC)delta. IL-13 stimulated the phosphorylation of Stat3 on both Tyr705 and Ser727. In this study we show that IL-13 induces the association of PKCdelta with Stat3, not with Stat1, and is required for Stat3 Ser727 phosphorylation. We found a novel IL-13-dependent cytosolic signaling complex of PKCdelta and tyrosine-phosphorylated Stat3. A tyrosine kinase inhibitor blocked PKCdelta association with Stat3 as well as Stat3 Ser727 phosphorylation. We therefore hypothesized that tyrosine phosphorylation was required for Stat3 interaction with PKCdelta and subsequent PKCdelta-dependent phosphorylation of Stat3 Ser727. We developed an efficient transfection protocol for human monocytes. Expression of Stat3 containing a mutation in Tyr705 inhibited the association of PKCdelta with Stat3 and blocked Stat3 Ser727 phosphorylation, whereas transfection with wild-type Stat3 did not. Furthermore, by transfecting monocytes with Stat3 containing mutations in Tyr705 or Ser727 or with wild-type Stat3, we demonstrated that both Stat3 tyrosine and serine phosphorylations are required for optimal binding of Stat3 with DNA and maximal expression of 15-lipoxygenase, an important regulator of inflammation and apoptosis.     

Hck is a key regulator of gene expression in alternatively activated human monocytes

IL-13 is a Th2 cytokine that promotes alternative activation (M2 polarization) in primary human monocytes. Our studies have characterized the functional IL-13 receptor complex and the downstream signaling events in response to IL-13 stimulation in alternatively activated monocytes/macrophages. In this report, we present evidence that IL-13 induces the activation of a Src family tyrosine kinase, which is required for IL-13 induction of M2 gene expression, including 15-lipoxygenase (15-LO). Our data show that Src kinase activity regulates IL-13-induced p38 MAPK tyrosine phosphorylation via the upstream kinases MKK3 or MKK6. Our findings also reveal that the IL-13 receptor-associated tyrosine kinase Jak2 is required for the activation of both Src kinase as well as p38 MAPK. Further, we found that Src tyrosine kinase-mediated activation of p38 MAPK is required for Stat1 and Stat3 serine 727 phosphorylation in alternatively activated monocytes/macrophages. Additional studies identify Hck as the specific Src family member, stimulated by IL-13 and involved in regulating both p38 MAPK activation and p38 MAPK-mediated 15-LO expression. Finally we show that the Hck regulates the expression of other alternative state (M2)-specific genes (Mannose receptor, MAO-A, and CD36) and therefore conclude that Hck acts as a key regulator controlling gene expression in alternatively activated monocytes/macrophages.     

Hepatitis B virus X protein activates the p38 mitogen-activated protein kinase pathway in dedifferentiated hepatocytes

Hepatitis B virus X protein (pX) is implicated in hepatocarcinogenesis by an unknown mechanism. Employing a cellular model linked to pX-mediated transformation, we investigated the role of the previously reported Stat3 activation by pX in hepatocyte transformation. Our model is composed of a differentiated hepatocyte (AML12) 3pX-1 cell line that undergoes pX-dependent transformation and a dedifferentiated hepatocyte (AML12) 4pX-1 cell line that does not exhibit transformation by pX. We report that pX-dependent Stat3 activation occurs only in non-pX-transforming 4pX-1 cells and conclude that Stat3 activation is not linked to pX-mediated transformation. Maximum Stat3 transactivation requires Ser727 phosphorylation, mediated by mitogenic pathway activation. Employing dominant negative mutants and inhibitors of mitogenic pathways, we demonstrate that maximum, pX-dependent Stat3 transactivation is inhibited by the p38 mitogen-activated protein kinase (MAPK)-specific inhibitor SB 203580. Using transient-transreporter and in vitro kinase assays, we demonstrate for the first time that pX activates the p38 MAPK pathway only in 4pX-1 cells. pX-mediated Stat3 and p38 MAPK activation is Ca(2+) and c-Src dependent, in agreement with the established cellular action of pX. Importantly, pX-dependent activation of p38 MAPK inactivates Cdc25C by phosphorylation of Ser216, thus initiating activation of the G(2)/M checkpoint, resulting in 4pX-1 cell growth retardation. Interestingly, pX expression in the less differentiated hepatocyte 4pX-1 cells activates signaling pathways known to be active in regenerating hepatocytes. These results suggest that pX expression in the infected liver effects distinct mitogenic pathway activation in less differentiated versus differentiated hepatocytes.