Overexpression of phospholipase D suppresses taxotere-induced cell death in stomach cancer cells

Phospholipase D (PLD) catalyzes the hydrolysis of phosphatidylcholine to generate phosphatidic acid (PA) and choline. There are at least two PLD isozymes, PLD1 and PLD2. Genetic and pharmacological approaches implicate both PLD isozymes in a diverse range of cellular processes, including receptor signaling, membrane transport control, and actin cytoskeleton reorganization. Several recent studies reported that PLD has a role in signaling pathways that oppose apoptosis and promote cell survival in cancer. In this study, we examined the role of PLD in taxotere-induced apoptosis in stomach cell lines; normal stomach (NSC) and stomach cancer cells (SNU 484). Taxotere treatment resulted in increase of PLD activity. To confirm the role of PLD in taxotere-induced apoptosis, PLDs were transfected into SNU 484 cells. Overexpression of PLD isozymes resulted in inhibition of taxotere-induced apoptotic cell death, evidenced by decreased degradation of chromosomal DNA, and increased cell viability. Concurrently, Bcl-2 expression was upregulated, and taxotere-induced activation of procaspase 3 was inhibited after PLD's transfection. However, when PLD was selectively inhibited by specific siRNA-PLD1 or -PLD2, taxotere-induced apoptosis was exacerbated in SNU 484 cells. On top of this, PA -- the product of PLDs, also resulted in upregulation of Bcl-2 in SNU 484. Although PA-induced Bcl-2 expression was blocked by mepacrine, an inhibitor of phospholipase A(2) (PLA(2)), increased Bcl-2 expression by PA was not abrogated by propranolol, an inhibitor of PA phospholyhydrolase (PAP). Taken together, PLD1 and PLD2 are closely related with Bcl-2 expression together with PLA(2), but not with PAP, during taxotere-induced apoptosis in SNU 484 cells.     

Overexpression of sTnC polypeptide in muscle cells is controlled by its rapid degradation

Neutrophil apoptosis is a constitutive process that can be enhanced or delayed by signals induced by various stimuli. We investigated the role of phospholipase D (PLD) in neutrophil apoptosis. The apoptotic rate of neutrophils was found to be increased by 1-butanol and decreased by the exogenous addition of PLD. Moreover, the delay of apoptosis by apoptosis-delaying stimuli such as granulocyte/macrophage colony-stimulating factor or lipopolysaccharide (LPS) was also blocked by 1-butanol. Unstimulated PLD activity in cultured cells for 20 h was higher than that in freshly isolated cells and further increased in cultured cells with LPS. These results suggest that PLD is involved in the up-regulation of neutrophil survival.     

Adenoviral Gene Transfer of PLD1-D4 Enhances Insulin Sensitivity in Mice by Disrupting Phospholipase D1 Interaction with PED/PEA-15

Over-expression of phosphoprotein enriched in diabetes/phosphoprotein enriched in astrocytes (PED/PEA-15) causes insulin resistance by interacting with the D4 domain of phospholipase D1 (PLD1). Indeed, the disruption of this association restores insulin sensitivity in cultured cells over-expressing PED/PEA-15. Whether the displacement of PLD1 from PED/PEA-15 improves insulin sensitivity in vivo has not been explored yet. In this work we show that treatment with a recombinant adenoviral vector containing the human D4 cDNA (Ad-D4) restores normal glucose homeostasis in transgenic mice overexpressing PED/PEA-15 (Tg _ped/pea-15) by improving both insulin sensitivity and secretion. In skeletal muscle of these mice, D4 over-expression inhibited PED/PEA-15-PLD1 interaction, decreased Protein Kinase C alpha activation and restored insulin induced Protein Kinase C zeta activation, leading to amelioration of insulin-dependent glucose uptake. Interestingly, Ad-D4 administration improved insulin sensitivity also in high-fat diet treated obese C57Bl/6 mice. We conclude that PED/PEA-15-PLD1 interaction may represent a novel target for interventions aiming at improving glucose tolerance.     

Mycobacterium tuberculosis promotes apoptosis in human neutrophils by activating caspase-3 and altering expression of Bax/Bcl-xL via an oxygen-dependent pathway

In addition to direct bactericidal activities, such as phagocytosis and generation of reactive oxygen species (ROS), neutrophils can regulate the inflammatory response by undergoing apoptosis. We found that infection of human neutrophils with Mycobacterium tuberculosis (Mtb) induced rapid cell death displaying the characteristic features of apoptosis such as morphologic changes, phosphatidylserine exposure, and DNA fragmentation. Both a virulent (H37Rv) and an attenuated (H37Ra) strain of Mtb were equally effective in inducing apoptosis. Pretreatment of neutrophils with antioxidants or an inhibitor of NADPH oxidase markedly blocked Mtb-induced apoptosis but did not affect spontaneous apoptosis. Activation of caspase-3 was evident in neutrophils undergoing spontaneous apoptosis, but it was markedly augmented and accelerated during Mtb-induced apoptosis. The Mtb-induced apoptosis was associated with a speedy and transient increase in expression of Bax protein, a proapoptotic member of the Bcl-2 family, and a more prominent reduction in expression of the antiapoptotic protein Bcl-x(L). Pretreatment with an inhibitor of NADPH oxidase distinctly suppressed the Mtb-stimulated activation of caspase-3 and alteration of Bax/Bcl-x(L) expression in neutrophils. These results indicate that infection with Mtb causes ROS-dependent alteration of Bax/Bcl-x(L) expression and activation of caspase-3, and thereby induces apoptosis in human neutrophils. Moreover, we found that phagocytosis of Mtb-induced apoptotic neutrophils markedly increased the production of proinflammatory cytokine TNF-alpha by human macrophages. Therefore, the ROS-dependent apoptosis in Mtb-stimulated neutrophils may represent an important host defense mechanism aimed at selective removal of infected cells at the inflamed site, which in turn aids the functional activities of local macrophages.     

Phospholipase D prevents apoptosis in v-Src-transformed rat fibroblasts and MDA-MB-231 breast cancer cells

Phospholipase D (PLD) activity is elevated in response to mitogenic and oncogenic signals. PLD also cooperates with overexpressed tyrosine kinases to transform rat fibroblasts. 3Y1 rat fibroblasts overexpressing the tyrosine kinase c-Src undergo apoptosis in response to serum withdrawal. We report here that elevated expression of either PLD1 or PLD2 in these cells prevents apoptosis induced by serum withdrawal. 3Y1 cells transformed by the activated tyrosine kinase v-Src have elevated PLD activity and are resistant to apoptosis induced by serum withdrawal. However, if PLD activity is blocked, the v-Src-transformed cells underwent apoptosis. MDA-MB-231 cells are a human breast cancer cell line with substantially elevated levels of PLD activity. Inhibiting PLD activity in these cells similarly rendered them sensitive to the apoptotic insult of serum withdrawal. These data indicate that elevated PLD activity generates a survival signal(s) allowing cells to overcome default apoptosis programs.     

重组人骨形态发生蛋白2在CHO细胞中的表达、鉴定及活性分析

构建真核表达载体pCDNA3.1( )-hBMP-2,与质粒pSV2-dhfr共转染CHO-dhfr-细胞,以含有700μg/mLG418的IMDM进行选择性培养,筛选抗性克隆,并用MTX扩增,提高rhBMP-2的表达量。收集的rhBMP-2蛋白进行Westernblot检测,还原蛋白样品电泳产生一条大小约为18kD的特异性条带,非还原蛋白样品电泳产生一条大小约为30kD的特异性条带,提示表达的rhBMP-2是经过糖基化修饰的,且以同源二聚体形式分泌表达。单细胞分离培养得到14株rCHO(hBMP-2)单克隆细胞株,ELISA法检测rhBMP-2表达水平,最高可达7.83μg/24h/106cells。活性分析结果表明,表达的rhBMP-2具有很强的生物学活性。     

磷酸钙纳米介导自杀基因载体的构建及其应用研究

构建由CEA启动子、CMV增强子驱动的融合自杀基因PCDNA3.1(-)CVyCDglyTK表达载体和分别由CEA启动子和巨细胞病毒(CMV)增强子驱动的融合自杀基因PCDNA3.1(-)CEAyCDglyTK、PCDNA3.1(-)CMVyCDglyTK表达栽体.以磷酸钙纳米为载体分别转染CEA阳性的人结肠癌细胞株LOVO细胞和CEA阴性的HeLa细胞,Lovo细胞在感染以上3种质粒表达栽体后均有yCDglyTK mRNA表达,且对5-FC的敏感性明显增强:HeLa细胞在纳米PCDNA3.1(-)CMVyCDglyTK复合物感染后有yCDglyTK mRNA表达,对5-FC的敏感性增强,而在另外两种复合物感染后则没有yCDglyTK mRNA表达,5-Fc对其亦无杀伤作用,结果表明靶向性基因治疗栽体能使融合自杀基因在CEA阳性细胞中专一性表达,达到靶向治疗肿瘤的目的.     

Receptor-activated phospholipase D is present in caveolin-3-enriched light membranes of C2C12 myotubes

Caveolin-3 (cav-3) is a key structural component of caveolar membrane in skeletal muscle. Cav-3-enriched light membrane (CELM) fractions obtained from C2C12 myotubes contain phospholipase D1 (PLD1) and its major regulators, RhoA and protein kinase Calpha (PKCalpha). All these proteins were found bound to cav-3. An in vivo assay of PLD activity, which allows to localize the reaction product in CELMs, indicated that the enzyme associated to this membrane microdomain was active. Moreover, bradykinin (BK), thrombin and phorbol 12-myristate 13-acetate induced rapid stimulation of PLD activity in CELMs. The cav-3-PLD1 complex was not affected by BK treatment, whereas the agonist induced a marked increase of RhoA association with cav-3. Furthermore, BK-induced PLD activation in CELMs was dependent, at least in part, on PKCalpha.     

Granulocyte-macrophage colony-stimulating factor primes phospholipase D activity in human neutrophils in vitro: role of calcium, G-proteins and tyrosine kinases.

The addition of granulocyte-macrophage colony-stimulating factor (GM-CSF) to human peripheral blood neutrophils primes phospholipase D (PLD) to subsequent stimulation by N-formyl-methionyl-leucyl-phenylalanine (fMLP) or phorbol myristate acetate (PMA). The present investigation was directed at the elucidation of the pathway(s) involved in the regulation of the activity of PLD in untreated as well as in GM-CSF-primed neutrophils. Pretreatment with pertussis toxin (PT) totally inhibited fMLP-induced activation of PLD in control or GM-CSF-treated cells. PT did not affect the activation of PLD by PMA but inhibited the priming effect of GM-CSF. Activation of PLD by fMLP was dose-dependently inhibited by erbstatin, an inhibitor of tyrosine kinases. Furthermore, pre-incubation with GM-CSF accelerated the tyrosine phosphorylation response to fMLP (as analysed by protein immunoblot with antiphosphotyrosine antibodies). In PMA-stimulated neutrophils, erbstatin antagonized the priming effect of GM-CSF on PLD without affecting the direct effects of the phorbol ester. Buffering cytoplasmic calcium with the chelator BAPTA inhibited fMLP-induced activation of PLD as monitored by the formation of phosphatidylethanol. The stimulation of PLD by PMA was partially attenuated in BAPTA-loaded cells while the priming effect of GM-CSF was abolished. Thus, priming of human neutrophil PLD by GM-CSF may be mediated by G-proteins, by increases in the levels of cytosolic free calcium, and by stimulation of protein kinase C and/or tyrosine kinase(s).     

一种在哺乳动物细胞中研究蛋白分子转录激活活性系统的建立

为了在哺乳动物细胞中建立一套用于研究蛋白分子转录激活活性的系统,首先以质粒pTe-Off和真核表达载体pCDNA3.1B(-)/myc-his为基础,分别构建重组质粒pZHO1(用于插入待测基因并作为该系统的阴性对照）,pZHO2（用于作阳性对照）,此外,该系统还包括质粒pTRE-luc(编码Firefly荧光素酶报道基因）和质粒pRL-TK(编码Renilla荧光素酶基因,用作内参对照）,为验证该系统的可行性,分别将质粒pZHO1,pZHO2,pZHO3(编码p53分子N端转灵激活区73个氨基酸片段,作为实验组）与质粒pTRE-luc和pRL-TK共轨染至C4－2,MCF－7,COS7 3种不同的细胞株中,通过检测各转染组细胞中Firefly荧光素酶相对活性的大小来判断该系统的可行性,结果表明,所构建的系统可以在哺乳动物细胞中检测目的分子的转录激活活性。     

Downregulation of phospholipase D by protein kinase A in a cell-free system of human neutrophils

Agents which elevate cellular cAMP are known to inhibit the activation of phospholipase D (PLD) in human neutrophils. The PLD activity of human neutrophils requires protein factors in both membrane and cytosolic fractions. We have studied the regulation of PLD by the catalytic subunit of protein kinase A (cPKA) in a cell-free system. cPKA significantly inhibited GTPgammaS-stimulated PLD activity but had no effect on phorbol ester-activated PLD activity. Pretreatment of plasma membranes with cPKA and ATP inhibited subsequent PLD activation upon reconstitution with untreated cytosol. RhoA, which is known to be a plasma membrane activator of PLD, was dissociated from PKA-treated plasma membrane by addition of cytosol. Plasma membrane-associated RhoA in human neutrophils was phosphorylated by cPKA. The PKA-phosphorylated form of RhoA was more easily extracted from membranes by RhoGDI than the unphosphorylated form. These results suggest that inhibition of neutrophil PLD by PKA may be due to phosphorylation of RhoA on the plasma membrane.     

乙肝病毒MHBst/HBx蛋白对Galβ1,3GalNAcα2,3-唾液酸转移酶的反式激活作用

PCR方法扩增乙肝病毒MHBs^t,HBx基因片段,构建真核表达载体pcDNA3.1-MHBs^t和pcDNA3.1-HBx。PCR方法从肝细胞基因组中扩增出Galβ1,3GalNAcα2,3-唾液酸转移酶（ST3Gall)启动子Psil,用Psial取代pEGFPN1的启动子pCMV构建pEGFP-N1-Psial。利用磷酸钙－DNA共沉淀的方法,将pcDNA3.1-MHBs^t,pcDNA3.1-HBx分别与pEGFP-N1-Psial瞬时共转染至正常肝细胞QGY－7701。流式细胞仪分析细胞平均荧光密度值发现MHBs^t,HBx分别将ST3Gall启动子的活性上调了35．2％和43．8％。研究了乙肝病毒MHBs^t,HBx对ST43Gall的转录调控作用,对于揭示乙肝病毒感染与唾液酸转移酶之间的关系做了非常有益的探索。     

Calpain-1 regulates Bax and subsequent Smac-dependent caspase-3 activation in neutrophil apoptosis

In the absence and in the resolution of inflammatory responses, neutrophils rapidly undergo spontaneous apoptosis. Here we report about a new apoptosis pathway in these cells that requires calpain-1 activation and is essential for the enzymatic activation of the critical effector caspase-3. Decreased levels of calpastatin, a highly specific intrinsic inhibitor of calpain, resulted in activation of calpain-1, but not calpain-2, in neutrophils undergoing apoptosis, a process that was blocked by a specific calpain-1 inhibitor or by intracellular delivery of a calpastatin peptide. Further support for the importance of the calpastatin-calpain system was obtained by analyzing neutrophils from patients with cystic fibrosis that exhibited delayed apoptosis, associated with markedly increased calpastatin and decreased calpain-1 protein levels compared with neutrophils from control individuals. Additional studies were designed to place calpain-1 into the hierarchy of biochemical events leading to neutrophil apoptosis. Pharmacological calpain inhibition during spontaneous and Fas receptor-induced neutrophil apoptosis prevented cleavage of Bax into an 18-kDa fragment unable to interact with Bcl-xL. Moreover, calpain blocking prevented the mitochondrial release of cytochrome c and Smac, which was indispensable for caspase-3 processing and enzymatic activation, both in the presence and absence of agonistic anti-Fas receptor antibodies. Taken together, calpastatin and calpain-1 represent critical proximal elements in a cascade of pro-apoptotic events leading to Bax, mitochondria, and caspase-3 activation, and their altered expression appears to influence the life span of neutrophils under pathologic conditions.     

鼠源原蛋白转化酶2基因的构建及其表达

目的:蛋白转化酶PC2在神经内分泌肽的成熟过程中起到了非常重要的作用,为了研究鼠肿瘤膜型中pc2基因对乳腺癌生长转移的影响,重组并构建了鼠源pc2基因.方法:提取大鼠脑垂体总RNA,通过RT-PCR方法克隆并扩增了鼠源pc2的cDNA.将pc2基因的cDNA插入pCDNA3.1/Zeo载体构建成pCDNA3.1-pc2重组载体.通过pCDNA3.1-pc2或和它的分子伴侣基因7b2的共表达,pc2基因成功地在乳腺癌4T1细胞株中表达和活化.结论:通过测序、转染、Western blot分析和活性测定等证实pc2被插入载体并在哺乳动物细胞中成功表达.     

Effect of pro-inflammatory cytokines on spontaneous apoptosis in leukocyte sub-sets within a whole blood culture

Pro-inflammatory cytokines are known to affect apoptosis in human peripheral blood cells. Neutrophils, which are an essential component of the immune response and usually undergo apoptosis rapidly, are greatly affected by these cytokines. In this study, the effect of varying concentrations of TNF-alpha, IL-1beta and IL-6 on the apoptotic response of leukocytes and their sub-sets in cultured whole blood were studied over a 48 h culture period. At clinically relevant concentrations, it was found that these pro-inflammatory cytokines reduced the amount of spontaneous apoptosis in neutrophils in culture, but had little effect on the lymphocyte population. Distinct differences in the sensitivity of neutrophils to cytokine-mediated protection against spontaneous apoptosis were apparent when compared to previous studies conducted using purified or enriched neutrophil cultures. IL-1beta, at a dose of 0.01 pg/mL, was observed to significantly inhibit spontaneous neutrophil apoptosis by approximately 90% and 65% at 24 and 48 h of culturing, respectively. This concentration used in whole blood is dramatically lower than that required to elicit similar protection in neutrophil-enriched cell cultures. Higher concentrations of TNF-alpha (1.0 pg/mL) and IL-6 (125 pg/mL) were also found to significantly inhibit neutrophil apoptosis, at levels much lower than previously published using neutrophil-enriched cultures. Furthermore, each cytokine displayed a unique signature with respect to the optimal applied doses required to elicit maximal protection against spontaneous neutrophil apoptosis. These results demonstrate the dramatic differences in cellular responses that exist between neutrophil-enriched cultures and whole blood culture systems, where multiple blood cell types provide a much more complex environment.     

Construction of a full-length iASPP expression plasmid pcDNA3.1(+)/iASPP and its biological activity

In order to obtain a full-length expression plasmid for the p53 inhibitor protein, iASPP, fractional amplification was used to clone its full-length coding sequence (CDS) region. The amplified PCR product was then digested and inserted into the pMD19-T simple vector and subcloned into the pCDNA3.1(+) vector. A recombinant eukaryotic expression vector containing the complete CDS region of iASPP was successfully constructed. pcDNA3.1(+)/iASPP was able to express iASPP protein in an in vitro translation system and in cells. Its biological activity was verified using Western blotting, immunoprecipitation and cell apoptosis analysis. This successful preparation of a full-length iASPP expression plasmid lays the foundations for further studies on the function of iASPP.     

Mechanisms involved in spontaneous and Viscum album agglutinin-I-induced human neutrophil apoptosis: Viscum album agglutinin-I accelerates the loss of antiapoptotic Mcl-1 expression and the degradation of cytoskeletal paxillin and vimentin proteins via caspases.

Viscum album agglutinin-I (VAA-I) is a plant lectin that possesses interesting potential therapeutic properties and immunomodulatory activities. We have recently found that VAA-I is a potent inducer of human neutrophil apoptosis, but the mechanism(s) involved require further elucidation. In this study, we found that VAA-I alters mitochondrial transmembrane potential and increases intracellular levels of reactive oxygen species (ROS). Despite these observations, treatment with the mitochondrial stabilizer, bongkrekic acid, or with catalase, known to degrade H(2)O(2), fails to reverse VAA-I-induced apoptosis. Moreover, VAA-I was found to induce apoptosis in PLB-985 cells deficient in gp91(phox), indicating that the lectin acts via an ROS-independent mechanism. Pretreatment of neutrophils with brefeldin A, an inhibitor of vesicular transport, was found to reverse VAA-I-induced apoptosis. Protein expression of Mcl-1 was decreased by VAA-I. The role of caspases in the degradation of cytoskeletal proteins during both spontaneous and VAA-I-induced neutrophil apoptosis was also investigated. Paxillin and vimentin were markedly degraded by VAA-I when compared with neutrophils that undergo spontaneous apoptosis, but not vinculin or alpha- and beta-tubulin. Caspases were involved in cytoskeletal protein degradation because preincubation with the pan-caspase inhibitor N-benzyloxycarbonyl-V-A-D-O-methylfluoromethyl ketone was found to reverse protein cleavage. We conclude that VAA-I needs to be internalized to mediate apoptosis and that its activity is not dependent on a cell surface receptor-mediated pathway. Also, we conclude that VAA-I induces apoptosis by ROS-independent and Mcl-1-dependent mechanisms and that caspases are involved in cytoskeletal protein degradation in both spontaneous and VAA-I-induced neutrophil apoptosis.