EC:2.7.11.24 - FACTA Search

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Query: EC:2.7.11.24 (mitogen-activated protein kinase)
95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report that stromal cell-derived factor (SDF)-1 has the remarkable capacity to induce sustained signaling through CXC chemokine receptor 4 (CXCR4). In contrast to other chemokines, such as monocyte chemotactic protein 1 (CC chemokine receptor 2 [CCR2]), macrophage inflammatory protein 1beta (CCR5), liver and activation-regulated chemokine (LARC [CCR6]), Epstein-Barr virus-induced molecule 1 ligand chemokine (ELC [CCR7]), and IP10 (CXCR3), SDF-1 stimulates the prolonged activation of protein kinase B and extracellular signal-regulated kinase (ERK)-2. Activation of protein kinase B is reversed by displacement of SDF-1 from CXCR4 or inhibition of phosphatidylinositol 3-kinase. Although increasing concentrations of SDF-1 enhance CXCR4 internalization, kinase activation is prolonged. In addition, restimulation yields >60% of initial protein kinase B activity, indicating that the remaining receptors are not desensitized. Furthermore, activation is prolonged by inhibiting SDF-1 degradation. The sustained activation of cell survival and mitogenic pathways may account for the unique role of SDF-1 and CXCR4 in embryogenesis and lymphopoiesis.
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PMID:Signal transduction by CXC chemokine receptor 4. Stromal cell-derived factor 1 stimulates prolonged protein kinase B and extracellular signal-regulated kinase 2 activation in T lymphocytes. 1093 20

We studied the role of Rho kinase and extracellular signal-regulated kinase (ERK)-2 in the polarization and migration of T lymphocytes in response to the CCR7 ligands EBI1 ligand chemokine (ELC; CCL19) and secondary lymphoid-tissue chemokine (SLC; CCL21). Both Rho kinase protein isoforms are expressed in T lymphocytes. Inhibition of the Rho kinases with Y-27632 strongly inhibited SLC- and ELC-induced polarized morphology and chemotaxis of T lymphocytes. Although the chemokines induced ERK-2 activation, the blockade of this signaling pathway showed no effect on polarization and migration. This study indicates an important role of Rho kinase in CCR7-mediated polarization and migration of T lymphocytes, whereas ERK-2 is not involved in these processes.
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PMID:Rho kinase is required for CCR7-mediated polarization and chemotaxis of T lymphocytes. 1272 2

Epstein-Barr virus (EBV) latency III infection converts B lymphocytes into lymphoblastoid cell lines (LCLs) by expressing EBV nuclear and membrane proteins, EBNAs, and latent membrane proteins (LMPs), which regulate transcription through Notch and tumor necrosis factor receptor pathways. The role of NF-kappa B in LMP1 and overall EBV latency III transcriptional effects was investigated by treating LCLs with BAY11-7082 (BAY11). BAY11 rapidly and irreversibly inhibited NF-kappa B, decreased mitochondrial membrane potential, induced apoptosis, and altered LCL gene expression. BAY11 effects were similar to those of an NF-kappa B inhibitor, Delta N-I kappa B alpha, in effecting decreased JNK1 expression and in microarray analyses. More than 80% of array elements that decreased with Delta N-I kappa B alpha expression decreased with BAY11 treatment. Newly identified NF-kappa B-induced, LMP1-induced, and EBV-induced genes included pleckstrin, Jun-B, c-FLIP, CIP4, and I kappa B epsilon. Of 776 significantly changed array elements, 134 were fourfold upregulated in EBV latency III, and 74 were fourfold upregulated with LMP1 expression alone, whereas only 28 were more than fourfold downregulated by EBV latency III. EBV latency III-regulated gene products mediate cell migration (EBI2, CCR7, RGS1, RANTES, MIP1 alpha, MIP1 beta, CXCR5, and RGS13), antigen presentation (major histocompatibility complex proteins and JAW1), mitogen-activated protein kinase pathway (DUSP5 and p62Dok), and interferon (IFN) signaling (IFN-gamma R alpha, IRF-4, and STAT1). Comparison of EBV latency III LCL gene expression to immunoglobulin M (IgM)-stimulated B cells, germinal-center B cells, and germinal-center-derived lymphomas clustered LCLs with IgM-stimulated B cells separately from germinal-center cells or germinal-center lymphoma cells. Expression of IRF-2, AIM1, ASK1, SNF2L2, and components of IFN signaling pathways further distinguished EBV latency III-infected B cells from IgM-stimulated or germinal-center B cells.
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PMID:Role of NF-kappa B in cell survival and transcription of latent membrane protein 1-expressing or Epstein-Barr virus latency III-infected cells. 1504 27

Many members of the chemokine receptor family of G protein-coupled receptors utilize multiple endogenous ligands. However, differences between the signaling properties of multiple chemokines through a single receptor have yet to be well characterized. In this study we investigated the early signaling events of CCR7 initiated by its two endogenous ligands, CCL19 and CCL21. Both CCL19 and CCL21 induce G protein activation and calcium mobilization with equal potency. However, only activation by CCL19, not CCL21, promotes robust desensitization of endogenous CCR7 in the human T cell lymphoma cell line H9. Desensitization occurs through the induction of receptor phosphorylation and beta-arrestin recruitment (shown in HEK293 cells expressing CCR7-FLAG). The sites of CCL19-induced phosphorylation were mapped by mutating to alanines the serines and threonines found within kinase phosphorylation consensus sequences in the carboxyl terminus of CCR7. A cluster of sites, including Thr-373-376 and Ser-378 is important for CCL19-mediated phosphorylation of the receptor, whereas residues serine 356, 357, 364, and 365 are important for basal receptor phosphorylation by protein kinase C. Activation of CCR7 by both ligands leads to signaling to the ERK1/2 mitogen-activated protein kinase pathway. However, CCL19 promotes 4-fold more ERK1/2 phosphorylation than does CCL21. The mechanism by which CCL19 activates ERK1/2 was determined to be beta-arrestin-dependent, because it is reduced both by depletion of beta-arrestin-2 with small interfering RNA and by elimination of the phosphorylation sites in the tail of the receptor. Taken together, these findings demonstrate that CCL19 and CCL21 place CCR7 in functionally distinct conformations that are independent of their G protein-coupling potency: one that allows the efficient desensitization of the receptor and activation of ERK1/2, and another that is impaired in these functions.
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PMID:Differential desensitization, receptor phosphorylation, beta-arrestin recruitment, and ERK1/2 activation by the two endogenous ligands for the CC chemokine receptor 7. 1505 93

Acquisition of CCR7 expression is an important phenotype change during dendritic cell (DC) maturation that endows these cells with the capability to migrate to lymph nodes. We have analyzed the possible role of CCR7 on the regulation of the survival of DCs. Stimulation with CCR7 ligands CCL19 and CCL21 inhibits apoptotic hallmarks of serum-deprived DCs, including membrane phosphatidylserine exposure, loss of mitochondria membrane potential, increased membrane blebs, and nuclear changes. Both chemokines induced a rapid activation of phosphatidylinositol 3'-kinase/Akt1 (PI3K/Akt1), with a prolonged and persistent activation of Akt1. Interference with PI3K, Gi, or G protein betagamma subunits abrogated the effects of the chemokines on Akt1 activation and on survival. In contrast, inhibition of extracellular signal-related kinase 1/2 (Erk1/2), p38, or c-Jun N-terminal kinase (JNK) was ineffective. Nuclear factor-kappaB (NFkappaB) was involved in the antiapoptotic effects of chemokines because inhibition of NFkappaB blunted the effects of CCL19 and CCL21 on survival. Furthermore, chemokines induced down-regulation of the NFkappaB inhibitor IkappaB, an increase of NFkappaB DNA-binding capability, and translocation of the NFkappaB subunit p65 to the nucleus. In summary, in addition to its well-established role in chemotaxis, we show that CCR7 also induces antiapoptotic signaling in mature DCs.
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PMID:Chemokine receptor CCR7 induces intracellular signaling that inhibits apoptosis of mature dendritic cells. 1505 45

Dendritic cell (DC) migration from peripheral organs to lymph nodes plays a key role in initiating immune responses, whether migratory DCs bring antigen in tow to lymph nodes or position themselves to capture antigen that drains into the lymph node. CCR7 prominently controls DC migration into afferent lymphatic vessels and the positioning of DCs within the lymph node. Expression of CCR7 is not sufficient for function, as its function is positively regulated by a variety of other extracellular triggers. At least one of these triggers, synthesis and secretion of PGE(2), is brought on by the activation of p38 MAP kinase. The MAP kinase pathway has been well studied in DCs and exhibits a complex regulatory role in which the activation of different MAP kinase members leads to biologically distinct outcomes that are dependent upon stage of differentiation at the time of activation as well as the duration of signaling. Almost all of our knowledge of how DCs mature and ultimately mobilize to lymph nodes comes from studies in which DC migration is probed in the context of immune activation and priming. A reasonable body of evidence has gathered to suggest that many molecular events important for DC migration in this context do not affect accumulation of DCs in lymph nodes in the steady state, but mediators that interface with the signaling adaptor DAP-12 may play key roles in the steady state. It may thus become possible to devise approaches to modulate DC mobilization in the context of inflammation without affecting the traffic of DCs during more quiescent conditions. Considering the finely tuned regulation of DC maturation, migration, and cytokine production, with the realization that these phenotypes can be mutually exclusive, manipulation of DC migration in the clinic will be a challenging, albeit feasible, task.
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PMID:Factors and signals that govern the migration of dendritic cells via lymphatics: recent advances. 1533 91

From the site of transmission at mucosal surfaces, HIV is thought to be transported by DCs to lymphoid tissues. To initiate migration, HIV needs to activate DCs. This activation, reflected by intra- and extracellular changes in cell phenotype, is investigated in the present study. In two-thirds of the donors, R5- and X4-tropic HIV-1 strains induced partial up-regulation of DC activation markers such as CD83 and CD86. In addition, CCR7 expression was increased. HIV-1 initiated a transient phosphorylation of p44/p42 ERK1/2 in iDCs, whereas p38 MAPK was activated in both iDCs and mDCs. Up-regulation of CD83 and CD86 on DCs was blocked when cells were incubated with specific p38 MAPK inhibitors before HIV-1-addition. CCR7 expression induced by HIV-1 was sufficient to initiate migration of DCs in the presence of secondary lymphoid tissue chemokine (CCL21) and MIP-3beta (CCL19). Preincubation of DCs with a p38 MAPK inhibitor blocked CCR7-dependent DC migration. Migrating DCs were able to induce infection of autologous unstimulated PBLs in the Transwell system. These data indicate that HIV-1 triggers a cell-specific signaling machinery, thereby manipulating DCs to migrate along a chemokine gradient, which results in productive infection of nonstimulated CD4(+) cells.
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PMID:HIV-1-induced migration of monocyte-derived dendritic cells is associated with differential activation of MAPK pathways. 1558 76

After application of haptens to the skin, immature dendritic cells (DC), also named Langerhans cells (LC), come into a maturation process, which include disappearance of specific molecules such as E-cadherin and Langerin and the expression of new molecules such as CD83, CD86 and CCR7. The involvement of p38 MAPK in DC maturation induced by haptens and TNF-alpha has already been shown, however, the role of the other MAPK, ERK and JNK, is less described. In this study, we demonstrated on human CD34(+)-derived DC that the three MAPK are participating to the expression of CD83, CD86 and CCR7 induced by nickel (NiSO(4)) but not to the down-regulation of E-cadherin and Langerin. In contrast, following TNF-alpha stimulation, only p38 MAPK is involved in CD83 and CCR7 expressions and ERK inhibits DC maturation while JNK inhibition had no effect. Our results also suggest that activation of p38 MAPK by TNF-alpha could partially suppress ERK activation and abrogates the inhibitory effect of ERK on DC maturation. In summary, the three MAPK pathways regulate DC maturation induced by haptens while only p38 MAPK seems to play a key role after TNF-alpha addition.
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PMID:Implication of the MAPK pathways in the maturation of human dendritic cells induced by nickel and TNF-alpha. 1558 16

In this study, we show that IFNalpha increases the chemotaxis of human B cells to CCL20, CCL21 and CXCL12 in a dose- and time-dependent manner. The effect was maximal with 2000 IU ml(-1) IFNalpha. It peaked at 24 h and decreased thereafter. At 24 h, IFNalpha had increased B-cell chemotaxis to CCL20 by 20 +/- 6.2% (n = 9, P < 0.002), to CCL21 by 20 +/- 8.5% (n = 14, P < 0.0001) and to CXCL12 by 16.3 +/- 4.2% (n = 12, P < 0.003) without changing CCR6, CCR7 or CXCR4 expression. IFNalpha enhanced the migration of memory B cells to CCL20, CCL21 and CXCL12 2.6-fold more strongly than that of naive B cells. The triggering of chemokine receptors by their ligands resulted in the activation of phosphatidylinositide-3 kinase (PI3K)/protein kinase B (PKB), inhibitory NF-kappaB (IkappaBalpha) RhoA and extracellular signal-regulated protein kinase 1/2 (ERK1/2). All these effectors except ERK1/2 are crucial for B-cell chemotaxis. IFNalpha modulated the requirements for B-cell chemotaxis, which became dependent on ERK1/2, more dependent on PI3K, RhoA and nuclear factor-kappaB but less dependent on Gbetagamma and phospholipase C activation. IFNalpha also decreased ligand-induced chemokine receptor internalization in a manner dependent on PI3K/AKT and RhoA but not on IkappaBalpha and ERK1/2. Our data characterize chemokine receptor signaling in human B cells and clarify the relevance of downstream pathways in B-cell chemotaxis and chemokine receptor internalization. They also suggest that non-class I PI3K are involved in B-cell chemotaxis.
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PMID:IFN{alpha} enhances human B-cell chemotaxis by modulating ligand-induced chemokine receptor signaling and internalization. 1574 30

CCR7 is necessary to direct dendritic cells (DCs) to secondary lymphoid nodes and to elicit an adaptative immune response. Despite its importance, little is known about the molecular mechanisms used by CCR7 to direct DCs to lymph nodes. In addition to chemotaxis, CCR7 regulates the migratory speed of DCs. We investigated the intracellular pathways that regulate CCR7-dependent chemotaxis and migratory speed. We found that CCR7 induced a G(i)-dependent activation of MAPK members ERK1/2, JNK, and p38, with ERK1/2 and p38 controlling JNK. MAPK members regulated chemotaxis, but not the migratory speed, of DCs. CCR7 induced activation of PI3K/Akt; however, these enzymes did not regulate either chemotaxis or the speed of DCs. CCR7 also induced activation of the GTPase Rho, the tyrosine kinase Pyk2, and inactivation of cofilin. Pyk2 activation was independent of G(i) and Src and was dependent on Rho. Interference with Rho or Pyk2 inhibited cofilin inactivation and the migratory speed of DCs, but did not affect chemotaxis. Interference with Rho/Pyk2/cofilin inhibited DC migratory speed even in the absence of chemokines, suggesting that this module controls the speed of DCs and that CCR7, by activating its components, induces an increase in migratory speed. Therefore, CCR7 activates two independent signaling modules, one involving G(i) and a hierarchy of MAPK family members and another involving Rho/Pyk2/cofilin, which control, respectively, chemotaxis and the migratory speed of DCs. The use of independent signaling modules to control chemotaxis and speed can contribute to regulate the chemotactic effects of CCR7.
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PMID:The chemokine receptor CCR7 activates in dendritic cells two signaling modules that independently regulate chemotaxis and migratory speed. 1577 65

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