Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.1 (ERK)
 95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CXC chemokine receptor 4 (CXCR4), initially linked with leukocyte trafficking, is now known to be expressed in various tumors including breast, ovary, prostate, gastrointestinal, head and neck, bladder, brain, and melanoma. This receptor mediates homing of tumor cells to specific organs that express the ligand CXCL12 for this receptor. Thus, agents that can down-regulate CXCR4 expression have potential against cancer metastasis. In this study, we report the identification of zerumbone, a component of subtropical ginger (Zingiber zerumbet), as a regulator of CXCR4 expression. This sesquiterpene down-regulated the expression of CXCR4 on HER2-overexpressing breast cancer cells in a dose- and time-dependent manner. The decrease in CXCR4 by zerumbone was found to be not cell type specific as its expression was abrogated in leukemic, skin, kidney, lung, and pancreatic cancer cell lines. The down-regulation of CXCR4 was not due to proteolytic degradation but rather to transcriptional regulation, as indicated by down-regulation of mRNA expression, inhibition of nuclear factor-kappaB activity, and suppression of chromatin immunoprecipitation activity. Suppression of CXCR4 expression by zerumbone correlated with the inhibition of CXCL12-induced invasion of both breast and pancreatic cancer cells. An analogue of zerumbone, alpha-humulene, which lacks the carbonyl group, was found to be inactive in inducing CXCR4 down-regulation. Overall, our results show that zerumbone is a novel inhibitor of CXCR4 expression and thus has a potential in the suppression of cancer metastasis.
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PMID:Zerumbone down-regulates chemokine receptor CXCR4 expression leading to inhibition of CXCL12-induced invasion of breast and pancreatic tumor cells. 1897 38

Exposure to ionizing radiation is a well-known risk factor for a number of human cancers, including leukemia and thyroid cancer. It has been known for a long time that exposure of cells to radiation results in extensive DNA damage; however, a small number of studies have tried to explain the mechanisms of radiation-induced carcinogenesis. The high prevalence of RET/PTC rearrangements in patients who have received external radiation, and the evidence of in vitro induction of RET rearrangements in human cells, suggest an enhanced sensitivity of the RET genomic region to damage by ionizing radiation. To assess whether RET is indeed more sensitive to radiations than other genomic regions, we used a COMET assay coupled with fluorescence in situ hybridization, which allows the measurement of DNA fragmentation in defined genomic regions of single cells. We compared the initial DNA damage of the genomic regions of RET, CXCL12/SDF1, ABL, MYC, PLA2G2A, p53, and JAK2 induced by ionizing radiation in both a lymphoblastoid and a fetal thyroid cell line. In both cell lines, RET fragmentation was significantly higher than in other genomic regions. Moreover, a differential distribution of signals within the COMET was associated with a higher percentage of RET fragments in the tail. RET was more susceptible to fragmentation in the thyroid-derived cells than in lymphoblasts. This enhanced susceptibility of RET to ionizing radiation suggests the possibility of using it as a radiation exposure marker.
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PMID:Enhanced sensitivity of the RET proto-oncogene to ionizing radiation in vitro. 1897 43

The chemokine receptor CXCR4 plays important roles in the immune and nervous systems. Abnormal expression of CXCR4 contributes to cancer and inflammatory and neurodegenerative disorders. Although ligand-dependent CXCR4 ubiquitination is known to accelerate CXCR4 degradation, little is known about counter mechanisms for receptor deubiquitination. CXCL12, a CXCR4 agonist, induces a time-dependent association of USP14 with CXCR4, or its C terminus, that is not mimicked by USP2A, USP4, or USP7, other members of the deubiquitination catalytic family. Co-localization of CXCR4 and USP14 also is time-dependent following CXCL12 stimulation. The physical interaction of CXCR4 and USP14 is paralleled by USP14-catalyzed deubiquitination of the receptor; knockdown of endogenous USP14 by RNA interference (RNAi) blocks CXCR4 deubiquitination, whereas overexpression of USP14 promotes CXCR4 deubiquitination. We also observed that ubiquitination of CXCR4 facilitated receptor degradation, whereas overexpression of USP14 or RNAi-induced knockdown of USP14 blocked CXCL12-mediated CXCR4 degradation. Most interestingly, CXCR4-mediated chemotactic cell migration was blocked by either overexpression or RNAi-mediated knockdown of USP14, implying that a CXCR4-ubiquitin cycle on the receptor, rather than a particular ubiquitinated state of the receptor, is critical for the ligand gradient sensing and directed motility required for chemokine-mediated chemotaxis. Our observation that a mutant of CXCR4, HA-3K/R CXCR4, which cannot be ubiquitinated and does not mediate a chemotactic response to CXCL12, indicates the importance of this covalent modification not only in marking receptors for degradation but also for permitting CXCR4-mediated signaling. Finally, the indistinguishable activation of ERK by wild typeor 3K/R-CXCR4 suggests that chemotaxis in response to CXCL12 may be independent of the ERK cascade.
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PMID:Deubiquitination of CXCR4 by USP14 is critical for both CXCL12-induced CXCR4 degradation and chemotaxis but not ERK ativation. 1910 94

Posttranslational proteolytic processing of chemokines is a natural mechanism to regulate inflammation. In this study, we describe modification of the CXC chemokine stromal cell-derived factor 1alpha/CXCL12 by peptidylarginine deiminase (PAD) that converts arginine residues into citrulline (Cit), thereby reducing the number of positive charges. The three NH(2)-terminal arginines of CXCL12, Arg(8), Arg(12), and Arg(20), were citrullinated upon incubation with PAD. The physiologic relevance of citrullination was demonstrated by showing coexpression of CXCL12 and PAD in Crohn's disease. Three CXCL12 isoforms were synthesized for biologic characterization: CXCL12-1Cit, CXCL12-3Cit, and CXCL12-5Cit, in which Arg(8), Arg(8)/Arg(12)/Arg(20), or all five arginines were citrullinated, respectively. Replacement of only Arg(8) caused already impaired (30-fold reduction) CXCR4 binding and signaling (calcium mobilization, phosphorylation of ERK and protein kinase B) properties. Interaction with CXCR4 was completely abolished for CXCL12-3Cit and CXCL12-5Cit. However, the CXCR7-binding capacities of CXCL12-1Cit and CXCL12-3Cit were, respectively, intact and reduced, whereas CXCL12-5Cit failed to bind CXCR7. In chemotaxis assays with lymphocytes and monocytes, CXCL12-3Cit and CXCL12-5Cit were completely devoid of activity, whereas CXCL12-1Cit, albeit at higher concentrations than CXCL12, induced migration. The antiviral potency of CXCL12-1Cit was reduced compared with CXCL12 and CXCL12-3Cit and CXCL12-5Cit (maximal dose 200 nM) could not inhibit infection of lymphocytic MT-4 cells with the HIV-1 strains NL4.3 and HE. In conclusion, modification of CXCL12 by one Cit severely impaired the CXCR4-mediated biologic effects of this chemokine and maximally citrullinated CXCL12 was inactive. Therefore, PAD is a potent physiologic down-regulator of CXCL12 function.
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PMID:Citrullination of CXCL12 differentially reduces CXCR4 and CXCR7 binding with loss of inflammatory and anti-HIV-1 activity via CXCR4. 1910

A number of chemokines, including CCL21, CCL19, CXCL12, and CXCL13, are coexpressed on the lumen or basal lamina of high endothelial venules (HEVs) in lymph nodes (LNs) and Peyer's patches (PPs), consistent with the idea that they might cooperate to regulate lymphocyte trafficking into these lymphoid tissues. In this study we report that CXCL12, acting through its receptor, CXCR4, cooperates with CCR7 ligands to promote T cell trafficking across HEVs. CXCL12 enhanced the CCR7-induced chemotaxis of wild-type but not CXCR4-deficient T cells in vitro at suboptimal concentrations of a CCR7 ligand, but without affecting the expression level or ligand-binding ability of CCR7. Real-time chemotaxis analysis showed that CXCL12 substantially shortened the lag time before cell migration began in vitro, but not the migration speed of T cells responding to suboptimal CCR7 ligand concentrations. In addition, CXCL12 augmented the CCR7 ligand-driven ERK phosphorylation and actin polymerization in T cells under the same conditions. In adoptive transfer experiments, CXCL12 promoted naive T cell trafficking to LNs and PPs in wild-type but not CCR7 ligand-deficient plt/plt recipient mice; this increased T cell trafficking was associated with enhanced binding of the T cells to HEVs and their subsequent migration into the LN parenchyma. Thus, CXCL12 synergizes with CCR7 ligands to promote T cell migration by sensitizing T cells through CXCR4, thus enabling them to respond to lower concentrations of CCR7 ligands. Such concerted action of chemokines provides an additional, previously unknown mechanism for efficient lymphocyte trafficking across HEVs into LNs and PPs.
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PMID:CXC chemokine ligand 12 promotes CCR7-dependent naive T cell trafficking to lymph nodes and Peyer's patches. 1915 74

Stromal cell-derived factor-1 (SDF-1), also known as CXCL12, and its receptor CXC chemokine receptor 4 (CXCR4) express in various kinds of cells in central nervous system. The SDF-1/CXCR4 signaling pathway is regulated by diverse biological effects. SDF-1 is up-regulated in the ischemic penumbra following stroke and has been known to be associated with the homing of bone marrow cells to injury. However, the effect of SDF-1alpha/CXCR4 on cytokine production in microglia is mostly unknown. Here, we demonstrated that SDF-1alpha enhanced IL-6 production in both primary cultured microglia and BV-2 microglia. We further investigated the signaling pathway involved in IL-6 production stimulated by SDF-1alpha in microglia. SDF-1alpha increased IL-6 production in both protein and mRNA levels. These effects were attenuated by ERK, phosphatidylinositol 3-kinase (PI3K), NF-kappaB inhibitors, and IkappaB protease inhibitor. Stimulation of microglia with SDF-1alpha also increased Akt and ERK1/2 phosphorylation. In addition, SDF-1alpha treatment also increased IkappaB kinase alpha/beta (IKK alpha/beta) phosphorylation, IkappaBalpha phosphorylation, IkappaBalpha degradation, p65 phosphorylation at Ser(276), translocation of p65 and p50 from cytosol to nucleus and kappaB-luciferase activity. Moreover, SDF-1alpha-mediated increase of kappaB-luciferase activity was inhibited by pre-transfection of DN-p85, DN-Akt or DN-ERK2. Increase of IKK alpha/beta phosphorylation and binding of p65 and p50 to the NF-kappaB element were both antagonized by PI3K and ERK inhibitors. Our results demonstrate a mechanism linking SDF-1alpha and IL-6, and provide additional support for the notion that SDF-1alpha plays a regulatory role in microglia activation.
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PMID:SDF-1alpha up-regulates interleukin-6 through CXCR4, PI3K/Akt, ERK, and NF-kappaB-dependent pathway in microglia. 1928 61

An important step in the process of metastasis from the primary tumor is invasive spread into the surrounding stroma. Using an in vivo invasion assay, we have previously shown that imposed gradients of epidermal growth factor (EGF) or colony-stimulating factor-1 (CSF-1) can induce invasion through an EGF/CSF-1 paracrine loop between cancer cells and macrophages. We now report that invasion induced by other ligands also relies on this EGF/CSF-1 paracrine invasive loop. Using an in vivo invasion assay, we show that MTLn3 breast cancer cells overexpressing ErbB3 exhibit enhanced invasion compared with control MTLn3 cells in response to the ErbB3 ligand HRG-beta1. The invasive response of both MTLn3-ErbB3 and transgenic MMTV-Neu tumors to HRG-beta1 is inhibited by blocking EGF receptor, CSF-1 receptor, or macrophage function, indicating that invasiveness to HRG-beta1 is dependent on the EGF/CSF-1 paracrine loop. Furthermore, we show that CXCL12 also triggers in vivo invasion of transgenic MMTV-PyMT tumors in an EGF/CSF-1-dependent manner. Although the invasion induced by HRG-beta1 or CXCL12 is dependent on the EGF/CSF-1 paracrine loop, invasion induced by EGF is not dependent on HRG-beta1 or CXCL12 signaling, showing an asymmetrical relationship between different ligand/receptor systems in driving invasion. Our results identify a stromal/tumor interaction that acts as an engine underlying invasion induced by multiple ligands.
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PMID:The EGF/CSF-1 paracrine invasion loop can be triggered by heregulin beta1 and CXCL12. 1929 85

Ets-related molecule (Erm) is a member of the Ets transcription factor family. Erm is known to be an important factor for the self-renewal of Spermatogonial stem cells (SSCs) and the maintenance of spermatogenesis. We investigated the molecular mechanism of Erm regulation on SDF-1 in TM4 Sertoli cells. Erm and Sdf-1 levels were up-regulated after FGF2 treatment in TM4 cells, whereas these levels were significantly decreased by FGF2 in ST2 bone marrow stromal cells. Knockdown of Erm by siRNA in the presence of FGF2 decreased the Sdf-1 levels in TM4 cells. The expression levels of Erm were similar and Erm overexpression increased the Sdf-1 in both TM4 and ST2 cells. FGFR subtype analysis revealed that FGFR4 was expressed in TM4 cells but not in ST2 cells. A blocking experiment also confirmed that FGFR4 is partly responsible for the up-regulation of Erm and SDF-1 induced by FGF2 stimulation in TM4 cells. FGF2 and ERM increased the activity of Sdf-1 gene promoter region in a dose-dependent manner. EMSA revealed that ERM strongly binds to the -846 to -851 nucleotide region of the potential Ets binding site (EBS) in the Sdf-1 promoter. In addition, CXCR4, the SDF-1 receptor, was expressed in spermatogonia and Sertoli cells in the seminiferous tubules of the mouse testis. Our results indicate that ERM directly regulates Sdf-1 gene expression by interacting with its cis-acting element in response to FGF2 stimulation in TM4 cells.
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PMID:FGF2 stimulates SDF-1 expression through the Erm transcription factor in Sertoli cells. 1930 Dec 56

The chemokine receptor CXCR4 is widely expressed in human cancers and regulates cell invasion, proliferation and survival. Because mutations in the CXCR4 gene could regulate its function we sequenced the coding region of the CXCR4 gene in 18 human melanoma and 3 human colon carcinoma cell lines. The same somatic point mutation (G574A; V160I) in the fourth transmembrane region of CXCR4 was detected in one colon cancer cell line (PD) and one melanoma cell line (LB). CXCR4 was expressed and functional in both PD and LB cells, PD and LB cells migrated specifically toward the receptor ligand, CXCL12 and P-Erk was specifically induced by CXCL12. To give insight into the function of the mutant CXCR4 receptor, human A431, epidermoid carcinoma cells, were stably transfected with both mutant and wild type CXCR4. In vitro, A431 cells harboring CXCR4(G574A) migrated specifically toward CXCL12 and CXCL12 induced ERK phosphorylation. Interestingly, in vivo studies showed that the growth of A431 tumors harboring CXCR4(G574A) was delayed compared to those harboring WT CXCR4. As expected, treatment with AMD3100, a specific CXCR4 inhibitor, reduced the in vivo growth of CXCR4(G574A) tumor b(G574A) but surprisingly, increased the growth of CXCR4(G574A) A431 cells. This is the first report of a spontaneously occurring, functionally active CXCR4 mutation in human cancer cells. While the mutation impairs cell growth in vivo, the CXCR4 inhibitor, AMD3100, stimulated the growth of cells harboring CXCR4(G574A).
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PMID:A point mutation (G574A) in the chemokine receptor CXCR4 detected in human cancer cells enhances migration. 1930 48

Recent studies have demonstrated that the chemokine receptor CXCR4 plays a crucial role in organ-specific metastasis formation. Although a variety of studies showed the expression of chemokine receptors, in particular, CXCR4, by gastrointestinal tumors, the precise mechanisms of chemokine receptor-mediated homing of cancer cells to specific sites of metastasis remained elusive. Here, we used liver metastatic human HEP-G2 hepatoma and HT-29LMM colon cancer cells expressing functional CXCR4 to dissect the metastatic cascade by intravital fluorescence microscopy. Immunohistochemistry revealed that the CXCR4 ligand CXCL12 is expressed by endothelial cells and likely Kupffer cells lining the liver sinusoids. Tumor cell adhesion and extravasation in vivo was quantitatively analyzed using intravital fluorescence microscopy. Treatment of cells with an anti-CXCR4 antibody did not affect cell adhesion but significantly impaired tumor cell extravasation (HEP-G2; isotype control: 22.3% +/- 4.3% vs anti-CXCR4: 6.0% +/- 5.0%, P < .001). In addition, pretreatment of tumor cells with the ligand CXCL12 enhanced the activation of the small GTPases Rho, Rac, and cdc42 as well as tumor cell extravasation without affecting tumor cell adhesion within liver sinusoids. Taken together, the findings of the present study provide first in vivo insights into the early events of chemokine ligand/receptor-mediated liver metastasis formation of tumor cells and define tumor cell extravasation rather than tumor cell arrest as the rate-limiting event.
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PMID:CXCR4 regulates the early extravasation of metastatic tumor cells in vivo. 1956 10


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