EC:2.7.10.1 - FACTA Search

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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)

c-erbB receptor signalling induces pleiotropic responses and influences several biological functions involved in the pathogenesis and progression of HNSCC. Aberrant expression of multiple c-erbB receptors and ligands is frequently observed in tumour cells. EGFR appears to be a dominant factor controlling the malignant phenotype in HNSCC at least in part via regulation of molecules involved in invasive and angio-/lymphangiogenic processes. Although c-erbB-2 is an orphan receptor, the formation of heterodimer complexes appears to be an important mechanism for inter-receptor activation and synergistic signal transduction. The roles of c-erbB-3 and c-erbB-4 in HNSCC progression are less clear. However, their ability to form heterodimers with other c-erbB family members enhances proliferation and invasion in HNSCC cells. At least two major downstream signalling pathways, MAPK and PI3K, are involved in the transcriptional regulation of proteases and cytokines implicated in invasion and angiogenesis. Studies using clinical specimens confirmed experimental data that co-operative signalling of c-erbB receptors may play a significant role in the pathogenesis of HNSCC. Most therapeutic studies in HNSCC so far have focused on the strategies targeting of EGFR. Due to the complexity of the system both at the receptor and ligand levels and the integrated biological functions of the c-erbB family in HNSCC, the effect of combined c-erbB blockade (or their downstream signalling pathways) on HNSCC progression should be explored.
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PMID:The role of c-erbB receptors and ligands in head and neck squamous cell carcinoma. 1216 15

The mammalian RYK is an orphan receptor that contains a catalytically inactive tyrosine-kinase-related domain. Its Drosophila homolog, Lio/Drl, is required for axon pathfinding in developing brain. Our previous study suggested that RYK mRNA is expressed in nestin-positive progenitor cells and neurons. In the present study, immunohistochemistry has been used to further localize RYK in the central nervous system of rats to identify the lineage of the RYK-expressing cells. In the embryonic forebrain, RYK colocalized with nestin in the ventricular zone and with MAP2 in the cortical plate, suggesting that RYK is expressed in neural progenitor cells and neurons. Localization of RYK in embryonic spinal cord also suggested its expression in both cell types. In primary cultures of rat cerebrum, RYK expression was observed in all neurons, as well as in a significant population of oligodendrocytes, O-2A progenitor cells, and type-2 astrocytes. However, no RYK expression was detected in type-1 astrocytes or microglia. Multipotent neural stem cell line MNS-70 was also analyzed for expression of RYK, and most of the cells were positive for both RYK and nestin in the undifferentiated stage. In the differentiated stage, expression of RYK was detected in the neurons, but not in type-1 astrocytes. In conclusion, RYK is expressed in nestin-positive progenitor cells and neurons, and in a certain population of oligodendrocytes, O-2A progenitor cells, and type-2 astrocytes in developing CNS. These findings show that expression of RYK in rat CNS is tightly regulated in a cell-type-specific manner.
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PMID:Cell-type-specific expression of protein tyrosine kinase-related receptor RYK in the central nervous system of the rat. 1222 82

The HER family of transmembrane tyrosine kinase receptors is composed of four members, BER1 to HER4. HER2 is a ligand-orphan receptor expressed in many human tumors and overexpressed in 25-30% of breast cancers. HER2 amplifies the signal provided by other receptors of the HER family by forming heterodimers. The essential role of HER2 in the HER signaling network led to the development of anti-HER2 monoclonal antibodies (MAbs) for cancer therapy. In particular, the humanized MAb trastuzumab (Herceptin) has antitumor activity against HER2-overexpressing human breast tumor cells and is widely used for the treatment of women with HER2 overexpressing breast cancers. Trastuzumab induces HER2 receptor downmodulation and, as a result, inhibits critical signalling pathways (i.e. ras-Raf-MAPK and PI3K/Akt) and blocks cell cycle progression by inducing the formation of p27/Cdk2 complexes. Trastuzumab also inhibits HER2 cleavage, preceding antibody-induced receptor downmodulation, and this effect might contribute to its antitumor activity in some cancers. In vivo, trastuzumab inhibits angiogenesis and induces antibody-dependent cellular cytotoxicity. A limitation of trastuzumab is that its activity is largely restricted to breast cancers with the highest level of HER2 overexpression or HER2 gene amplification. However, there is a large population of breast cancers and of many other tumors that have low or moderate HER2 expression. In such tumors, HER2 functions as a preferred coreceptor to form heterodimers with HER1 (EGFR), HER3 or HER4. For this reason, a humanized monoclonal antibody, called 2C4, that targets the role of HER2 as a coreceptor is under active development. 2C4 binds to a different epitope of HER2 ectodomain than trastuzumab and sterically hinders HER2 recruitment in heterodimers with other HER receptors. This results in the inhibition of signalling by HER2-based heterodimers both in cells with low and high HER2 expression. In vitro and in vivo antitumor activity has been reported in a range of breast and prostate tumor models. Therefore, 2C4 may have potential against a wide variety of solid tumors. Phase I trials are underway.
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PMID:Mechanism of action of anti-HER2 monoclonal antibodies: scientific update on trastuzumab and 2C4. 1290 64

The tyrosine kinase receptor erbB2, also known in humans as Her2, is a member of the epidermal growth factor receptor (EGFR or erbB1) family, which also includes erbB3 and erbB4. The erbBs were discovered in an avian erythroblastosis tumor virus and exhibited similarities to human EGFR (Yarden and Sliwkowski, 2001). Her2/erbB2 is highly expressed in many cancer types. Its overexpression is correlated with a poor prognosis for breast and ovarian cancer patients. ErbB receptors bind to a family of growth factors, termed neuregulins/heregulin (NRG/HRG), which comprise NRG-1, -2, -3, and -4 and include multiple isoforms. ErbB2/Her2 is an orphan receptor that does not bind ligand alone but heterodimerizes with the other erbB receptors for NRG signaling. ErbB2 is expressed in multiple neuronal and non-neuronal tissues in embryos and adult animals, including the heart. Genetic data demonstrated that erbB2 is required for normal embryonic development of neural crest-derived cranial sensory neurons. ErbB2/Her2-null mutant embryos of a trabeculation defect die before embryonic day (E) 11. To study its role at later stages of development, we generated a transgenic mouse line that specifically expresses the rat erbB2 cDNA in the heart under the control of the cardiac-specific alpha-myosin heavy chain promoter. When crossed into the null background, the expression of the rat erbB2 cDNA rescued the cardiac phenotype in the erbB2-null mutant mice that survive until birth but display an absence of Schwann cells and a severe loss of both motor and spinal sensory neurons. To study the role of erbB2 in the adult heart, we generated conditional mutant mice carrying a cardiac-restricted deletion of erbB2. These erbB2 conditional mutants exhibited multiple independent parameters of dilated cardiomyopathy, including chamber dilation, wall thinning, and decreased contractility. Interestingly, treatment of breast cancers overexpressing erbB2 with Herceptin (Trastuzumab), a humanized monoclonal antibody specific to the extracellular domain of erbB2, results in some patients developing cardiac dysfunction. The adverse effect is increased significantly in those patients who also receive the chemotherapeutical agent anthracycline. We found that erbB2-deficient cardiac myocytes are more susceptible to anthracycline-induced cytotoxicity. These results suggest that erbB2 signaling in the heart is essential for the prevention of dilated cardiomyopathy. These lines of mice provide models with which to elucidate the molecular and cellular mechanisms by which erbB2 signaling regulates cardiac functions. These mice also will provide important information for devising strategies to mitigate the cardiotoxic effects of Herceptin treatment, allowing for the potential expanded use of this drug to treat all cancers overexpressing erbB2.
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PMID:Essential roles of Her2/erbB2 in cardiac development and function. 1474 94

Trastuzumab (Herceptin) is a humanized antibody directed against the extracellular domain of the tyrosine kinase orphan receptor Her-2/neu (erbB-2) that has shown therapeutic efficacy against Her-2/neu-overexpressing breast tumors. However, less than 35% of patients with Her-2/neu-overexpressing metastatic breast cancer respond to trastuzumab as a single agent, whereas the remaining cases do not demonstrate tumor regression. Furthermore, the majority of patients who achieve an initial response generally acquire resistance within one year. Therefore, the identification of the potential mechanisms of resistance to trastuzumab can be very helpful for the development of new compounds, which might overcome that resistance and/or have additive/synergistic antitumor effect when given in association with trastuzumab. Recent studies in breast cancer cells have revealed a bi-directional connection between Her-2/neu and fatty acid synthase (FAS), a major lipogenic enzyme catalyzing the synthesis of long-chain saturated fatty acids from the 2-carbon donors malonyl-CoA and acetyl-CoA. Her-2/neu overexpression stimulates the FAS promoter and ultimately mediates increased endogenous fatty synthesis, and this Her-2/neu-mediated induction of breast cancer-associated FAS is inhibitable by trastuzumab. On the other hand, chemical FAS inhibitors as well as RNA interference-mediated silencing of FAS gene repress Her-2/neu gene expression at the transcriptional level. Moreover, specific FAS blockade synergistically sensitizes breast cancer cells carrying Her-2/neu-oncogene amplification and/or overexpression to trastuzumab-induced cell growth inhibition and apoptotic cell death. Strikingly, FAS inhibition synergistically interacts with trastuzumab in Her-2/neu-negative breast cancer cells engineered to overexpress Her-2/neu, thus suggesting that the molecular linkage between FAS activity and functioning of Her-2/neu cannot be explained only on the basis of a transcriptional repression of Her-2/neu gene promoter. Interestingly, while in liver and adipose tissue FAS produces fat from excess carbon consumed as carbohydrates, which is ultimately stored as triglycerides, in epithelial cancer cells, FAS activity is mainly involved in the production of phospholipids partitioning into detergent-resistant membrane microdomains (lipid raft-aggregates), which point to an active role of FAS in the deregulation of membrane functioning in tumor cells. Importantly, clusters of Her-2/neu and EGFR (erbB-1) co-localize with lipid rafts and the lipid environment in the cell membrane of breast cancer cells profoundly influences their association properties and biological functions. We hypothesize that pharmacological or small interference RNA-induced inhibition of breast cancer-associated FAS will result in major changes in the synthesis of phospholipids which, in turn, should impair a correct cellular localization of Her-2/neu at the cellular membrane of breast cancer cells. In this working model, FAS inhibition could induce a shift in the equilibrium between transport of Her-2/neu to and from the membrane favoring an increased Her-2/neu internalization followed by intracellular degradation, thus enhancing the mechanism of action of the anti-Her-2/neu antibody trastuzumab. Moreover, the inhibition of FAS-driven lipid rafts will also negatively affect EGFR-Her-2/neu cross-talk, an important mechanism of trastuzumab resistance. In summary, the specific blockade of a novel molecular linkage between FAS-regulated membrane composition and functioning of transmembrane growth factor receptors EGFR and Her-2/neu may represent a previously unrecognized therapeutic approach circumventing trastuzumab resistance in breast carcinomas.
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PMID:Targeting fatty acid synthase-driven lipid rafts: a novel strategy to overcome trastuzumab resistance in breast cancer cells. 1578 Apr 99

Neuron-derived orphan receptor-1 (NOR-1) is a transcription factor over-expressed in human atherosclerotic plaques that is involved in vascular smooth muscle cell proliferation. The aim of this study was to analyze whether NOR-1 plays a role in vascular endothelial growth factor (VEGF) induced endothelial cell growth. VEGF induced an early and transient up-regulation of NOR-1 in human umbilical vein endothelial cells (HUVEC). NOR-1 up-regulation by VEGF is processed through VEGF receptor-2 (VEGFR-2) and involves different signaling pathways including increase in cytosolic Ca(2+), activation of protein kinase C and mitogen-activated protein kinase (MAPK) pathways (both extracellular-signaling regulated kinase [ERK] and p38 MAPK). VEGF induced CREB activation (phosphorylation in Ser(133)). In transfection assays, a dominant-negative of CREB inhibited NOR-1 promoter activity, while mutation of the three CRE sites in the NOR-1 promoter abolished VEGF-induced NOR-1 promoter activity. Antisense oligonucleotides against NOR-1 inhibited VEGF-induced endothelial cell growth (reduced DNA synthesis, and inhibited cell cycle progression and endothelial cell wound repair after mechanical injury). These results indicate that NOR-1 could be a key transcription factor regulating endothelial cell growth induced by VEGF.
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PMID:NOR-1 is involved in VEGF-induced endothelial cell growth. 1594 8

The human epidermal growth factor (EGF) receptor (HER) family of receptor tyrosine kinases has frequently been implicated in cancer. Apart from overexpression or mutation of these receptors, also the aberrant autocrine or paracrine activation of HERs by EGF-like ligands may be important in cancer progression. Neuregulins constitute a family of EGF-like ligands that bind to HER3 or HER4, preferably forming heterodimers with the orphan receptor HER2. Mesenchymal neuregulin typically serves as a pro-survival and pro-differentiation signal for adjacent epithelia. Disruption of the balance between proliferation and differentiation, because of autocrine production by the epithelial cells, increased sensitivity to paracrine signals or disruption of the spatial organization, may lead to constitutive receptor activation, in the absence of receptor overexpression. Consequently, the analysis of ligand expression and/or activated receptors in tumor samples may broaden the group of patients that can benefit from targeted therapies.
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PMID:Roles for neuregulins in human cancer. 1603 12

Exposure to ultraviolet (UV) irradiation is the major cause of nonmelanoma skin cancer, the most common form of cancer in the United States. UV irradiation has a variety of effects on the skin associated with carcinogenesis, including DNA damage and effects on signal transduction. The alterations in signaling caused by UV regulate inflammation, cell proliferation, and apoptosis. UV also activates the orphan receptor tyrosine kinase and proto-oncogene Erbb2 (HER2/neu). In this study, we demonstrate that the UV-induced activation of Erbb2 regulates the response of the skin to UV. Inhibition or knockdown of Erbb2 before UV irradiation suppressed cell proliferation, cell survival, and inflammation after UV. In addition, Erbb2 was necessary for the UV-induced expression of numerous proinflammatory genes that are regulated by the transcription factors nuclear factor-kappaB and Comp1, including interleukin-1beta, prostaglandin-endoperoxidase synthase 2 (Cyclooxygenase-2), and multiple chemokines. These results reveal the influence of Erbb2 on the UV response and suggest a role for Erbb2 in UV-induced pathologies such as skin cancer.
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PMID:Erbb2 regulates inflammation and proliferation in the skin after ultraviolet irradiation. 1700 95

The orphan receptor TR3 functions in the nucleus as a transcription factor to negatively or positively regulate gene expression. c-Jun N-terminal kinase (JNK) phosphorylation plays an important role in modulating the nuclear functions of TR3. Although TR3 is the phosphorylation target of JNK, the regulatory mechanism of JNK on TR3 functions remains to be elucidated. Here we showed that JNK activator anisomycin induced TR3 phosphorylation through JNK1 rather than p38 and ERK signals, which is mediated by its upstream factors MAPK kinase 4 and MAPK kinase 7. We also identified the exact phosphorylation site of JNK to be serine 95 at the N terminus of TR3, around which a classical JNK phosphorylation motif exists. Furthermore, we demonstrated that TR3 phosphorylation by JNK coincided with its ubiquitination and degradation, resulting in the loss of its mitogenic activity. Finally, we showed that JNK-induced phosphorylation blocked the DNA binding property of TR3 and hence diminished its transactivation activity. Taken together, our findings revealed a novel cross talk between TR3 and JNK signal pathway and shed light on the mechanism of JNK phosphorylation-dependent regulation on TR3 nuclear functions.
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PMID:Regulation of the orphan receptor TR3 nuclear functions by c-Jun N terminal kinase phosphorylation. 1702 23

The orphan receptor tyrosine kinase ErbB2 is activated by each of the EGFR family members upon ligand binding. However, difficulties monitoring the dynamic interactions of the membrane receptors have hindered the elucidation of the mechanism of ErbB2 activation. We have engineered a system to monitor protein-protein interactions in intact mammalian cells such that different sets of protein interactions can be quantitatively compared. Application of this system to the interactions of the EGFR family showed that ErbB2 interacts stably with the EGFR and ErbB3, but fails to spontaneously homooligomerize. The widely used anti-cancer antibody Herceptin was found to effectively inhibit the interaction of the EGFR and ErbB2 but not to interfere with the interaction of ErbB2-ErbB3. Treatment of cells expressing EGFR and ErbB2 with Herceptin results in increased EGFR homooligomerization in the presence of EGF and a subsequent rapid internalization and down-regulation of the EGFR. In summary, the protein interaction system described here enabled the characterization of ErbB2 interactions within the biological context of the plasma membrane and provides insight into the mechanism of Herceptin action on cells overexpressing ErbB2.
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PMID:A system for quantifying dynamic protein interactions defines a role for Herceptin in modulating ErbB2 interactions. 1714 12

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