Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0596263 (carcinogenesis)
 64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Members of the Eph family of receptor tyrosine kinase have been implicated in cell-cell communication and tissue integrity during embryogenesis. We have previously demonstrated cell type specific and hormone dependent EphB4 expression in the mouse mammary parenchyma suggesting involvement in the homeostasis of this organ. Since disruption of tissue organization is crucial for metastatic dissemination, we have investigated the expression of EphB4 during carcinogenesis of the human breast. Immunohistochemical analysis of 24 normal human breast samples and 124 consecutive breast carcinomas was correlated with tumor characteristics (stage, histology, grade, lymph node involvement) and the expression of ER, PR, Ki-67, p53 and HER2. In normal breast tissue, the EphB4 protein was expressed exclusively in parenchymal cells. Strikingly, a drastic reduction in the number of EphB4 protein expressing cells was observed in almost all invasive carcinomas analyzed, irrespective of the tumor type (p<0.0001). Furthermore, we found a highly significant correlation between EphB4 positivity and low histological grading of the tumor cells (p=0.002) suggesting that in breast cancer, EphB4 expression is not compatible with tumor progression. This raises the possibility that EphB4 could represent a potent tool for therapeutic intervention.
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PMID:Loss of EphB4 receptor tyrosine kinase protein expression during carcinogenesis of the human breast. 1216 60

The receptor tyrosine kinase (RTK) signaling network plays a central role in regulating cellular differentiation, proliferation, and survival in all metazoan animals. Excessive or continuous activation of the RTK pathway has been linked to carcinogenesis in mammals, underscoring the importance of preventing uncontrolled signaling. This review will focus on the inhibitory mechanisms that keep RTK-mediated signals in check, with emphasis on conserved principles discerned from studies using Drosophila as a model system. Two general strategies of inhibition will be discussed. The first, threshold regulation, postulates that an effective way of antagonizing RTK signaling is to erect and maintain high threshold barriers that prevent inappropriate responses to moderate signaling levels. Activation of the pathway above this level overcomes the inhibitory blocks and shifts the balance to allow a positive flow of inductive information. A second layer of negative regulation involving induction of negative feedback loops that limit the extent, strength, or duration of the signal prevents runaway signaling in response to the high levels of activation required to surmount the threshold barriers. Such autoinhibitory mechanisms attenuate signaling at critical points throughout the network, from the receptor to the downstream effectors.
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PMID:Keeping the receptor tyrosine kinase signaling pathway in check: lessons from Drosophila. 1241 94

The receptor tyrosine kinase RON (recepteur d'origine nantais), a member of the MET proto-oncogene family, has been implicated in the pathogenesis of certain epithelial cancers including lung adenocarcinomas. To determine the oncogenic potential of RON, transgenic mice were generated using the surfactant protein C promoter to express human wild-type RON in the distal lung epithelial cells. The mice were born normal without morphological defects in the lung, however, multiple lung adenomas with distinct morphology and growth pattern were observed. Tumors appeared as a single mass in the lung around 2 months of age and gradually developed into multiple nodules throughout the lung. Most of the tumors were characterized as cuboidal epithelial cells with type II cell phenotypes. They grew along the alveolar walls and projected into the alveolar septa. A transition from pre-malignant adenomas to adenocarcinomas was observed. The RON transgene is highly expressed and constitutively activated in the tumors as evident by immunohistochemical staining and western blot analyses. Moreover, we found that Ras expression was dramatically increased in the majority of tumors. However, no mutation in the 'hot spots' of the K-Ras or p53 gene was observed, although limited genomic instability occurs in individual tumors. Taken together, this is a mouse lung tumor model with unique biological characteristics. The model may provide an opportunity to study the role of RON in lung tumors and to elucidate the mechanisms underlying this distinct lung tumor.
Carcinogenesis 2002 Nov
PMID:Multiple pulmonary adenomas in the lung of transgenic mice overexpressing the RON receptor tyrosine kinase. Recepteur d'origine nantais. 1241 29

Prostate cancer chemoprevention can be described as the administration of natural products and pharmaceutical agents that inhibit one or more steps in the natural history of prostatic carcinogenesis. The principle components of the chemoprevention strategy are closely connected to this natural history and include: (a) agents and their molecular targets; (b) strategic intermediate endpoint biomarkers (IEBs) and their critical pathways; (c) cohorts identified by genetic and acquired risk factors and (d) efficient designs that combine these elements into a cohesive clinical trial. The primary goal is to find effective noncytotoxic agents that modulate the promotion and progression from normal epithelium to dysplasia to high-grade prostatic intraepithelial neoplasia (HGPIN) to locally invasive cancer and metastatic disease. Another important target for chemoprevention is to modulate progression to clinically aggressive disease and to maintain an androgen-sensitive clinical state and delay the emergence of androgen resistance. There is a rationale for use of antiandrogens as the lead class, e.g., 5 alpha receptor inhibitors (5ARI), for chemoprevention of prostate cancer. Nevertheless, the desire to improve the therapeutic index, achieve synergy (5ARI may have only modest anticancer effects) and prevent the emergence of drug (androgen) resistance provide incentives for developing other effective agents and combinations. The availability of more than a dozen classes of noncytotoxic pharmaceutical and natural products already in clinical development create many opportunities for rational combination therapy. Several agent classes have a pharmacodynamic basis for combination with antiandrogens including antiproliferatives, selective estrogen receptor modulators (SERMs), proapoptotic antioxidant micronutrients and selective cyclo-oxygenase (COX)-2 inhibitors. Many other rational pharmacodynamic combinations without antiandrogens are feasible. It is anticipated that in the future, a selective COX-2 inhibitor may be combined with other agent classes such as proapoptotic antioxidant micronutrients, receptor tyrosine kinase modulators, antiangiogenic modulators, antiproliferative/differentiating agents, NFkappaB modulators, IGF-1 modulators and other novel proapototic nonsteroidal drugs. A novel target for rational combinations is the hypermethylation of GST-PI leading to functional silencing of this key anticarcinogen defense enzyme in precursors (HGPIN) and prostate cancer. Factorial designs are well suited for evaluating the individual and combined effects of each agent in a single trial design. There are a number of moderate to high-risk cohorts and clinical models of primary and secondary prevention that can be employed in both short-term developmental (translational) trials for proof of biologic activity and in intermediate sized longer-term chemoprevention trials for proof of efficacy against prostate cancer. Strategic IEBs are needed to more efficiently monitor short-term biologic activity and validate efficacy. The emergence of new powerful tools such as gene chip cDNA microarrays for multiplex gene expression profiling and proteomic analysis of tissue based and secreted proteins will accelerate the identification of new molecular targets, strategic endpoints, cohorts at risk and the design of rational combination trials.
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PMID:Chemoprevention of prostate cancer: current status and future directions. 1254 68

Tumor angiogenesis is governed by a complex balance of positive and negative angiogenic factors. Development of chemically-induced mouse skin tumors appears to be highly dependent on an early burst of neovascularization. We have previously shown that Ha-ras-driven vascular endothelial growth factor (VEGF) expression plays a pivotal role in this process. However, the status of other critical positive and negative angiogenic factors throughout skin tumorigenesis has not been studied to the same extent. In the present study, we show that another VEGF family member, placenta growth factor (PlGF), was highly upregulated at all tumor stages in a ras-dependent manner. The study of angiopoietin-1 (Ang-1) and angiopoietin-2 (Ang-2), ligands of receptor tyrosine kinase 2 (Tie-2), showed that while stroma-derived Ang-2 was increased, epidermal Ang-1 expression was completely abolished at early papilloma formation. Studies using epidermal tumor cell lines suggest that the disappearance of Ang-1 also depends on ras activation, extending the plethora of events controlled by this oncogene in mouse skin carcinogenesis. Our results indicated that tumor development occurred in a strong angiogenesis-prone scenario in which PlGF and Ang-2 acted cooperatively with VEGF, whereas the negative or stabilizing effect of Ang-1 was abrogated. A time-course sequence of expression of angiogenic factors expressed throughout tumor growth, as well as the identification of key signaling molecules triggering the angiogenic response, may contribute to the development and testing of antiangiogenic therapeutic strategies with this in vivo tumor model.
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PMID:Modulation of the angiogenesis response through Ha-ras control, placenta growth factor, and angiopoietin expression in mouse skin carcinogenesis. 1276 7

Bombesin and its mammalian homologue gastrin-releasing peptide have been shown to be highly expressed and secreted by neuroendocrine cells in prostate cancer, and are thought to be related to the carcinogenesis and progression of this disease. We found, in this study, bombesin specifically induced mitogen-activated protein (MAP) kinase activation as shown by increased extracellular regulated kinase (ERK) phosphorylation and epidermal growth factor (EGF) receptor transactivation in prostate cancer cells, which express functional gastrin-releasing peptide receptor. The transactivation of EGF receptor was required for bombesin-induced ERK phosphorylation. Furthermore, non-receptor tyrosine kinase Src and cellular Ca2+ were shown to be involved in bombesin-induced EGF receptor transactivation and ERK phosphorylation. Inhibition of either EGF receptor transactivation or ERK activation blocked bombesin-induced DNA synthesis in these cells. Taken together, these data suggest bombesin may act as a mitogen in prostate cancer by activating MAP kinase pathway via EGFR transactivation.
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PMID:Activation of extracellular signal-regulated kinase mediates bombesin-induced mitogenic responses in prostate cancer cells. 1287 8

Prostaglandin E(2) (PGE(2)), a major product of cyclooxygenase enzymes, is implicated in colorectal carcinogenesis and has been shown to stimulate the growth of human colorectal carcinoma cells. Here, we show that PGE(2) activated the cyclic AMP/protein kinase A pathway, which induced the expression of amphiregulin (AR), an epidermal growth factor family member, through activation of a cyclic AMP-responsive element in the AR promoter. AR exerted a mitogenic effect on LS-174 cells and partially mediated the PGE(2)-induced growth stimulation. In addition, PGE(2), in collaboration with transforming growth factor-alpha or K-Ras oncogene, synergistically induced AR expression and activated receptor tyrosine kinase-dependent signaling pathways. Our results provide novel mechanisms for cyclooxygenase-2 pro-oncogenic activity and suggest that PGE(2) may act with major oncogenic pathways in a synergistic fashion to activate the epidermal growth factor receptor signaling system through a ligand-dependent autocrine pathway.
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PMID:Prostaglandin E2 stimulates the growth of colon cancer cells via induction of amphiregulin. 1450 Mar 48

Cyclooxygenase (COX)-generated prostaglandin E(2) (PGE(2)) plays critical roles in colorectal carcinogenesis. Recently, we have shown that PGE(2) and transforming growth factor-alpha synergistically induces the expression of amphiregulin (AR) in colon cancer cells (Shao, J., Evers, B. M., and Sheng, H. (2003) Cancer Res. 63, 5218-5223). In this study, we demonstrated synergistic actions of PGE(2) and the receptor tyrosine kinase signaling system in AR expression and in tumorigenic potential of colon cancer cells. Activation of the Ras/Raf/MAPK pathway induced AR transcription in colon cancer LS-174 cells that was enhanced by PGE(2) in a synergistic fashion. The cAMP-responsive element within the AR promoter was required for the synergistic activation of AR transcription. An Sp1 element was responsible for the basal transcription of AR and significantly enhanced the synergy between PGE(2) and the epidermal growth factor receptor (EGFR) signaling system. Furthermore, activation of both PGE(2) and EGFR signaling pathways synergistically promoted the growth and migration of colon cancer cells. Our results suggest that COX-2/PGE(2) may exert pro-oncogenic effects through synergistic induction of receptor tyrosine kinase-dependent signaling pathway, thus, provide a novel mechanism for the combinatorial treatment of colonic neoplasms targeting both COX-2/PGE(2) and the EGFR system that has demonstrated remarkable advantages.
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PMID:Prostaglandin E2 synergistically enhances receptor tyrosine kinase-dependent signaling system in colon cancer cells. 1474 35

Most growth factors control cellular functions by activating specific receptor tyrosine kinases (RTKs). While overactivation of RTK signalling pathways is strongly associated with carcinogenesis, it is becoming increasingly clear that impaired deactivation of RTKs may also be a mechanism in cancer. A major deactivation pathway, receptor downregulation, involves ligand-induced endocytosis of the RTK and subsequent degradation in lysosomes. A complex molecular machinery that uses the small protein ubiquitin as a key regulator assures proper endocytosis and degradation of RTKs. Here we discuss evidence that implicates deregulation of this machinery in cancer.
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PMID:Defective downregulation of receptor tyrosine kinases in cancer. 1522 52

Altered expression of receptor tyrosine kinases contributes to tumorigenic behaviors of epithelial cancers. In this study, the pathogenic roles of receptor tyrosine kinase RON (recepteur d'origine nantais) in regulating oncogenic phenotypes in colorectal epithelial cells were studied. Increased expression of RON and its variants resulted in colony formation and motile activities of colonic epithelial AA/C1 cells as evident in soft-agar and migration assays, respectively. These results suggest that overexpression of wild-type RON mediates the transformed phenotypes in immortalized colon epithelial cells. In colorectal cancer cells (HT-29, HCT116, and SW620) that naturally express RON, the RON gene expression was silenced by RNA interference. The introduction of RON-specific small interfering (si) RNA significantly affected cancer cell proliferation, motility, and led to increased apoptotic cell death. Focus-forming activities and anchorage-independent growth of colon cancer cells were also dramatically reduced. Moreover, it was demonstrated in tumor growth assays that silencing RON gene expression significantly reduces tumorigenic activities of SW620 cells in vivo. By analysing signaling proteins involved in colon carcinogenesis, we found that the effect of RON-specific siRNA is associated with diminished expression of beta-catenin, a critical component in the Wnt signaling pathway. Taken together, our results demonstrate that altered expression of RON in colon cancer cells is required to maintain tumorigenic phenotypes. Thus, silencing RON gene expression could have potential to reverse malignant activities of colon tumors in vivo.
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PMID:RNA-mediated gene silencing of the RON receptor tyrosine kinase alters oncogenic phenotypes of human colorectal carcinoma cells. 1537 25


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