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Query: UMLS:C0178874 (tumor progression)
 40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Most cellular proto-oncogenes encode proteins that participate in signaling pathways by which cells receive and execute instructions that lead to mitogenesis, differentiation, lineage determination, cell migration, extracellular matrix production, and apoptosis, among others. These proto-oncogene protein products include transmembrane receptor tyrosine kinases and receptor substrates, serine/threonine kinases, receptor adaptor molecules, low-molecular-weight GTPases, and transcription factors that, when overexpressed or mutationally activated, can lead to cell transformation and tumor progression. The large number of oncogenic protein tyrosine kinases plus the rare presence of phosphotyrosine in nontransformed cells argue persuasively that tyrosine phosphorylation and activation of signaling molecules downstream from receptor tyrosine kinases are critical events in growth control and transformation and are, therefore, rational targets for anticancer molecular therapies. We will review some of the more recent treatment strategies in non-small cell and small cell lung cancer targeted to dysregulated signaling pathways that are causally associated with tumor maintenance and progression.
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PMID:Overview of rationale and clinical trials with signal transduction inhibitors in lung cancer. 1189 10

The recently discovered 3'-phosphoinositide-dependent kinase-1 (PDK-1) is a serine/threonine protein kinase which phosphorylates several members of the conserved AGC kinase superfamily (comprising the prototypes protein kinases A (PKA), G (PKG) and C (PKC)). Phosphorylation of a threonine or serine residue in the activation loop (also known as the T-loop) of these kinases is a critical step in their activation, and is typically accompanied by additional phosphorylations elsewhere in the molecule. Phosphorylation of the activation loop is a common regulatory mechanism shared by most serine/threonine as well as tyrosine kinases as it facilitates alignment of amino acid residues in the active site which are involved in the phosphotransferase reaction. Therefore the discovery of PDK-1 as the enzyme which mediates this event in many protein kinases introduced a new and important step in signaling pathways which regulate numerous important cellular processes including cellular survival, glucose transport and metabolism, tumor progression as well as protein translation. Moreover, the finding that PDK-1 function is mediated in part by the phosphoinositide 3'-OH-kinase (PI 3-K) pathway also provided an explanation as to how the lipid products of PI 3-K, namely phosphatidylinositol-3,4-bisphosphate (PtdIns-3,4-P2) and phosphatidylinositol-3,4-5-trisphosphate (PtdIns-3,4,5-P3) stimulate the activation of protein kinase-dependent signaling pathways. These initial landmark observations were followed by many important studies which provided additional mechanistic insight into both PDK-1 regulation as well as the role of this kinase in cellular function. This review will focus on the regulation of PDK-1 and the various mechanisms which it uses to contribute to the activation of target kinases.
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PMID:3'-phosphoinositide-dependent kinase-1 (PDK-1) in PI 3-kinase signaling. 1189 68

Transforming growth factor beta (TGF-beta) is a secreted protein that regulates proliferation, differentiation and death of various cell types. All immune cell lineages, including B, T and dendritic cells as well as macrophages, secrete TGF-beta, which negatively regulates their proliferation, differentiation and activation by other cytokines. Thus, TGF-beta is a potent immunosuppressor and perturbation of TGF-beta signaling is linked to autoimmunity, inflammation and cancer. Regulation of cell proliferation and differentiation by TGF-beta is a topic of great basic and clinical importance. We summarize our work on the growth inhibitory pathway downstream of TGF-beta, which is triggered by receptor serine/threonine kinases at the cell surface and downstream effectors of the Smad family. Activated Smads regulate transcription of target genes, including cell cycle inhibitors such as p21, which mediate the anti-proliferative response and partially explain the tumor suppressive action of the TGF-beta pathway. We have described a molecular mechanism of regulation of the p21 gene by Smads and transcription factor Sp1. At late stages of tumor progression, TGF-beta promotes tumorigenesis via suppression of the immune system and changes in cell differentiation of epithelial tumor cells, a phenomenon termed epithelial to mesenchymal transdifferentiation (EMT). We review our work on the role of the Smad pathway in controlling EMT. In conclusion, the molecular pathways that describe the anti-proliferative and transdifferentiating effects of TGF-beta in epithelial cells have been uncovered to great molecular detail; a future challenge will be to test their generality in other systems, including the immune system.
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PMID:Mechanisms of TGF-beta signaling in regulation of cell growth and differentiation. 1200 39

Hamster tumor cell lines obtained with the Rous sarcoma virus and characterized by a high metastatic activity in vitro were transfected with the gene for C2+/calmodulin-dependent serine-threonine death-associated protein kinase (DAPk). Expression of DAPk in tumor cells dramatically reduced their survival in the blood of syngenic animals and their ability to produce metastases, but did not affect their tumorigenicity or the primary tumor growth. The DAPk-induced change in the metastatic phenotype was not accompanied by substantial changes in production and phosphorylation of v-Src or focal adhesion proteins (focal adhesion kinase and paxilline). The resulting system of transfected cells with a modulated metastatic potential provide a convenient model to study the molecular mechanisms of tumor progression at various steps.
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PMID:[Suppression of the metastatic potential of oncogene v-src-transformed cells as a result of activity of the exogenous DAP kinase]. 1206 33

Integrin-linked kinase (ILK) is an ankyrin repeat-containing Ser/Thr kinase that interacts with the cytoplasmic domains of beta(1) and beta(3) integrins. ILK is widely expressed in tissues throughout the body, and, as might be expected, appears to mediate a diversity of functions relating to its role in coupling integrins and growth factor receptors to downstream signaling pathways. Through its downstream targets protein kinase B/Akt and glycogen synthase kinase-3beta, ILK appears to be involved in several oncogenesis-related events, including suppression of apoptosis and promotion of cell survival, as well as cell migration and invasion. Over-expression of ILK in epithelial cells results in anchorage-independent cell growth with increased cell cycle progression. Inoculation of nude mice with ILK over-expressing cells leads to tumor formation. Furthermore, increased ILK expression and activity have been correlated with malignancy in several human tumor types, including breast, prostate, brain, and colon carcinomas. Based on these findings, ILK represents an excellent therapeutic target for the prevention of tumor progression. Here, we provide an overview of the physical and biochemical properties of ILK, and present data describing the impact of small-molecule ILK inhibitors on several ILK-mediated cellular functions.
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PMID:Integrin-linked kinase, a promising cancer therapeutic target: biochemical and biological properties. 1219 15

Core 2 beta 1,6-N-acetylglucosaminyltransferase(C2GnT) and alpha 1,4-N-acetylglucosaminyltransferase are glycosyltransferases involved in the biosynthesis of mucin type glycoprotein(O-glycan). The transcripts of C2GnT, which forms core 2-branched O-glycan(Gal beta 1-->3 (GlcNAc beta 1-->6)GalNAc alpha-->Ser/Thr), were detected approximately in 2/3 cases of patients with colorectal or lung cancers. Then, carcinoma cells expressing C2GnT mRNA were shown to significantly progress compared with those lacking the C2GnT mRNA, indicating an important role of the core 2-branched O-glycan in tumor progression. On the other hand, gland mucous cell-type mucin secreted from the normal gastric mucosa characteristically contains GlcNAc alpha 1-->4Gal beta-->R structure, and the alpha 4GnT is critical for the biosynthesis of this unique glycan. This enzyme is also detected in gastric cancer cells but not in mononuclear cell fraction of the peripheral blood. Thus, the quantitative RT-PCR method targeted to alpha 4GnT mRNA will be useful for the detection of circulating gastric cancer cells in the peripheral blood.
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PMID:[Glycosyltransferase genes as tumor marker]. 1265 2

Small GTPase Rho and its downstream effectors, ROCK family of Rho-associated serine-threonine kinases, are thought to participate in cell morphology, motility, and tumor progression through regulating the rearrangement of actin cytoskeleton. Here we present evidence that transfection of human breast cancer cells with cDNA encoding a dominant active mutant of ROCK causes dispersal of lysosomal vesicles throughout the cytoplasm without perturbing the machinery of the endocytic pathway. The intracellular distribution of lysosomes and endocytosed transferrin, an early endosomal marker, were further assessed by confocal immunofluorescence microscopy. In the active ROCK transfected cells the lysosomal proteins, cathepsin D, LIMPII, and LAMP1, were found throughout the cytoplasm in dispersed small vesicles, which were accessible to the endocytosed Texas Red-labeled transferrin. 3D-image analysis of lysosomal distribution in the active ROCK transfectants revealed abundant punctate signals in the peripheral region of the basal plasma membrane. Cells expressing vector alone did not exhibit these alterations. Wortmannin, a phosphatidylinositol 3-kinase inhibitor, induced LIMPII-positive/ transferrin negative large vacuoles in the perinuclear region, and disappearence of the dispersed small vesicular structures. To our knowledge, this is the first evidence that increasing ROCK expression contributes to selective cellular dispersion of lysosomes in invasive breast cancer cells.
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PMID:Overexpression of ROCK in human breast cancer cells: evidence that ROCK activity mediates intracellular membrane traffic of lysosomes. 1285 12

A balance between proliferation, differentiation, migration and death of cells is critical for the normal development of an organism. Perturbations of this balance can contribute to cancer development. The p21-activated serine/threonine kinases (Paks) play an important role in a variety of cellular functions including cell morphogenesis, motility, survival, angiogenesis, and mitosis. Paks were initially identified as an effector molecules of RHO GTPases; however, recent evidence that they can be activated in both GTPase-dependent and -independent manners expands our understanding of their physiologic functions. Paks play an important role in growth factor signaling, leading to cytoskeletal reorganization that subsequently influences growth factor-mediated cell migration and metastasis functions. Recent findings that Paks play a role in mitosis, nuclear receptor-signaling and deregulation of Pak in cancer cells suggest that these kinases play an important role in both normal development and cancer progression. In this review, we summarize the results of recent advances into the role of Paks in tumorigenesis and metastasis.
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PMID:P21-activated kinases in human cancer. 1288 13

The human glycoprotein MUC1 mucin plays a critical role in cancer progression. Breast, ovarian, and colon cancer cells often display unique cell-surface antigens corresponding to aberrantly glycosylated forms of the MUC1 tandem repeat. In this report, (15)N- and (13)C-labeled forms of a recombinant MUC1 construct containing five tandem repeats were used as substrates to define the order and kinetics of addition of N-acetylgalactosamine (GalNAc) moieties by a recombinant active form of the human enzyme UDP-GalNAc:polypeptide N-acetylgalactosaminyltransferase I (ppGalNAc-T1; residues 40-559). Heteronuclear NMR experiments were performed to assign resonances associated with the two serines (Ser5 and Ser15) and three threonines (Thr6, Thr14, and Thr19) present in the 20-residue long MUC1 repeat. The kinetics and order of addition of GalNAc moieties (Tn antigen) on the MUC1 construct by human ppGalNAc-T1 were subsequently dissected by NMR spectroscopy. Threonine 14 was shown to be rapidly glycosylated by ppGalNAc-T1 with an initial rate of 25 microM/min, followed by Thr6 (8.6 microM/min). The enzyme also modified Ser5 at a slower rate (1.7 microM/min), an event that started only after the glycosylation of Thr14 and Thr6 side chains was mostly completed. Ser15 and Thr19 remained unglycosylated by ppGalNAc-T1. Corresponding O-glycosylation sites within all five tandem repeats were simultaneously modified by ppGalNAc-T1, suggesting that each repeat behaves as an independent substrate unit. This study demonstrated that the hydroxyl oxygens of Thr14 and to a lesser extent Thr 6 represent the two dominant substrates modified by ppGalNAc-T1 within the context of a complex MUC1 peptide substrate. More importantly, the availability of defined isotopically labelled MUC1 glycopeptide substrates and the relative simplicity of their NMR spectra will facilitate the analysis of other transferases within the O-glycosylation pathways and the rational design of tumor-associated MUC1 antigens.
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PMID:Nuclear magnetic resonance-based dissection of a glycosyltransferase specificity for the mucin MUC1 tandem repeat. 1463 48

Grb7 is an adaptor molecule that mediates signal transduction from multiple cell surface receptors to various downstream signaling pathways. Grb7 and its related family member Grb10 and Grb14 share a conserved molecular architecture including an amino-terminal proline-rich region, a central segment termed the GM region (for Grb and Mig) which includes a PH domain and shares sequence homology with the Caenorhabditis elegans protein, Mig-10, and a carboxyl-terminal SH2 domain. Grb7/10/14 family proteins are phosphorylated on serine/threonine as well as tyrosine residues, although the functional significance of such phosphorylation is incompletely understood. Grb7/10/14 family proteins are mainly localized in the cytoplasm, but have been observed at the plasma membrane, focal contacts, or mitochondria under certain conditions. A large number of receptor tyrosine kinases and other signaling molecules can associate with Grb7/10/14 family proteins, mostly through the SH2 domains, although the functional consequences of such interactions have not been well characterized in most cases. Recent studies have suggested that various isoforms of Grb10 play important roles in mediating insulin/insulin-like growth factor regulation of cell proliferation and apoptosis, whereas Grb7 mediates signaling pathways from FAK and EphB1 receptor to regulate cell migration, which is also implicated in tumor progression. This review will discuss the current understanding of Grb7 mediated signal transduction pathways and their role in the regulation of various cellular functions.
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PMID:Grb7 in intracellular signaling and its role in cell regulation. 1476 59


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