UMLS:C0178874 - FACTA Search

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

We have investigated mechanisms of mitochondrial stress-induced phenotypic changes and cell invasion in tumorigenic but poorly invasive human pulmonary carcinoma A549 cells that were partly depleted of mitochondrial DNA (mtDNA). Depletion of mtDNA (genetic stress) caused a markedly lower electron transport-coupled ATP synthesis, loss of mitochondrial membrane potential, elevation of steady state [Ca(2+)](c), and notably induction of both glycolysis and gluconeogenic pathway enzymes. Markers of tumor invasion, cathepsin L and TGFbeta1, were overexpressed; calcium-dependent MAP kinases (ERK1 and ERK2) and calcineurin were activated. The levels of anti-apoptotic proteins Bcl2 and Bcl-X(L) were increased, and the cellular levels of pro-apoptotic proteins Bid and Bax were reduced. Both mtDNA-depleted cells (genetic stress) and control cells treated with carbonyl cyanide m-chlorophenylhydrazone (metabolic stress) exhibited higher invasive behavior than control cells in a Matrigel basement membrane matrix assay system. MtDNA-depleted cells stably expressing anti-sense cathepsin L RNA, TGFbeta1 RNA, or treated with specific inhibitors showed reduced invasion. Reverted cells with 80% of control cell mtDNA exhibited marker protein levels, cell morphology and invasive property closer to control cells. Our results suggest that the mitochondria-to-nucleus signaling pathway operating through increased [Ca(2+)](c) plays an important role in cancer progression and metastasis.
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PMID:Mitochondrial stress-induced calcium signaling, phenotypic changes and invasive behavior in human lung carcinoma A549 cells. 1242 Feb 21

Gap junctions, or connexons, are formed by connexin proteins and connect most cells in the body to form water-filled channels directly linking the cytoplasm. Among the molecules known to be transferred via junctions are cAMP, ATP, IP3 and glucose. Tumor cells are in general deficient in functional gap junctions either as a result of gene silencing, or failure to correctly process and assemble connexons. Tumor promoters inhibit function whereas certain cancer preventive agents increase junctional communication. When connexin expression in tumor cells is forced by introduction of exogenous genes or is increased by pharmacological agents, connexin expression reduces growth in suspension and growth as xenografts in nude mice. It is as yet unclear if in tumor cells these actions depend on junctional transfer of signal molecules or reflect some other function of these genes. Restoration of connexin function offers an exciting opportunity to delay tumor progression and inhibit metastasis.
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PMID:Cancer chemoprevention by connexins. 1254 61

Growth factor binding events to receptor tyrosine kinases result in activation of phosphatidylinositol 3-kinase (PI3K), and activated PI3K generates the membrane-bound second messengers phosphatidylinositol 3,4-diphosphate [PI(3,4)P2] and PI(3,4,5)P3, which mediate membrane translocation of the phosphoinositide-dependent kinase-1 (PDK1) and protein kinase B (PKB, also known as Akt). In addition to the kinase domain, PDK1 and PKB contain a pleckstrin homology (PH) domain that binds to the second messenger, resulting in the phosphorylation and activation of PKB by PDK1. Recent evidence indicates that constitutive activation of PKB contributes to cancer progression by promoting proliferation and increased cell survival. The indicating of PDK1 and PKB as primary targets for discovery of anticancer drugs, together with the observations that both PDK1 and PKB contain small-molecule regulatory binding sites that may be in proximity to the kinase active site, make PDK1 and PKB ideal targets for the development of new strategies to structure-based drug design. While X-ray structures have been reported for the kinase domains of PDK1 and PKB, no suitable crystals have been obtained for either PDK1 or PKB with their PH domains intact. In this regard, a novel structure-based strategy is proposed, which utilizes segmental isotopic labeling of the PH domain in combination with site-directed spin labeling of the kinase active site. Then, long-range distance restraints between the 15N-labeled backbone amide groups of the PH domain and the unpaired electron of the active site spin label can be determined from magnetic resonance studies of the enhancement effect that the paramagnetic spin label has on the nuclear relaxation rates of the amide protons. The determination of the structure and position of the PH domain with respect to the known X-ray structure of the kinase active site could be useful in the rational design of potent and selective inhibitors of PDK1 and PKB by 'linking' the free energies of binding of substrate (ATP) analogs with analogs of the inositol polar head group of the phospholipid second messenger. The combined use of X-ray crystallography, segmental isotopic and spin labeling, and magnetic resonance studies can be further extended to the study of other dynamic multidomain proteins and targets for structure-based drug design.
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PMID:PDK1 and PKB/Akt: ideal targets for development of new strategies to structure-based drug design. 1282 87

Molecular chaperones are a functionally defined set of proteins which assist the structure formation of proteins in vivo. Without certain protective mechanisms, such as binding nascent polypeptide chains by molecular chaperones, cellular protein concentrations would lead to misfolding and aggregation. In the mammalian system, the molecular chaperones Hsp70 and Hsp90 are involved in the folding and maturation of key regulatory proteins, like steroid hormone receptors, transcription factors, and kinases, some of which are involved in cancer progression. Hsp70 and Hsp90 form a multichaperone complex, in which both are connected by a third protein called Hop. The connection of and the interplay between the two chaperone machineries is of crucial importance for cell viability. This review provides a detailed view of the Hsp70 and Hsp90 machineries, their cofactors and their mode of regulation. It summarizes the current knowledge in the field, including the ATP-dependent regulation of the Hsp70/Hsp90 multichaperone cycle and elucidates the complex interplay and their synergistic interaction.
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PMID:Hsp70 and Hsp90--a relay team for protein folding. 1474 Feb 53

Epithelium of the gallbladder and biliary tract is exposed to high concentrations of potentially harmful exogenous and endogenous compounds excreted into primary bile. As the ATP-dependent efflux pump ABCG2 can prevent cellular accumulation of anticancer drugs, estrogen sulfate, xenobiotics, porphyrins, and sterols, its expression in the biliary tract might mediate protection by hindering their penetration. We therefore investigated the expression and subcellular distribution of ABCG2 in normal and malignant human gallbladder. After demonstrating ABCG2 expression in gallbladder epithelium by RT-PCR and Western blotting, we analyzed the subcellular localization of ABCG2 by indirect immunofluorescence in gallbladder adenocarcinoma specimens, and compared it to that in cholelithiasis, and normal gallbladder samples (n = 54). In control, cholelithiasis, and well-differentiated tumor samples (grade 1, T1-3), ABCG2 is present at the luminal membrane of epithelial cells, which was proven by colocalization of apical-bound TRITC-labeled lectin (wheat germ agglutinin). In poorly differentiated gallbladder adenocarcinomas, intracellular ABCG2, in addition to luminal ABCG2 immunoreactivity, was found in 13/21 carcinoma samples (grade 2 and 3, T2-4, P < 0.01). In 3/11 of grade 3 tumors, ABCG2 was present in the cytoplasmatic compartment only (P < 0.01). In proliferating bile ducts of cholangiocarcinomas, ABCG2 showed an analogous staining pattern with presence in cytosolic compartments. However, the apical marker enzyme neutral endopeptidase remained on the membrane in all samples. To study whether phosphatidylinositol 3-kinase (PI3K) signaling might be necessary for ABCG2 membrane insertion, we treated freshly isolated human gallbladder epithelial cells with the PI3K inhibitor wortmannin. As assessed by indirect immunofluorescence, this maneuver redistributes ABCG2 to intracellular compartments. In conclusion, our data suggest a protective role for ABCG2 in well-differentiated gallbladder epithelial cells. Cytoplasmatic accumulation of ABCG2 in poorly differentiated carcinomas might coincide with malfunctioning of PI3K-signaling pathways during tumor progression.
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PMID:Subcellular localization of the ABCG2 transporter in normal and malignant human gallbladder epithelium. 1514 67

The human Nm23-H1/NDPK A and Nm23-H2/NDPK B encode for two subunits of nucleoside diphosphate kinase--a ubiquitous enzyme that transfers the terminal phosphates from ATP to (d)NDPs. Although having an 88% amino acid sequence identity and an already assigned biochemical role in the cell, the two subunits appear to have additional and distinctive cell functions. In particular, both subunits have been reported to be involved in tumor progression and metastasis. The aim of this study was to determine the specific, and potentially distinct, localizations of both subunits in tumor cells of different origin and differentiation and therefore to search for a possible link between their localization and the stage of disease. We used the GFP reporter system to analyze the ectopic expression of GFP-Nm23 proteins in head and neck tumor cell lines by fluorescent microscopy techniques. Our experiments revealed that GFP-fused Nm23-H1 and -H2 proteins display the same localization in transfected cells, regardless of their origin and differentiation status. The proteins are principally found in the cytosol and the endoplasmic reticulum. Moreover, some cells exhibit nuclear staining, which appears to be cell cycle-dependent.
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PMID:Subcellular localization of A and B Nm23/NDPK subunits. 1524 82

The maintenance of oxygen (O2) homeostasis is critical for embryonic development and postnatal life. In response to hypoxia, higher eukaryotes have developed coordinated mechanisms at both the transcriptional and translational levels to cope with this stress. Transcription of genes controlling glycolysis, glucose transport, cell survival and death, angiogenesis and erythropoiesis are activated (primarily by the hypoxia-inducible factor [HIF]) to facilitate cell survival and restore O2 homeostasis. During hypoxia, global protein synthesis is reduced to conserve ATP, while translation of factors like HIF-1alpha and VEGF that are critical for the hypoxic response is maintained by initiation via an internal ribosomal entry mechanism. This review addresses the regulatory effects of hypoxia on mRNA transcription and translation. As hypoxia is induced by tumor growth and affects tumor progression and metastasis, unraveling the basis of hypoxic control of transcription and translation will provide a better understanding of cancer physiology and development of anti-tumor therapies.
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PMID:Regulation of transcription and translation by hypoxia. 1525 94

Hypoxia-inducible factor 1 (HIF-1), a pivotal transcription factor composed of HIF-1alpha and HIF-1beta subunits, plays a major role in tumor progression by activating a number of genes critically involved in adaptation to hypoxia. HIF-1 is also induced by several carcinogenic metals. Vanadate, an environmental toxic metal, is considered as a potent inducer of tumors in animals and is reported to activate HIF-1 activity. However, the involved mechanisms are poorly understood. In the present study, we have examined the biochemical mechanisms of the vanadate-induced HIF-1 activation in cancer cells by primarily focusing on the role of AMP-activated protein kinase (AMPK), which plays an essential role as an energy sensor under ATP-deprived conditions. We demonstrate that AMPK was rapidly activated in response to vanadate in DU145 human prostate carcinoma, and that its activation preceded HIF-1alpha expression. Under this condition, inhibition of AMPK by a pharmacological and molecular approach dramatically abolished the vanadate-induced HIF-1alpha expression as well as HIF-1-mediated physiological responses. Phosphatidylinositol-3 kinase/Akt/mammalian target of rapamycin signaling was also involved in vanadate-induced HIF-1alpha expression, but it was independent of AMPK signaling pathway. Moreover, we demonstrate a role of reactive oxygen species as an upstream signal for these two pathways. These results suggest that AMPK is a novel and critical component of HIF-1 regulation, further implying its involvement in vanadate-induced carcinogenesis.
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PMID:AMP-activated protein kinase activity is required for vanadate-induced hypoxia-inducible factor 1alpha expression in DU145 cells. 1529 73

The present study investigated the antiapoptotic effects of estrogen in normal and cancer human cervical cells and the mechanisms involved. Baseline apoptosis in human cervical epithelial cells is mediated predominantly by P2X7-receptor-induced, Ca(2+)-dependent activation of the mitochondrial (caspase-9) pathway. Treatment with 10 nM 17beta-estradiol blocked apoptosis induced by the P2X7-receptor ligands ATP and 2',3'-0-(4-benzoylbenzoyl)-ATP in normal human cervical epithelial cells (hECEs) and attenuated the effect in hECEs immortalized with human papillomavirus-16 (ECE16-1) and the cancer cervical cells HT3 and CaSki. Diethylstilbestrol and to a lesser degree estrone could mimic the effects of 17beta-estradiol, whereas actinomycin-D and cycloheximide attenuated the response. The antiapoptotic effect of estrogen did not depend on cell cycle phase, and in both normal and cancer cervical cells, it involved attenuation of activation of caspase-9 and the terminal caspase-3. However, involvement of cascades upstream to the caspase-9 differed in normal vs. cancer cervical cells. In the normal hECEs estrogen blocked P2X7-receptor-induced calcium influx. In contrast, in the cancer CaSki cells, estrogen up-regulated expression of Bcl-2 and attenuated Ca(2+)-induced mitochondrial swelling (i.e. formation of mitochondrial permeability transition pores). Estrogen had no effect on P2X7-receptor-induced apoptosis in the anaplastic SiHa and Hela cells. These results point to a novel antiapoptotic effect of estrogen in the cervix that is independent of its mitogenic function. The results also suggest that cancer cervical cells evolved antiapoptotic mechanisms that enable the cells to evade apoptosis and could therefore promote tumor progression.
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PMID:Antiapoptotic effects of estrogen in normal and cancer human cervical epithelial cells. 1531 52

Small molecule inhibitors belonging to the pyrido[2,3-d]pyrimidine class of compounds were developed as antagonists of protein tyrosine kinases implicated in cancer progression. Derivatives from this compound class are effective against most of the imatinib mesylate-resistant BCR-ABL mutants isolated from advanced chronic myeloid leukemia patients. Here, we established an efficient proteomics method employing an immobilized pyrido[2,3-d]pyrimidine ligand as an affinity probe and identified more than 30 human protein kinases affected by this class of compounds. Remarkably, in vitro kinase assays revealed that the serine/threonine kinases Rip-like interacting caspase-like apoptosis-regulatory protein kinase (RICK) and p38alpha were among the most potently inhibited kinase targets. Thus, pyrido[2,3-d]pyrimidines did not discriminate between tyrosine and serine/threonine kinases. Instead, we found that these inhibitors are quite selective for protein kinases possessing a conserved small amino acid residue such as threonine at a critical site of the ATP binding pocket. We further demonstrated inhibition of both p38 and RICK kinase activities in intact cells upon pyrido[2,3-d]pyrimidine inhibitor treatment. Moreover, the established functions of these two kinases as signal transducers of inflammatory responses could be correlated with a potent in vivo inhibition of cytokine production by a pyrido[2,3-d]pyrimidine compound. Thus, our data demonstrate the utility of proteomic methods employing immobilized kinase inhibitors for identifying new targets linked to previously unrecognized therapeutic applications.
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PMID:Chemical proteomic analysis reveals alternative modes of action for pyrido[2,3-d]pyrimidine kinase inhibitors. 1547 68

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