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)

Cigarette smoke, the major risk factor for lung cancer, induces an accumulation of reactive oxygen species. These have multiple effects on cell defense, cell proliferation and cell death. Thus, compounds involved in the regulators of redox balance can be hypothesized to play a fundamental role in both carcinogenesis and tumor progression. Here, we have evaluated the expressions of all 6 peroxiredoxins (Prxs I-VI) in lung carcinomas. Prxs represent a protein family with the capability of breaking down hydrogen peroxide; thus, they can participate in cellular antioxidant defense, regulate cell proliferation and increase drug resistance of cultured cells. Altogether 92 cases were investigated by immunohistochemistry, including 32 adenocarcinomas, 45 squamous cell, 9 small cell and 6 other carcinomas. Additionally, 11 cases with adenocarcinoma or squamous cell carcinoma were studied by Western analysis and/or by RT-PCR. Prxs I, II, IV and VI were particularly elevated in lung carcinomas as assessed by immunohistochemistry and/or RT-PCR. Western analysis revealed that Prxs I and IV were significantly elevated in tumors compared to nonmalignant tissue (p = 0.04 and 0.002, respectively). There were remarkable variations in Prx expression in various tumor subtypes, the most striking being Prx IV expression, which was mainly associated with adenocarcinoma. Elevated Prx VI expression was associated with high-grade squamous cell carcinoma (p = 0.03) and Prx II expression, with advanced tumor stage (p = 0.01). Our results suggest that Prxs may have effects on the progression of lung cancer.
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PMID:Peroxiredoxins, a novel protein family in lung cancer. 1523 28

Reactive oxygen species (ROS), generated by endogenous and exogenous sources, cause significant damage to macromolecules, including DNA. To determine the cellular effects of induced, oxidative DNA damage, we established a relationship between specific oxidative DNA damage levels and biological consequences produced by acute H2O2 exposures in yeast strains defective in one or two DNA damage-handling pathways. We observed that unrepaired, spontaneous DNA damage interferes with the normal cellular response to exogenous oxidative stress. In addition, when base excision repair (BER) is compromised, there is a preference for using recombination (REC) over translesion synthesis (TLS) for handling H2O2-induced DNA damage. The global genome transcriptional response of these strains to exogenous H2O2 exposure allowed for the identification of genes responding specifically to induced, oxidative DNA damage. We also found that the presence of DNA damage alone was sufficient to cause an increase in intracellular ROS levels. These results, linking DNA damage and intracellular ROS production, may provide insight into the role of DNA damage in tumor progression and aging. To our knowledge, this is the first report establishing a relationship between H2O2-induced biological endpoints and specific oxidative DNA damage levels present in the genome.
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PMID:Biological consequences of oxidative stress-induced DNA damage in Saccharomyces cerevisiae. 1525 73

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 tumor suppressor gene p53 controls cellular response to a variety of stress conditions, including DNA damage and hypoxia, leading to growth arrest and/or apoptosis. Inactivation of p53, found in 40-50% of human cancers, confers selective advantage under hypoxic microenvironment during tumor progression. The mole rat, Spalax, spends its entire life cycle underground at decidedly lower oxygen tensions than any other mammal studied. Because a wide range of respiratory adaptations to hypoxic stress evolved in Spalax, we speculated that it might also have developed hypoxia adaptation mechanisms analogous to the genetic/epigenetic alterations acquired during tumor progression. Comparing Spalax with human and mouse p53 revealed an arginine (R) to lysine (K) substitution in Spalax (Arg-174 in human) in the DNA-binding domain, identical to known tumor associated mutations. Multiple p53 sequence alignments with 41 additional species confirmed that Arg-174 is highly conserved. Reporter assays uncovered that Spalax p53 protein is unable to induce apoptosis-regulating target genes, resulting in no expression of apaf1 and partial expression of puma, pten, and noxa. However, cell cycle arrest and p53 stabilization/homeostasis genes were overactivated by Spalax p53. Lys-174 was found critical for apaf1 expression inactivation. A DNA-free p53 structure model predicts that Arg-174 is important for dimerization, whereas Spalax Lys-174 prevents such interactions. Similar neighboring mutations found in human tumors favor growth arrest rather than apoptosis. We hypothesize that, in an analogy with human tumor progression, Spalax underwent remarkable adaptive p53 evolution during 40 million years of underground hypoxic life.
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PMID:Evolution of p53 in hypoxia-stressed Spalax mimics human tumor mutation. 1530 22

The synthetic retinoid N-(4-hydroxyphenyl)retinamide (4HPR) induces apoptosis in a variety of human cancer cells including breast carcinoma and this property may be important for its chemopreventive and therapeutic effects. Resistance to 4HPR has been described, however, the molecular mechanisms underlying sensitivity or resistance to this retinoid are not clear. Recently, it has been shown that the carbohydrate-binding protein galectin-3, which has been implicated in tumor progression, contains the anti-death motif NWGR present in the anti-apoptotic protein Bcl-2. To determine whether galectin-3 expression can abrogate the effect of 4HPR, we tested the effects of 4HPR on apoptosis of cell clones derived from the galectin-3 deficient human BT549 breast carcinoma cells after transfection with either wild type galectin-3 (BT549Gal-3Wt), galectin-3 inactivated by a point mutation in the NWGR motif (BT549Gal-3Mu), or empty vector control (BT549Vec). Both BT549Vec and BT549Gal-3Mu cells showed a marked decrease in survival after treatment with 4HPR principally due to induction of apoptosis. 4HPR-induced apoptosis in these cells was associated with stimulation of reactive oxygen species generation, decreased levels of Bcl-2 protein, release of cytochrome c into the cytosol, increased caspase-3 activity, and poly(ADP-ribose) polymerase cleavage. In contrast, 4HPR failed to exert any of these effects in the BT549Gal-3Wt cells. The demonstration that galectin-3 suppresses 4HPR-induced apoptosis in human breast carcinoma cells suggests that the increased expression of galectin-3 during cancer progression may be associated with 4HPR resistance.
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PMID:Inhibition of N-(4-hydroxyphenyl)retinamide-induced apoptosis in breast cancer cells by galectin-3. 1532 75

Hypoxia-inducible factor-1alpha (HIF-1alpha) plays a central role in oxygen homeostasis by inducing the expression of a broad range of genes in a hypoxia-dependent manner. Here, we show that the orphan nuclear receptor Nur77 is an important regulator of HIF-1alpha. Under hypoxic conditions, Nur77 protein and transcripts were induced in a time-dependent manner. When Nur77 was exogenously introduced, it enhanced the transcriptional activity of HIF-1, whereas the dominant negative Nur77 mutant abolished the function of HIF-1. The HIF-1alpha protein was greatly increased and completely localized in the nucleus when coexpressed with Nur77. The N-terminal transactivation domain of Nur77 was required and sufficient for the activation of HIF-1alpha. The association of HIF-1alpha with von Hippel-Lindau protein was not affected, whereas that with mouse double minute 2 (MDM2) was greatly reduced in the presence of Nur77. Further we found that the expression of MDM2 was repressed at transcription level in the presence of Nur77 as well as under hypoxic conditions. Finally, PD98059 decreased Nur77-induced HIF-1alpha stability and recovered MDM2 expression, indicating that the extracellular signal-regulated kinase pathway is critical in the Nur77-induced activation of HIF-1alpha. Together, our results demonstrate a novel function for Nur77 in the stabilization of HIF-1alpha and suggest a potential role for Nur77 in tumor progression and metastasis.
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PMID:Novel function of orphan nuclear receptor Nur77 in stabilizing hypoxia-inducible factor-1alpha. 1538 70

Lactate production from glucose even in the presence of oxygen is a characteristic of cancer cell metabolism and an important feature for tumor progression. Here, we describe that an increased uptake of lactate into mitochondria of HT-29 human colon cancer cells by treatment of cells with the flavonoid flavone is associated with an increased production of mitochondrial superoxide anions and apoptotic cell death. In search of the mitochondrial transporter that could promote enhanced lactate uptake and energetic flow through the electron transport chain, we used fluorescein as a model substrate. Flavone increased fluorescein uptake at pH 7.4 into mitochondria of HT-29 cells almost tenfold while lactate inhibited uptake significantly. Uptake of fluorescein in the absence or presence of flavone was strongly increased by lowering pH from 7.4 to 6.0 and almost abolished by the protonophore carbonyl cyanide m-chlorophenylhydrazone (CCCP). The lactate-sensitive part of fluorescein transport was completely blocked by p-chloromercuribenzenesulfonic acid (pCMBS), a specific inhibitor of the monocarboxylate transporter-1 (MCT-1) that by Western blotting and immunofluorescence was identified in mitochondria of HT-29 cells. Finally, lactate increased and pCMBS inhibited the flavone-induced generation of mitochondrial O2-* radicals and in turn blunted the apoptotic response. In conclusion, our studies provide evidence that flavone reverts the metabolic phenotype of transformed colonocytes towards a phenotype characteristic for normal cells. Transformed colonocytes, however, seem especially vulnerable to O2-*, produced in mitochondria as a consequence of these metabolic alterations, and respond with the induction of apoptosis.
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PMID:Activation of mitochondrial lactate uptake by flavone induces apoptosis in human colon cancer cells. 1545 31

The Apc(Min/+) mouse is a popular animal model for studies of human colon cancer, but the molecular changes associated with neoplasia in this system have only been partially characterized. Our aim was to identify novel genes involved in tumorigenesis in this model. RNA from intestinal adenomas and from pre-neoplastic small intestine were prepared from six Apc(Min/+) mice. The tumor transcriptomes were analyzed with high-density oligonucleotide microarrays representing approximately 12,000 probe sets; we compared their profiles with those of matched pre-neoplastic intestine. Stringent analysis revealed reproducible changes for 98 probe sets representing 90 genes, including novel observations regarding 50 genes whose involvement in this mouse model has never been reported. In addition to the expected changes in growth regulatory genes, the altered gene products could be assigned to four functional groupings that should enhance tumorigenesis: metabolic changes that would result in a high rate of glycolysis, alterations in enzymes involved in reactive oxygen species or carcinogen metabolism, cytoskeletal elements, and proteins involved in tumor invasion or angiogenesis. A fifth group consisted of expression changes that might restrict tumor progression, suggesting that the adenomatous state reflects a balance of pro- and anti-tumorigenic factors. Since many of the altered genes had not previously been reported to be involved in any tumorigenic processes, our observations provide a host of new candidates for potential modulation to prevent or treat intestinal neoplasia.
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PMID:ApcMin/+ mouse model of colon cancer: gene expression profiling in tumors. 1548 83

Hypoxic up-regulation of hypoxia-inducible factors (HIFs) during tumourigenesis presents an interesting paradox with respect to their role in tumour growth. Hypoxia-inducible factor 1 (HIF-1) plays a key role in the adaptive response to hypoxia, trans-activating many genes whose protein products are involved in pathways of angiogenesis, glucose metabolism and cell proliferation, thus facilitating tumour progression. However, it is also emerging that up-regulation of HIF-1 trans-activates anti-proliferative and pro-apoptotic genes (such as BNIP3, NIX and IGFBP3). This makes it unclear as to whether HIF-1 up-regulation provides a selective advantage or disadvantage to neoplastic progression under hypoxia. In addition, vagaries in the hypoxic microenvironment of the tumour such as pH changes, presence of reactive oxygen species and energy availability in the form of adenosine triphosphate (ATP), appear to influence the function of HIF-1 and up-regulated pathways and affect susceptibility to undergo hypoxic cell death. It is apparent that hypoxic cancer cells must be able to select against HIF-1 mediated cell death signals in order to survive and progress towards malignancy. Hypoxia-induced HIF-1 may in itself serve to select for increased malignancy by exerting pressure in the form of anti-proliferative signals that must be escaped. Understanding the mechanisms by which HIF-1 induces cell death and the manner in which the tumour cell can overcome such signals, is critical for our understanding of cancer progression and the development of effective therapeutics.
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PMID:Hypoxia-inducible factors and hypoxic cell death in tumour physiology. 1551 3

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