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)

In cervical carcinogenesis, the p53 tumor suppressor pathway is disrupted by HPV (human papilloma virus) E6 oncogene expression. E6 targets p53 for rapid proteasome-mediated degradation. We therefore investigated whether proteasome inhibition by MG132 could restore wild-type p53 levels and sensitize HPV-positive cervical cancer cell lines to apoptotic stimuli such as rhTRAIL (recombinant human TNF-related apoptosis inducing ligand). In a panel of cervical cancer cell lines, CaSki was highly, HeLa intermediate and SiHa not sensitive to rhTRAIL-induced apoptosis. MG132 strongly sensitized HeLa and SiHa to rhTRAIL-induced apoptosis in a caspase-dependent and time-dependent manner. MG132 massively induced TRAIL receptor DR4 and DR5 membrane expression in HeLa, whereas in SiHa only DR5 membrane expression was upregulated from almost undetectable to high levels. Antagonistic DR4 antibody partially inhibited apoptosis induction by rhTRAIL and MG132 in HeLa but had no effect on apoptosis in SiHa. Inhibition of E6-mediated p53 proteasomal degradation by MG132 resulted in elevated levels of active p53 as demonstrated by p53 small interfering RNA (siRNA) sensitive p21 upregulation. Although p53 siRNA partially inhibited MG132-induced DR5 upregulation in HeLa and SiHa, no effect on rhTRAIL-induced apoptosis was observed. MG132 plus rhTRAIL enhanced caspase 8 and caspase 3 activation and concomitant cleavage of X-linked inhibitor of apoptosis (XIAP), particularly in HeLa. In addition, caspase 9 activation was only observed in HeLa. Downregulation of XIAP using siRNA in combination with rhTRAIL induced high levels of apoptosis in HeLa, whereas MG132 had to be added to the combination of XIAP siRNA plus rhTRAIL to induce apoptosis in SiHa. In conclusion, proteasome inhibition sensitized HPV-positive cervical cancer cell lines to rhTRAIL independent of p53. Our results indicate that not only DR4 and DR5 upregulation but also XIAP inactivation contribute to rhTRAIL sensitization by MG132 in cervical cancer cell lines. Combining proteasome inhibitors with rhTRAIL may be therapeutically useful in cervical cancer treatment.
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PMID:Proteasome inhibitor MG132 sensitizes HPV-positive human cervical cancer cells to rhTRAIL-induced apoptosis. 1628 99

Regulated protein destruction controls many key cellular processes with aberrant regulation increasingly found during carcinogenesis. Gli proteins mediate the transcriptional effects of the Sonic hedgehog pathway, which is implicated in up to 25% of human tumors. Here we show that Gli is rapidly destroyed by the proteasome and that mouse basal cell carcinoma induction correlates with Gli protein accumulation. We identify two independent destruction signals in Gli1, D(N) and D(C), and show that removal of these signals stabilizes Gli1 protein and rapidly accelerates tumor formation in transgenic animals. These data argue that control of Gli protein accumulation underlies tumorigenesis and suggest a new avenue for antitumor therapy.
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PMID:Dual degradation signals control Gli protein stability and tumor formation. 1642 Dec 75

A major protective mechanism against oxidizing substances capable of damaging DNA integrity and initiating carcinogenesis is the induction of phase II detoxification and antioxidant enzymes by chemopreventive agents. A key finding in the field of chemoprevention has been the discovery that the induction of these enzymes is mediated by the cytoplasmic oxidative stress system (Nrf2-Keap1). Under basal (reducing) conditions, Keap1 anchors the Nrf2 transcription factor within the cytoplasm, targeting it for ubiquitination and proteasome degradation, thus repressing its ability to induce phase II genes. When cells are exposed to chemopreventive agents and oxidative stress, however, a signal involving phosphorylation and/or redox modification is transmitted to the Nrf2-Keap1 complex, leading to its dissociation and the nuclear translocation of Nrf2, which, after hetero-dimerically partnering with other transcription factors, binds to the AREs/EpREs present within phase II gene promoters, increasing their transcription. These data should assist in developing new phase II detoxification enzyme inducers as cancer chemopreventive agents within the clinical environment.
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PMID:Activation of the Nrf2-ARE signaling pathway: a promising strategy in cancer prevention. 1643 93

The activity of a set of peptidases (proteases) involved in cancer progression is collectively known as the cancer 'degradome'. Invasion and metastasis were initially considered as late events in cancer development and the processes in which proteases were involved. However, recent studies indicate that invasion and metastasis are not late events, but can occur during early stages as well. Moreover, other processes occurring in various stages of cancer progression are also protease-dependent, such as (upregulation of) cell proliferation, (downregulation of) apoptosis, involvement of white blood cells, angiogenesis and induction of multi-drug resistance. Proteolytic activity in tumours is regulated in a complex manner, as both genetically unstable cancer cells and stable stromal cells, such as fibroblasts, endothelial cells and inflammatory cells, are involved. In vitro studies and studies using animal models have clearly shown protease dependency of many processes in carcinogenesis. However, clinical trials using protease inhibitors have thus far been unsuccessful except for a few applications of matrix metalloprotease (MMP) inhibitors when used in combination with cytostatic anticancer agents and/or in the early stages of cancer. Antithrombotics, such as low-molecular-weight heparin and warfarin, were also successful in clinical trials, probably by interfering with proteases of the coagulation cascade. The two-way association between cancer and thrombosis has long been recognised in the clinic. The poor outcome of other clinical trials of protease inhibitors is probably due to the late stages of cancer of the patient populations included, and the limited understanding of the complex regulation and effects of the activity of the various proteases in tumours depending on, among others, tumour type and stage, interactions between the cancer cells, other cells and the extracellular matrix in tumours. Therefore, a better fundamental understanding of the proteolytic complexity in tumours is essential before clinical trials can be rationally designed. At present, antithrombotics, the urokinase-type plasminogen activator system, the membrane-bound membrane-type 1-MMP, cathepsin L and the proteasome seem the most promising candidates as targets for anticancer strategies in early stages of cancer in combination with cytotoxic drugs. Moreover, metronomic therapy is an attractive approach using low doses of inhibitors for prolonged periods of time without interruption to specifically target endothelial cells that are involved in angiogenesis.
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PMID:Antiprotease therapy in cancer: hot or not? 1650 35

We demonstrate here for the first time novel positive and negative effects of the FLICE-like inhibitory protein (FLIP) on human prostate cancer cell survival. A proteaosome inhibitor, MG132, mediated cell cycle arrest at G2/M and apoptosis through p38 activation. Interestingly, FLIP was stabilized by MG132 and interacted with Raf-1, resulting in enhancement of p38 signals and cytotoxicity. In contrast, overexpression of FLIP inhibited ubiquitylation and proteasomal degradation of beta-catenin, resulting in increase of the target gene cyclin D1, colony formation and invasive activity. Immunohistochemical analysis and in vitro experiments in primary culture showed FLIP to be overexpressed, statistically associated with expression of beta-catenin/cyclin D1 in metastatic cells, the FLIP/beta-catenin/cyclin D1 signals contributing to colony formation and invasion, which were canceled by FLIP knock down. In contrast, MG132-induced cytotoxicity including apoptosis was strongly inhibited by reduction of FLIP. Taken together, the results indicate that FLIP plays an important role in development of metastatic prostate cancer by inhibiting proteasomal degradation of beta-catenin, whereas it is mainly involved in proteasome inhibitior-mediated cell cycle arrest and apoptosis through activating the Raf-1/p38 pathway. Furthermore, proteasome inhibitors may be effective drugs for advanced prostate cancers overexpressing FLIP.
Carcinogenesis 2006 Jul
PMID:Specific positive and negative effects of FLIP on cell survival in human prostate cancer. 1653 61

To clarify the clinical implications of promyelocytic leukemia (PML) expression in gastric carcinomas, the expression of PML was analyzed in large series of gastric carcinoma by immunohistochemistry, western blotting and reverse transcription-PCR. PML protein expression was reduced or abolished in gastric carcinomas (31.7 and 10.6%, respectively) by immunohistochemistry. PML protein loss was associated with more lymphatic invasion, higher pTNM stage, and worse patient survival. Only one gastric carcinoma cell line showed loss of PML, and the PML protein re-appeared after the treatment of proteasome inhibitor in this cell line. We conclude that PML protein loss occurs in a minority of gastric carcinomas during carcinogenesis and progression, and suggest the proteasome-dependent pathway as a mechanism of PML protein loss.
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PMID:Loss of promyelocytic leukemia protein in human gastric cancers. 1671 73

Activation of protein kinase C (PKC) by phorbol 12-myristate 13-acetate (PMA) triggers cellular signals that lead to the activation of the transcription factor NF-kappaB (nuclear factor kappaB) in various cell types. In addition to NF-kappaB activation by short-time PMA treatment, here we report that the prolonged exposure of human colonic cancer epithelial cells treated with PMA can also lead to a persistent inhibition of NF-kappaB activation. PMA selectively causes the degradation of IkappaB kinases (IKKs) including IKK-gamma and IKK-beta, and subsequent inhibition of tumor necrosis factor (TNF) induced IKK and NF-kappaB activation in human colon cancer cell line HCT-116, but not in other gastrointestinal tract cells. The use of Ro-318220 and GO-6983, general PKC inhibitors as well as MG-132, a proteasome-specific inhibitor, abrogated PMA-induced degradation of IKK-gamma and recovered the activation of IKK by TNF, suggesting that IKK complex is predominantly degraded by the proteasome pathway in a PKC-dependent manner. We also found that IKK-gamma strongly associates with heat shock protein 90 (Hsp90) in HCT-116 cells, and that this interaction was dramatically reduced after exposure to PMA. Furthermore, high levels of Hsp90 expression and enhanced association with IKK were observed in human colon cancer tissues. Taken together, these results suggest that long-term activation of PKC by PMA inhibits NF-kappaB system in case of colon cancer cells by disrupting the interaction of IKK-gamma with Hsp90, which may represent a novel regulatory mechanism of PKC-dependent cellular differentiation and limited proliferation of colonic epithelial cells.
Carcinogenesis 2007 Jan
PMID:Sustained activation of protein kinase C downregulates nuclear factor-kappaB signaling by dissociation of IKK-gamma and Hsp90 complex in human colonic epithelial cells. 1677 32

Electrophiles generated during metabolic activation of carcinogens and reactive oxygen species formed from endogenous and exogenous sources might play a significant role in carcinogenesis. Cancer chemoprevention by induction of phase II detoxifying enzymes to counteract the insults of these reactive intermediates is under intensive investigation. Nrf2, a bZIP transcription factor, plays a central role in the regulation of phase II genes by binding to the antioxidant response element (ARE) in their promoters. Identification of novel Nrf2-regulated genes is likely to provide insight into cellular defense systems against the toxicities of electrophiles and oxidants and may define effective targets for achieving cancer chemoprevention. Phenethyl isothiocyanate (PEITC) is a promising chemopreventive agent that exerts its effects by induction of phase II enzymes via activation of Nrf2. In the present study, a transcriptional profile of liver of the wild-type (Nrf2+/+) and knock-out (Nrf2-/-) mice after treatments with vehicle or PEITC at 3 h and at 12 h was generated using the Affymetrix Mouse Genome 430 2.0 Array. Comparative analysis of gene expression changes between different treatment groups of wild-type and Nrf2-deficient mice facilitated identification of numerous genes regulated by Nrf2. These Nrf2-dependent and PEITC-inducible genes include known detoxication enzymes, as well as novel xenobiotic-metabolizing genes regulated by Nrf2 such as CYP 2c55, CYP 2u1 and aldehyde oxidase. Unexpected clusters included genes for heat shock proteins, ubiquitin/26 S proteasome subunits, and lipid metabolism molecules. Collectively, the identification of these genes not only provides novel insight into the effect of PEITC on global gene expression and chemoprevention, but also reveals the role of Nrf2 in those processes, which would confer cancer chemopreventive future.
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PMID:Identification of Nrf2-regulated genes induced by chemopreventive isothiocyanate PEITC by oligonucleotide microarray. 1682 9

In the classical form of alpha-1-antitrypsin (AT) deficiency a point mutation renders aggregation-prone properties on a hepatic secretory protein. The mutant ATZ protein in retained in the endoplasmic reticulum (ER) of liver cells rather than secreted into the blood and body fluids where it ordinarily functions as an inhibitor of neutrophil proteases. A loss-of-function mechanism allows the neutrophil proteases to slowly destroy the connective tissue matrix of the lung, resulting in premature development of pulmonary emphysema as early as the third decade of life. A gain-of-toxic function mechanism is responsible for liver inflammation and carcinogenesis. Indeed this deficiency is the most common genetic cause of liver disease in children in the US. It also causes chronic liver inflammation and carcinoma that manifests itself later in life. However, the majority of affected homozygotes apparently escape liver disease. This last observation has led to the concept that genetic and/or environmental modifiers affect the disposal of mutant ATZ within the ER or affect the protective cellular responses activated by accumulation of ATZ in the ER and, in turn, these modifiers determine which homozygotes develop liver inflammation and carcinoma. In this article I review a series of studies published over the last six years showing that autophagy is specifically activated by ER accumulation of ATZ and that it plays a critical role in the disposal of this mutant protein. Indeed, the most recent studies suggest that there is specialization of the autophagic pathway in that it is specifically activated by, and designed for disposal of, the aggregated forms of ATZ while the proteasome is specialized for disposal of soluble forms of ATZ. Together, these studies provide further evidence for the importance of autophagy in the cellular adaptive response to aggregated proteins in general.
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PMID:The role of autophagy in alpha-1-antitrypsin deficiency: a specific cellular response in genetic diseases associated with aggregation-prone proteins. 1687 89

Aspirin and other nonsteroidal anti-inflammatory drugs inhibit cell proliferation and induce apoptosis in various cancer cell lines, which is considered to be an important mechanism for their anti-tumor activity and prevention of carcinogenesis. However, the molecular mechanisms through which these compounds induce apoptosis are not well understood. Here we have found that aspirin treatment of the mouse Neuro 2a cells impaired the proteasome function and caused severe mitochondrial abnormalities. Treatment with aspirin lead to a dose- and time-dependent decrease in proteasome activity and an increase in the accumulation of ubiquitylated proteins in the cells, which correlated with its effect on cell death. Aspirin exposure also resulted in an increase in the half-life of pd1EGFP, a model substrate of proteasome, as well as various intracellular substrates like Bax, IkappaB-alpha, p53, and p27(kip1). Aspirin-induced proteasomal malfunction might be responsible, at least in part, for the down-regulation of NF-kappaB activity and neurite outgrowth. Finally, we have shown that aspirin treatment caused changes in the mitochondrial membrane potential, release of cytochrome c from mitochondria, and activation of caspase-9 and -3, which could be because of the proteasomal dysfunction.
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PMID:Aspirin induces apoptosis through the inhibition of proteasome function. 1688 Feb 2


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