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Query: UMLS:C0596263 (carcinogenesis)
 64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has been recognized that the HCV (hepatitis C virus) core protein plays an important role in hepatocarcinogenesis. The functional inactivation of the Rb pathway appears to be a major event for multi-step cancer carcinogenesis. To elucidate the role of the HCV core protein in hepatocarcinogenesis, we investigated the effect of the HCV core protein on the Rb pathway in both Rat-1 cell lines, stably expressing the HCV core protein and the doxycycline-regulated cell lines. The HCV core stable transfectants showed a dramatic decrease in the pRb levels and E2F-1 up-regulation. In the doxycycline-regulated cell lines, the pRb levels were significantly decreased which are followed by E2F-1 up-regulation. HCV core stable transfectants showed higher cell growth rates and were sensitize to apoptosis. Thus, our results first indicate that the HCV core protein decreases the expression of pRb, thereby allowing E2F-1 to be constitutively active, which is thought to result in rapid cell proliferation or sensitizing to apoptosis.
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PMID:HCV core protein modulates Rb pathway through pRb down-regulation and E2F-1 up-regulation. 1134 83

Normal somatic cells terminate their replicative life span through a pathway leading to cellular senescence, which is triggered by activation of p53 and/or pRb in response to critically shortened telomere DNA. Potentially neoplastic cells must first overcome the senescence checkpoint mechanisms and subsequently activate telomerase to propagate indefinitely. Although telomerase activation is closely associated with cellular immortality, telomerase alone is not sufficient to warrant tumorigenicity. Environmental factors, including chemical carcinogens and viral infection, often contribute to aberrant changes leading to tumorigenic conversion of normal cells. Of particular importance in oral cancer development are tobacco-related chemical carcinogens and human papillomavirus (HPV) infection. To describe the molecular mechanisms by which these environmental factors facilitate the genesis of oral cancer, we first established an in vitro multistep oral carcinogenesis model by sequential exposure of normal human oral keratinocytes (NHOK) to "high risk" HPV and chemical carcinogens. Upon introduction of the HPV genome, the cells bypassed the senescence checkpoint and entered into an extended, but not immortal, life span during which telomere DNA continued to shorten. In a few immortal clones surviving beyond the crisis, we found a marked elevation of telomerase activity and stabilization of telomere length. Furthermore, the E6 and E7 oncoproteins of "high risk" HPV disrupted the cell cycle control and DNA repair in immortalized HOK, and enhanced mutation frequency resulting from genomic instability. However, HPV infection alone failed to give rise to a tumorigenic cell population, which required further exposure to chemical carcinogens in addition to HPV infection. Analysis of the data presented suggests that oral carcinogenesis is a series of discrete genetic alterations that result from a continued genotoxic challenge by environmental risk factors. Our in vitro model may be useful for investigators with interest in furthering our understanding of oral carcinogenesis.
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PMID:Conversion of normal to malignant phenotype: telomere shortening, telomerase activation, and genomic instability during immortalization of human oral keratinocytes. 1134 61

12-O-Tetradecanoylphorbol-13-acetate (TPA) induced apoptosis in the pig renal epithelial cell line LLC-PK1 after 24 h of treatment as assessed by caspase 3 activation. Cotreatment of the cells with bryostatin markedly reduced the apoptotic effects of TPA. Okadaic acid, another tumor promoter, also induced apoptosis. Expression of an activated ras gene prevented TPA-induced apoptosis, while a dominant negative ras retarded the process. Taken together, these results suggest that TPA-induced apoptosis in LLC-PK1 may be analogous to TPA-induced tumor promotion in the two-stage model of skin carcinogenesis. Mechanistically, TPA-induced apoptosis seemed to be the result of a conflict of the growth-promoting affects of serum and the growth-retarding effects of TPA. This was manifested by a pronounced hypophosphorylation of the retinoblastoma gene product, pRb, which was prevented by activated ras. Apoptosis and pRb hypophosphorylation were associated with a reduction in cyclin D1 levels, suggesting that the growth-retarding effects of TPA were produced by modulation of this cell cycle protein. Interestingly, the mechanism of protection by activated ras did not seem to result from downstream activation of phosphatidylinositol-3-kinase (PI3K) as has been implicated in other systems. Additional analysis revealed that TPA-induced apoptosis was associated with the downregulation of the anti-apoptotic proteins Bcl-x and Mcl-1 and dependent on the activity of the transcription factor Jun.
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PMID:12-O-tetradecanoylphorbol-13-acetate induces apoptosis in renal epithelial cells through a growth signal conflict which is prevented by activated ras. 1136 20

Components of the pRb/p16/cyclin D1/CDK4 pathway are frequent targets in numerous tumour types, including those of pituitary origin. However, previous studies of pituitary tumours have examined individual components of this pathway. Therefore, to determine their overall contribution we have simultaneously examined the immunohistochemical status of pRb, p16 and cyclin D1 and analysed the CDK4 gene for a characterized activating mutation. Of the total pituitary tumour cohort (29 clinically non-functioning adenomas and 16 somatotrophinomas) abnormal expression of either pRb, p16 or cyclin D1 was observed in 36 of 45 (80%) tumours and was significantly (P = 0.005) associated with non-functioning tumours (27/29; 93%) compared with somatotrophinomas (9/16, 56%). Loss of either pRb or p16 expression was mutually exclusive in 23 of 45 (51%) tumours, whilst concomitant loss of pRb and p16 expression was observed in five tumours. Cyclin D1 overexpression was observed in 22 of 45 (49%) tumours, however, there was no significant association between overexpression of cyclin D1 and the expression status of either pRb or p16. In addition, no activating mutations within codon 24 of the CDK4 gene were detected. This study provides evidence for the first time that components of the pRb/p16/cyclin D1/CDK4 pathway, either alone or in combination, are frequently deregulated in human pituitary tumours, suggesting that this pathway may be a useful target in drug or gene therapeutic approaches.
Carcinogenesis 2001 Aug
PMID:Aberrant expression of G(1)/S regulators is a frequent event in sporadic pituitary adenomas. 1147 Jul 42

The development of prostate cancer through a multistep process of carcinogenesis may have a long latent period of 20-30 years. It is possible that progression to a malignant state could be blocked or reversed during this time. This study focuses on the ability of the synthetic retinoid, N-(4-hydroxyphenyl)-retinamide (4-HPR), to reverse changes associated with malignant transformation and tumor progression, towards a normal phenotype. To examine the responsiveness of cells at different steps of prostate carcinogenesis, three immortalized, but non-tumorigenic (RWPE-1, WPE1-7 and WPE1-10), and one human prostate carcinoma cell line (DU-145), were used. The effects of 4-HPR on cell proliferation, expression of intermediate filament proteins cytokeratin 18 and vimentin, and tumor suppressor proteins p53 and pRb were examined by immunostaining and compared. Results show that 4-HPR caused inhibition of growth in all cell lines in a dose-dependent manner. 4-HPR induced an increase in staining for cytokeratin 18, a marker of differentiation for prostate epithelial cells. While all cell lines showed strong immunostaining for vimentin, treatment with 4-HPR for 8 days caused a marked decrease in staining for vimentin in all cell lines. In an in vitro assay, 4-HPR also caused inhibition of invasion by DU-145 cells in a dose-dependent manner. Furthermore, 4-HPR treatment was effective in significantly decreasing the abnormal nuclear staining for the tumor suppressor proteins p53 and pRb. Because 4-HPR decreased invasion-associated vimentin expression, inhibited invasion, and normalized p53 and pRb immunostaining, we propose that 4-HPR may be an effective agent for secondary and tertiary prevention, i.e. promotion and progression stages, respectively, of prostate cancer.
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PMID:N-(4-hydroxyphenyl)retinamide (4-HPR) decreases neoplastic properties of human prostate cells: an agent for prevention. 1155 92

We investigated the immunohistochemical expression of Rb protein (pRb), which plays an important role in the regulation of the cell cycle, in rat tongue carcinoma induced by 4-nitroquinoline 1-oxide. In addition, we made an immunohistochemical investigation of cyclin D1 and cdk4, which are involved in the Rb pathway. The labeling index of pRb expression in cases with carcinoma was significantly decreased compared with that in cases with a premalignant lesion (P<0.01), while the labeling index of cyclin D1 and cdk4 increased gradually during the course of carcinogenesis. We analyzed the phosphorylation of pRb by immunoblotting using G3-245 monoclonal antibody, which recognizes both the phosphorylated and unphosphorylated forms of pRb. Although expression of the phosphorylated pRb band was notably increased in dysplastic membrane compared with the control membrane, it almost disappeared in cases with carcinoma. Unphosphorylated pRb bands were also expressed in control membrane and dysplastic membrane but not in cases with carcinoma. In conclusion, a decrease of pRb and an increase of cdk4 and cyclin D1 were shown to occur during the premalignant stage. The decrease of pRb in quantity and the increase of its phosphorylation may prevent G1 arrest and consequently accelerate proliferation of the chemically injured cells contributing to the initiation of carcinogenesis.
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PMID:Alteration of pRb expression in the development of rat tongue carcinoma induced by 4-nitroquinoline 1-oxide. 1156 79

The INK4a-ARF locus, localized on 9p21, encodes two tumor suppressor proteins, p16INK4a and p14ARF, acting respectively through the CDK4-pRb and the p53 pathways. Familial melanoma (comprising between 8 and 12% of all melanoma cases) is a genodermatosis transmitted as an autosomal dominant trait, often associated with clinically atypical moles (AN). Germline mutations of p16INK4a are found in up to 20-30% of melanoma prone families. Mutated families often contain more than three family members affected and/or comprise at least one relative with multiple melanomas. Most of these mutations have been shown to affect p16INK4a protein function (i.e. CDK4 binding or pRB phosphorylation). Germline mutations of p16INK4a are also found in a lesser extend in sporadic multiple melanoma and in familial pancreatic cancer. The INK4a-ARF locus plays also an important role in skin carcinogenesis. P16INK4a UV induced mutations (CC:GG > TT:AA tandem transition or C:G > T:A transition at dipyrimidic site) are found in 12% of sporadic skin carcinomas, mainly in epidermoid tumors, and seem to occur independently of p53 mutations. Xeroderma pigmentosum (XP) is characterized by an inheritable DNA repair defect (involving the nucleotid excision repair (NER) system) predisposing to skin carcinomas. In skin tumors from (XP) patients, p16INK4a UV induced mutations occur more frequently, are often multiple, and significantly associated with the presence of p53 mutations. Such data, which could be related to the XP genetic instability and indicates a possible cooperative effect of inactivation of these pathways in the tumoral process of XP skin tumors.
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PMID:[The INK4a-ARF locus: role in the genetic predisposition to familial melanoma and in skin carcinogenesis]. 1174 99

It is well established that the initiation of G(1) arrest in cultured cells exposed to ionizing radiation (IR) is fully dependent upon the p53/p21waf1/pRb signaling cascade. However, the extent to which this pathway regulates G(1) arrest following exposure to UV is less clear. Here we demonstrate that primary human fibroblasts from either skin or lung, in which p53 has been functionally inactivated through expression of the human papillomavirus E6 oncoprotein, each undergoes a prolonged G(1) arrest upon UV irradiation. This same phenomenon is also observed for UV-exposed human tumor cell strains that are genetically deficient for p53, p21waf1 and/or pRb. Furthermore, for the isogenic wild-type counterparts of these primary and tumor cell strains, the onset of UV-induced G(1) arrest precedes any increase in the ratio of hypo- to hyper-phosphorylated pRb and virtually the entire period of growth arrest occurs in the absence of p21waf1 induction. The above data on UV-treated cells are in contrast to the expected situation for IR, for which G(1) arrest is abolished in all deficient cell lines, and, in the wild-type counterparts, correlates precisely with p21waf1 induction and an increase in the ratio of hypo- to hyper-phosphorylated pRb. Remarkably, it was observed that both IR- and UV-induced G(1) arrest are significantly attenuated in primary fibroblasts expressing the human papillomavirus E7 oncoprotein, which functionally inactivates pRb in addition to many other cellular proteins. Our findings conclusively demonstrate that the p53/p21/pRb cascade is not essential for the initiation of G(1) arrest in UV-exposed human cells and, furthermore, indicate the involvement in this process of any among a number of human papillomavirus E7-interacting cellular proteins.
Carcinogenesis 2002 Jan
PMID:The initiation of UV-induced G(1) arrest in human cells is independent of the p53/p21/pRb pathway but can be attenuated through expression of the HPV E7 oncoprotein. 1175 21

Recently, a series of shared molecular pathways have emerged that have in common a significant role in the pathogenesis and progression of both atherosclerosis and cancer. Oxidative stress and the cellular damage that results from it have been implicated in a wide variety of disease processes including atherogenesis and neoplasia. Toxic metabolites produced by cigarette smoking and increased dietary fat intake are implicated in the pathogenesis of both diseases. It has been hypothesized that atherosclerosis may begin when an injury or infection mutates or transforms a single arterial smooth muscle cell in the progenitor of a proliferative clone similar to the most widely held theory of carcinogenesis. Cell proliferation regulatory pathways including genes involved in the GIS checkpoint (p53, pRb, p15, p16, and cyclins A, D, E, and cdk 2,4) have been associated with plaque progression, stenosis and restenosis after angioplasty as well as in cancer progression. Alterations in cell adhesion molecules (integrins, cadherin-catenins) have been linked to plaque formation and thrombosis as well as to tumor invasion and metastasis. Altered expression of proteases associated with thrombolysis has been implicated in atherosclerotic plaque expansion and hemorrhage and in the invasion and metastasis of malignancy. Ligand-growth factor receptor interactions (tyrosine kinases) have been associated with early atherosclerotic lesions as well as cancer development and spread. Nuclear transcription factors such as NFkappaB have been associated with progression of both diseases. Angiogenesis modulators have recently been linked to plaque expansion and restenosis of atherosclerotic lesions as well as local and metastatic tumor expansion. Common disease treatments, such as the use of growth factor inhibitors and radiation treatment, established anticancer treatments, were recently introduced into atherosclerosis therapeutic strategies to prevent restenosis after angioplasty and endarterectomy. In conclusion, a series of molecular pathways of disease development and progression common to atherosclerosis and cancer support that the world's two most common diseases are far more closely aligned than previously believed and that emerging anti-inflammatory and antiproliferative therapeutic strategies may ultimately be efficacious in both conditions.
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PMID:Atherosclerosis and cancer: common molecular pathways of disease development and progression. 1179 76

BTG2/TIS21/PC3 protein is involved in the regulation of G1/S transition of the cell cycle by inhibiting pRb function, suggesting that BTG2/TIS21/PC3 regulation is critical for normal cell growth and proliferation. To understand the regulatory mechanisms for the expression of BTG2/TIS21/PC3 we cloned the human gene. Potential binding sites for several transcription factors were identified in the 5'-flanking region of the gene. Transient expression assays with BTG2/TIS21/PC3 promoter deletions and electrophoretic mobility shift analysis identified a major wild-type p53 response element located -74 to -122 relative to the start codon. This genomic fragment was sufficient to constitute a promoter element in the presence of p53. The BTG2/TIS21/PC3 gene is an antiproliferative gene which maps within a chromosomal segment (1q32) frequently altered in breast adenocarcinomas. However, no mutations of BTG2/TIS21/PC3 were detected in breast cancer cells, suggesting that the inactivation of this gene is not a frequent genetic event during breast carcinogenesis.
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PMID:The human BTG2/TIS21/PC3 gene: genomic structure, transcriptional regulation and evaluation as a candidate tumor suppressor gene. 1181 93


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