UMLS:C0596263 - FACTA Search

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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 suggested that p53 plays an important role in skin carcinogenesis. The p21 molecule acts as a downstream effector of wild-type p53 by enacting cell cycle arrest. We studied p53 and p21 expression in sun-exposed skin. Healthy volunteers were exposed to ultraviolet irradiation (UVA + UVB) in normal, previously non-sun-exposed skin, and skin biopsies were taken. Immunohistochemically detectable p53 and p21 were quantified, and the pattern of distribution was recorded. p53 was induced in epidermal cells 4 h after irradiation and returned to nearly normal levels after 120 h. Suprabasal cells showed a peak at 4 h, whereas basal cells peaked later, at 48 h. In epidermis, the expression of p21 was induced with a pattern that mirrored that of p53. In addition, p21 was induced in mesenchymal cells of the upper dermis, where there was no p53, suggesting an alternative pathway for p21 induction. Topical sunscreen and pigmentation (skin type 5) nearly eliminated UV-induced expression of p53 and p21. In contrast to the complete absence of p53 in skin never exposed to UV radiation, p21 reactivity was found in sharply demarcated areas of anagen hair follicles and sebaceous glands, as well as in scattered epidermal cells. The prevalence and distribution suggest a physiologic role of p21 in stopping the cell cycle in terminally differentiating skin epithelium. Archival skin material from the vicinity of skin lesions with variable sun exposure were also stained for p53. There was an increased "disperse" reactive staining pattern in skin samples excised in the summer as compared with less sunny seasons. Intensely stained p53 foci were detected as "compact bands" in morphologically normal epidermis, predominantly in sun-exposed areas of the skin, suggesting the existence of clonal proliferation of p53 mutated keratinocytes. These data show that p53 and p21 play a role in the human skin response to UV exposure and that p21 is implicated in the homeostasis of differentiating skin appendages.
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PMID:Ultraviolet light induces expression of p53 and p21 in human skin: effect of sunscreen and constitutive p21 expression in skin appendages. 766 21

Gastric cancer involves changes in multiple oncogenes and multiple suppressor genes, and it causes genetic instability. Aberrant expression and amplification of the c-met gene, inactivation of the p53 gene, and CD44 abnormal transcripts are common events of both well differentiated and poorly differentiated gastric cancers. Amplification of the cyclin E gene is also observed in gastric cancer regardless of histologic type. Decreased expression of the pic1 (p21) gene occurs independent of the p53 mutations. In addition, K-ras mutations, c-erbB-2 gene amplification, loss of heterozygosity (LOH) and mutations of the APC gene, LOH of the bcl-2 gene, and LOH at the DCC locus are preferentially associated with well differentiated gastric cancer. Moreover, LOH on chromosome 1q is involved in the progression of well differentiated cancer. Precancerous lesions, including hyperplastic polyp, intestinal metaplasia, and adenoma, share genetic changes found in well differentiated cancers. Conversely, genetic instability may be involved in the first step of stomach carcinogenesis of the poorly differentiated type. Reduction or loss of cadherin and catenins, K-sam gene amplification, and c-met gene amplification are necessary for the development and progression of poorly differentiated or scirrhous carcinoma. Interaction between cell-adhesion molecules in the c-met expressed tumor cells and hepatocyte growth factor from stromal cells is implicated in the morphogenesis of two types of gastric cancer.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Molecular biology of gastric cancer. 767 88

Cholesterol is widely distributed in the animal kingdom and occurs in all cell membranes. Even though the majority of body cholesterol is synthesized by the liver and secreted as circulating lipoproteins, all cells in the body have genomic information for cholesterol biosynthesis. Cholesterol biosynthesis is under feedback regulation, and the cellular and circulating cholesterol levels are tightly regulated at several points, such as the rate limiting enzyme 3-hydroxy-3-methyl-glutaryl coenzyme A (HMG-CoA) reductase and farnesyl pyrophosphate synthetase and at the low density lipoprotein (LDL) receptor. The cholesterol content and the rate of cholesterol biosynthesis are elevated in proliferating normal tissues and tumors. Cholesterol biosynthesis happens much before DNA synthesis, and inhibiting cholesterol biosynthesis inhibits cell growth, suggesting a linkage between the cholesterol and DNA synthetic pathways. The exact nature of this linkage is not known. However, recent evidence that the farnesyl moiety in the cholesterol biosynthetic pathway is necessary for the activation of G-proteins, and of the ras oncoprotein P21 has provided a probable basis for understanding this linkage, through signal transduction pathways. Thus, farnesylation of G proteins and ras oncoprotein P21 underscores the importance of the cholesterol biosynthetic pathway in cell growth and carcinogenesis. During normal cell growth and differentiation, LDL acts as a negative growth regulator and growth factors as positive signals, the neoplastic cell achieving autocrine growth due to the activation of protooncogens. It is interesting to note that in several types of cancer, the ras gene is mutated; these mutations could increase GTP binding, and lead to an activated p21. The activation of p21 would then be aided by continuous farnesylation due to stimulation of the cholesterol biosynthetic pathway in tumors. The cholesterol biosynthetic pathway, and ras p21 could therefore be used as targets for chemoprevention of cancer.
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PMID:The significance of the cholesterol biosynthetic pathway in cell growth and carcinogenesis (review). 776 99

The modern concept of oncogenesis is based upon the interaction between factors which modulate cellular growth and differentiation, in particular oncogenes and tumor suppressor genes. The molecular events which induce laryngeal carcinogenesis are not yet known. Protoncogenes seem to be the target of the risk factors (cigarette smoking, alcohol abuse, ionizing radiations and, not least HPV-DNA) that are commonly considered related to laryngeal squamous cell carcinoma. New information on the role of alterations of oncogenes and/or their proteic products in laryngeal cancer will be useful in identifying new diagnostic and clinical therapeutical applications. The Authors investigated Epidermal Growth Factor Receptor (EGFR) expression in 103 primary laryngeal squamous cell carcinoma and 42 normal laryngeal tissue specimens in order to assess its clinical significance in primary laryngeal cancer. Significantly higher EGFR levels were found in cancer specimens compared with normal mucosa (p < 0.001). EGFR expression did not correlate with age, tumor localization, T classification, cervicallymphonode involvement or surgery, whereas in G3 tumors it was significantly higher than in G1-G2 (p < 0.05). Follow-up data were available for 74 cases: EGFR levels resulted significantly higher in patients who had a recurrence of the disease than those in recurrence-free patients (p < 0.05). The 24-month disease-free survival (DFS) was 58% for EGFR+ patients and 82% for EGFR-subjects. Multivariate analysis permitted identification of EGFR status and tumor localization as significant independent prognostic factors. Data reported here suggest that EGFR expression probably plays a role not only by regulating the growth of laryngeal cancer, but also by identifying a sub-set of laryngeal cancer patients at a higher degree of relapse risk and with an unfavorable prognosis. Furthermore, in this study p21-ras expression in 43 primary laryngeal cancers and in 7 normal laryngeal mucosa specimens was evaluated. Scattered p21 levels, expressed as optical density (O.D), were found in normal mucosa (median = 1.94) and in primary laryngeal tumours (median = 1.74). Higher p21 levels were found in neoplastic tissue than in normal laryngeal tissue (median = 2.54 vs median = 1.94; p = 0.023). The correlation between p21 ras protein and EGFR levels was also investigated. EGFR+ cases do not show any difference in p21 expression with respect to EGFR- cases (median = 1.52 O.D. vs median = 1.84). Our findings suggest that overexpression of p21 is associated with malignant phenotype in laryngeal cancer.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Oncogenes and cancer of the larynx. EGFR, p21 ras and HPV-DNA infections]. 779 43

Five HPV-33-immortalized and 5 HPV-33 + ras-transfected cell lines were characterized in terms of growth in soft agar, tumorigenic potential in nude mice, p21 expression, morphology and expression of differentiation markers in organotypic cultures. No striking differences were observed between the HPV-33-immortalized cell lines and their corresponding ras-transfected counterparts as regards their tumorigenicity in nude mice (only one cell line was able to develop tumors in nude mice) or their behavior on lifted collagen gels. However, all the ras-transfected cell lines gave rise to colonies in soft agar while only 2 HPV-33-transfected lines (CK1 and CK4) displayed this property. The 10 cell lines could be divided into 2 groups with respect to their phenotype in monolayer and in organotypic cultures. Lines from group I (CK2, 3, 5 and their ras-transfected homologous lines) shared a typical epithelial phenotype in monolayer and the ability (a) to form an epithelium similar to a CIN-III lesion and (b) to strongly express keratins K1-K10 and involucrin in organotypic cultures. On the other hand, for the lines from group II (CK1, CK4, CK1EJ7 and CK4EJ5), there was a correlation between an elongated phenotype in monolayer and the property (a) to form a structure similar to a microinvasive carcinoma and (b) to express vimentin and keratins K8-K18. These cell lines, exhibiting various transformation-associated alterations, can be considered as an in vitro model representing various stages of HPV-33-associated cervical carcinogenesis.
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PMID:Differentiation ability and oncogenic potential of HPV-33- and HPV-33 + ras-transfected keratinocytes. 792 77

A newly cloned gene named wild-type p53-activated fragment 1 (WAF1; also known as p21, Pic-1, Cip-1, or SDI1) is directly regulated by p53 and can itself suppress tumor cell growth in culture. Induction of expression of WAF1 may be an important means by which cells with DNA injury arrest their growth to repair DNA or undergo apoptosis. Based on the hypothesis that mutations of this gene may play a role in carcinogenesis, we have studied 351 DNAs from 14 kinds of malignancies, as well as 36 human transformed cell lines, for alterations of WAF1 gene by single-strand conformation polymorphism analysis of polymerase chain reaction amplification of the DNA coding region of the WAF1 gene. No abnormal band shifts of WAF1 were noted in any of the samples or cell lines, but three major variants in exons 2 and 3 of the gene were found that are consistent with the existence of two different DNA polymorphisms. Sequence analysis of the amplified products producing these three variants in each exon from normal DNAs confirmed the presence of the polymorphisms in the WAF1 gene. Of 290 selected tumor samples previously evaluated for p53 mutations by single-strand conformation polymorphism, 90% had no detectable p53 alterations. In summary, mutations within the coding portion of the WAF1 gene were undetectable in a large series of human tumors, many of which had a normal p53 gene. This suggests that WAF1 alterations are generally caused indirectly, through p53 mutations rather than through intragenic mutation of the WAF1 itself.
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PMID:Absence of WAF1 mutations in a variety of human malignancies. 794 34

In our previous study, we demonstrated that azoxymethane (AOM) treatment significantly enhanced the expression of ras p21, the protein product of ras genes, and that the dietary administration of chemopreventive agents such as D,L-alpha-difluoromethylornithine (DFMO), a irreversible inhibitor of ornithine decarboxylase, and piroxicam, a non-steroidal anti-inflammatory drug (NSAID), exerted a significant inhibitory effect on AOM-induced ras p21 expression. In the present study, which is an extension of our earlier investigation, we have determined the effect of DFMO and piroxicam on mutational activation of ras protooncogenes during AOM-induced colon carcinogenesis. Groups of male F344 rats were fed the modified AIN-76A diet containing 0 or 150 p.p.m. piroxicam, or 4000 p.p.m. DFMO and administered s.c. AOM dissolved in normal saline at a dose rate of 15 mg/kg body wt, once weekly, for 4 weeks. Vehicle control groups received s.c. equal volumes of normal saline. Groups of animals were then killed at 0, 4, 16, 24 or 32 weeks after last AOM or saline injection. AOM-induced colon tumors and colonic mucosa from AOM treated as well as saline treated animals were analyzed for point mutations in K- and H-ras protooncogenes by a combination of polymerase chain reaction mediated restriction fragment length polymorphism (PCR-RFLP) and DNA sequencing. Our results demonstrate that of the total 65 AOM-induced colon tumors analyzed, 45/50 (90%) obtained from AOM-treated animals fed the control diet, 4/11 (36%) from AOM-treated animals fed piroxicam diet, and 1/4 (25%) from AOM-treated animals fed the DFMO diet, contained single-point mutations occurring specifically at the second nucleotide of codon 12 which were identified exclusively as G to A transitions in case of K-ras, and G to A transitions and also G to T transversions in H-ras. Similar point mutations were identified in colonic mucosa of 21/30 (70%) of AOM-treated animals fed the control diet, 10/30 (33%) of AOM-treated animals fed piroxicam diet, and none of 30 (0%) of AOM-treated animals fed DFMO diet. These results indicate that the administration of piroxicam and DFMO may inhibit the selective amplification of AOM-induced initiated cells carrying mutated ras genes. Dietary DFMO exerted more pronounced inhibition of selective amplification of initiated cells containing AOM-induced mutant ras. Data suggest that determination of ras activation may be a useful marker for chemoprevention of colon cancer.
Carcinogenesis 1994 Jul
PMID:Modulation of azoxymethane-induced mutational activation of ras protooncogenes by chemopreventive agents in colon carcinogenesis. 803 6

Mutations in ras oncogenes and expression of their encoded p21 protein products are believed to play an important role in carcinogenesis in humans. Detection of mutant p21 proteins in serum may be a useful molecular epidemiologic biomarker with which to study this process, and workers with heavy exposure to vinyl chloride (VC) represent a model population for such study. We studied the occurrence of a specific ras mutation (Asp 13 c-Ki-ras) by oligonucleotide hybridization and the expression of the corresponding p21 protein in tumor tissue and serum by immunohistochemistry and immunoblotting with monoclonal antibodies in five individuals with heavy exposure to VC and resultant angiosarcomas of the liver (ASL). Four of five (80 percent) of the cases of ASL were found to contain the mutation and to express the corresponding mutant protein in their tumor tissue and serum. Serum expression of the mutant protein also was examined in nine VC-exposed workers with liver angiomas and 45 VC-exposed workers with no evidence of liver neoplasia; eight of nine (89 percent) of the former and 22 of 45 (49 percent) of the latter were also positive for the mutant p21 in their serum. However, serum immunoblotting results for 28 age-gender-race matched, unexposed controls were all negative. Stratification by years of VC exposure showed a significant linear trend (P < 10(-5)) for the occurrence of the serum mutant p21 protein with increasing duration of exposure. These results suggest that detection of serum mutant p21 protein can be a valid surrogate for ras gene expression at the tissue level.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mutant c-Ki-ras p21 protein in chemical carcinogenesis in humans exposed to vinyl chloride. 806 Nov 77

Cutaneous exposure to solar ultraviolet B (UVB) radiation is well recognized as the major cause of skin cancer in humans; however, the precise molecular mechanisms whereby UVB mediates carcinogenesis remains unclear. The involvement of activated ras oncogenes has been demonstrated extensively in both animal and human skin cancers. Activated ras oncogenes encode mutated ras p21 that exist in the guanosine triphosphate-bound active state and, following localization to the inner side of the plasma membrane, cause cellular transformation. This membrane association requires three post-translational modifications occurring at the C-terminus of the ras p21. The farnesylation of p21 by a cytosolic enzyme known as farnesyltransferase (FTase) is the critical step that triggers biologic functions of the ras p21. In this study, FTase activity was found to be substantially higher (approximately threefold) in UVB radiation-induced tumors in SKH-1 hairless mice compared to epidermis from controls. Western blot analysis showed significantly higher levels of Ha-ras p21 in both cytosolic and membrane fractions prepared from tumors compared to epidermis. Pan ras antibody against mutated p21 at codon 12 showed very strong reactivity for ras val-12p21 in tumors but not in normal epidermis, suggesting a gly to val substitution at 12th position in ras p21 in UVB-induced tumors. Our data indicate that enhanced FTase activity and the processing of overexpressed p21 in UVB-induced tumors are correlated, and predict the role of point mutation at the 12th codon of the ras oncogene during photocarcinogenesis in mice.
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PMID:Ras p21 farnesylation in ultraviolet B radiation-induced tumors in the skin of SKH-1 hairless mice. 817 59

This paper modifies and extends an earlier one on the same subject. It explains why external (but not internal) surface molecules of plasma membrane clusters may be rapidly scattered by any external challenging bioelectrical field. Temporary clusters from challenges may induce mitosis in cells near wounds and in epithelial stem cells. Weak challenges of much longer duration may initiate carcinogenesis by permanent clusters. Basic intracellular ligand/receptors or oncogene products in sufficient concentration at the membrane inner lipid layer may form permanent clusters rapidly. Additive increase of inner surface clusters by initiating agents is equated to promotion; accelerated cluster growth to progression. As a malignant cell grows, its cluster population increases until its membrane becomes permeable enough to stimulate mitosis. A progression mechanism is suggested that is consistent with the known properties of ras p21 proteins. The effect of long term exposure to power transmission line fields on mitosis and carcinogenesis is discussed. An approach to anticancer therapy is suggested, using a hypothesis-based mechanism for the anti-cancer activity of retinoic acid.
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PMID:The membrane cluster hypothesis of mitogenesis and carcinogenesis. 823 97

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