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

The evaluation of the cancer cell is a complex multigene process. Tumor suppressor genes that are lost or inactivated, as well as genes that are overexpressed, play key roles in tumor progression. The identification of overexpressed genes has been expedited by the presence of transforming genes in some animal retroviruses. However, tumor suppressor genes have been difficult to identify and isolate because of their loss or inactivation during tumorigenesis. By a variety of methods, summarized in this review, a few tumor suppressors have been cloned and characterized, and many more have been recognized indirectly. The general finding at this time is that the same tumor suppressors (and oncogenes) are found associated with many different tumors, that several different altered genes are found typically in the same tumors, and that other oncogenes and tumor suppressor genes seem to be characteristically altered in particular tumor types as well. Functions of tumor suppressor genes include the control of normal cell activities such as proliferation and differentiation as well as senescence, which is a special kind of differentiation in which cells lose their ability to divide. The genetic basis of senescence and identification of genes involved in overcoming senescence, leading to immortalization (i.e., indefinite growth potential), are important areas of current investigation. Our laboratory is engaged in senescence/immortalization studies as a result of our discovery that normal human mammary epithelial cells can be immortalized by DNA of the human papilloma virus. These new studies are summarized here.
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PMID:Genetic strategies of tumor suppression. 217 61

We previously reported that a transgenic mouse line containing the fetal globin promoter linked to the SV40 T antigen (T Ag) viral oncogene (Ggamma/T-15) resulted in prostate tumors. In this study, we further explored tumor origin, frequency, invasiveness, androgen sensitivity, and gene expression pattern. T Ag was detected in adult but not fetal and neonatal prostates, suggesting a role for androgens in tumor progression. However, castration shortly after prostate morphogenesis did not prevent tumor development, suggesting an androgen-independent phenotype. Tumors originated within ventral or dorsal prostate lobes and involved intraepithelial neoplasia, rapid growth in the pelvic region, and metastasis to lymph nodes and distant sites. In addition, the primary cancers could be propagated in nude mice or nontransgenic mice. Seventy-five percent of hemizygous and 100% of homozygous transgenic males developed prostate tumors, suggesting a T Ag dosage effect. Biochemical characterization of advanced tumors revealed markers of both neuroendocrine and epithelial phenotypes; markers of terminal differentiation are lost early in tumorigenesis. Tumor suppressor genes (p53 and Rb), normally bound to T Ag, were up-regulated; bcl-2 proto-oncogene, which prevents apoptosis, was slightly up-regulated. Myc, a stimulus to cell cycle progression, was unchanged. We propose the Ggamma/T-15 transgenic line as a model of highly aggressive androgen-independent metastatic prostate carcinoma with features similar to end-stage prostate cancer in humans.
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PMID:Prostate cancer progression, metastasis, and gene expression in transgenic mice. 904 Nov 92

Target genes implicated in cellular transformation and tumor progression have been divided into two categories: proto-oncogenes which, when activated, become dominant events characterized by the gain of function, and tumor suppressor genes which become recessive events characterized by the loss of function. Alterations in proto-oncogenes and tumor suppressor genes seem equally prevalent among human cancers. Multiple mutations appear to be required to conform the malignant phenotype. Proto-oncogenes are activated mainly by point mutations; however, amplification and translocation events are also common. Tumor suppressor genes are inactivated by an allelic loss followed by a point mutation of the remaining allele. The prototype suppressor genes are the retinoblastoma (RB) gene and the TP53 (also known as p53) genes. Recent studies have shown that inactivation of TP53 and RB occur in bladder tumors that have a more aggressive clinical outcome and poor prognosis. We will review the molecular abnormalities associated with both oncogenes and tumor suppressor genes in bladder tumors, and also discuss the potential clinical use of their detection. The implementation of objective predictive assays to identify these alterations in clinical material will enhance our ability to assess tumor biological activities and to design effective treatment regimes.
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PMID:Genetic studies and molecular markers of bladder cancer. 925 87

Tumor suppressor proteins control the proliferation and survival of normal cells; consequently, their inactivation by gene mutations can initiate or drive cancer progression. Most tumor suppressors have been identified by genetic screening, and in many cases their function and regulation are poorly understood. Ten such proteins were recently shown to contain nuclear transport signals that facilitate their "shuttling" between the nucleus and cytoplasm. This type of dynamic intracellular movement not only regulates protein localization, but also often impacts on function. Here, we review the pathways by which tumor suppressors such as APC, p53, VHL, and BRCA1 cross the nuclear envelope and the impact of regulated nuclear import/export on protein function.
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PMID:Regulation of tumor suppressors by nuclear-cytoplasmic shuttling. 1253 92

Tumor suppressor genes (TSGs) are important gatekeepers that protect against somatic evolution of cancer. Losing both alleles of a TSG in a single cell represents a step toward cancer. We study how the kinetics of TSG inactivation depends on the population size of cells and the mutation rates for the first and second hit. We calculate the probability as function of time that at least one cell has been generated with two inactivated alleles of a TSG. We find three different kinetic laws: in small, intermediate, and large populations, it takes, respectively, two, one, and zero rate-limiting steps to inactivate a TSG. We also study the effect of chromosomal and other genetic instabilities. Small lesions without genetic instability can take a very long time to inactivate the next TSG, whereas the same lesions with genetic instability pose a much greater risk for cancer progression.
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PMID:Evolutionary dynamics of tumor suppressor gene inactivation. 1525 97

Tumor suppressor BRCA1 and BRCA2 are frequently mutated in familial breast and ovarian cancer. More than ten percent of women with breast or ovarian cancer carry BRCA1 or BRCA2 (BRCA1/2) mutations. Cancers that arise in mutation carriers have often lost the wild-type allele through somatic alterations during tumor progression. BRCA1/2 play important roles in homologous recombination repair of DNA double-strand breaks. Because of this, BRCA1/2-deficient cancers often have a better response to DNA cross-linking agents such as platinum analogues and to poly(ADP-ribose) polymerase (PARP) inhibitors. However, over time, the majority of these BRCA1/2-deficient cancers become resistant and patients die from refractory diseases. Three recent studies demonstrated that acquired resistance to platinum analogues or PARP inhibitors in tumors carrying frame-shift BRCA1/2 mutations came from restored BRCA1/2 expression and HR function due to secondary intragenic mutations that corrected the open reading frames of mutated BRCA1/2.
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PMID:Secondary BRCA1 and BRCA2 alterations and acquired chemoresistance. 1872 May 53

Tumor suppressor genes are frequently inactivated in cancer by large-scale deletion events or epigenetic silencing, and experimental demonstration of such inactivation has historically been considered as support for assigning tumor suppressive function to a given gene. However, the discovery of a number of chromosomal domains wherein large deletions naturally occur at frequencies up to 100 times the average for the genome as a whole leads us to reevaluate the significance of sporadic deletions found within genes associated with these hotspots. Similarly, our recent demonstration that epigenetic chromatin silencing frequently spreads in cancer cells from gene-poor into gene-rich regions with apparent indifference to the gene content of the affected domain raises questions about the pertinence of inactivation as a criterion for ascribing tumor suppressor function to a given gene. We suggest that a number of putative suppressor genes for which inactivation and/or deletion events have been documented may simply be victims of collateral damage when these events occur, and the implication that these genes are being selected against during cancer progression should in some cases be reassessed.
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PMID:More is less: inactivation and deletion events and the search for tumor suppressor genes. 2033 91

Tumor suppressor genes have antiproliferative and antimetastatic functions, and thus, they negatively affect tumor progression. Reactivating specific tumor suppressor genes would offer an important therapeutic strategy to block tumor progression. Mammary Serine Protease Inhibitor (MASPIN) is a tumor suppressor gene that is not mutated or rearranged in tumor cells, but is silenced during metastatic progression by transcriptional and epigenetic mechanisms. In this work, we have investigated the ability of Artificial Transcription Factors (ATFs) to reactivate MASPIN expression and to reduce tumor growth and metastatic dissemination in Non-Small Cell Lung Carcinoma (NSCLC) cell lines carrying a hypermethylated MASPIN promoter. We found that the ATFs linked to transactivator domains were able to demethylate the MASPIN promoter. Consistently, we observed that co-treatment of ATF-transduced cells with methyltransferase inhibitors enhanced MASPIN expression as well as induction of tumor cell apoptosis. In addition to tumor suppressive functions, restoration of endogenous MASPIN expression was accompanied by inhibition of metastatic dissemination in nude mice. ATF-mediated reactivation of MASPIN lead to changes in cell motility and to induction of E-CADHERIN. These data suggest that ATFs are able to reprogram aggressive lung tumor cells towards a more epithelial, differentiated phenotype, and thus, represent novel therapeutic agents for metastatic lung cancers.
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PMID:Reactivation of MASPIN in non-small cell lung carcinoma (NSCLC) cells by artificial transcription factors (ATFs). 2094 6

The interaction between tumor progression and innate immune system has been well established in the last years. Indeed, several lines of clinical evidence indicate that immune cells such as tumor-associated macrophages (TAMs) interact with tumor cells, favoring growth, angiogenesis, and metastasis of a variety of cancers. In most tumors, TAMs show properties of an alternative polarization phenotype (M2) characterized by the expression of a series of chemokines, cytokines, and proteases that promote immunosuppression, tumor proliferation, and spreading of the cancer cells. Tumor suppressor genes have been traditionally linked to the regulation of cancer progression; however, a growing body of evidence indicates that these genes also play essential roles in the regulation of innate immunity pathways through molecular mechanisms that are still poorly understood. In this paper, we provide an overview of the immunobiology of TAMs as well as what is known about tumor suppressors in the context of immune responses. Recent advances regarding the role of the tumor suppressor ARF as a regulator of inflammation and macrophage polarization are also reviewed.
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PMID:Macrophages, inflammation, and tumor suppressors: ARF, a new player in the game. 2331 5

Tumor suppressor maspin is a differentially regulated gene in the progression of many types of cancer. While the biological function of maspin in blocking tumor invasion and metastasis is consistent with the loss of maspin expression at the late stage of tumor progression, the differential expression and the biological significance of maspin in early stage of tumor progression appear to be complex and remain to be elucidated. In the current study, we examined the expression of maspin in 84 esophageal squamous cell carcinoma (ESCC) cases (stages I-III) and 55 non-tumor adjacent esophageal tissue specimens by immunohistochemical (IHC) staining. The correlation of maspin with clinicopathological parameters was analyzed. Compared to normal esophageal squamous tissue where 80% (47/55) of the cases expressed maspin at a low to moderate level, all ESCC specimens (100% (84/84)) were positive for maspin expression at a moderate to high level. ESCC with low or moderate maspin expression had significantly shorter postoperative survival rates compared to those that had high maspin expression (p<0.001). Since the correlation of maspin with ESCC histology and the correlation of maspin with ESCC prognosis seem to be at odds, we further investigated the biological function of maspin in ESCC using the established ESCC cell lines. The expression of maspin in five human esophageal squamous cancer cell lines (T12, E450, KYSE150, EC109, and KYSE510) was examined by the Western blot. ESCC cell line KYSE510 that did not express maspin and was stably transfected by maspin cDNA or an empty vector. The resulting transfected cells were characterized in vitro. Maspin expression significantly inhibited cell proliferation, motility and matrigel invasion. Taken together, our data suggest that the transient up-regulation of maspin in the early development of ESCC may be a defense mechanism against further transition towards more malignant phenotypes, ultimately slowing down ESCC tumor progression.
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PMID:Elevated maspin expression is associated with better overall survival in esophageal squamous cell carcinoma (ESCC). 2371 49


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