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)

The cell-transforming potential of 1,2-dibromoethane and folpet, two widely used agricultural pesticides that are potential sources of environmental pollution, has been previously ascribed to their promoting activity. In this study, we investigated whether BALB/c 3T3 transformation by these chemicals was associated with the deregulation of signals involved in cell-cycle progression and in cell-cycle checkpoint induction. We found that two BALB/c 3T3 cell clones transformed by in vitro medium-term (8-week) exposure to the carcinogens had a constitutive acceleration of cell transition from G(1) to S phase and an abrogation of the radiation-induced G(1)/S checkpoint. These events involved multiple signals; in particular, the inhibitors of cyclin/cyclin-dependent kinase complexes p21 and p27 were significantly down-modulated and the positive regulators of cell-cycle progression cyclin D(3) and E were up-modulated. As anticipated for cells where the G(1)/S checkpoint was abrogated, the transformed cells exhibited a significant reinforcement of the radiation-induced G(2)/M checkpoint, the only checkpoint remaining to protect genomic integrity. However, cyclin A(1) and B(1) coexpression and cyclin A(1) overexpression were found despite the G2 arrest in irradiated cells and these signals likely attenuate the G(2)/M checkpoint. These alterations to normal cell cycling may promote the emergence of both numerical and structural chromosomal abnormalities and their tolerance. Such a condition could play a key role in neoplastic transformation and be crucial in tumor progression. Furthermore, cyclin A(1) overexpression may play an autonomous role in the neoplastic transformation of BALB/c 3T3 cells, as it does in other cell types of mesenchymal origin.
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PMID:Cell-cycle deregulation in BALB/c 3T3 cells transformed by 1,2-dibromoethane and folpet pesticides. 1280 1

Previous work from our laboratory demonstrated that PTEN regulates tumor-induced angiogenesis and thrombospondin 1 expression in malignant glioma. Herein, we demonstrated the first evidence that the systemic administration of a phosphatidylinositol 3'-kinase (PI3K) inhibitor (LY294002) has antitumor and antiangiogenic activity in vivo. We show that PTEN reconstitution diminished phosphorylation of AKT, induced the transactivation of p53 (7.5-fold induction) and increased the expression of p53 target genes, p21(waf-1) and insulin-like growth factor binding protein 3 in glioma cells. PTEN and LY294002 induced p53 activity in human brain endothelial cells, suggesting that PTEN and PI3K pathways can suppress the progression of cancer through direct actions on tumor and endothelial cells. The capacity of PTEN and LY294002 to inhibit U87MG or U373MG glioma growth was tested in an ectopic skin and orthotopic brain tumor model. LY294002 inhibited glioma tumor growth in vivo, induced tumor regression, decreased the incidence of brain tumors, and blocked the tumor-induced angiogenic response of U87MG cells in vivo. These data provide evidence that both PTEN and PI3K inhibitors regulate p53 function and display in vivo antiangiogenic and antitumor activity. These results provide evidence that the two tumor suppressor genes, PTEN and p53, act together to block tumor progression in vivo. Our data provide the first preclinical evidence for the in vivo efficacy for LY294002 in the treatment of malignant gliomas.
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PMID:PTEN and phosphatidylinositol 3'-kinase inhibitors up-regulate p53 and block tumor-induced angiogenesis: evidence for an effect on the tumor and endothelial compartment. 1283 45

The significance of the p73 gene, a homologue of the p53 gene, in esophageal cancers is not fully understood. In order to clarify the role of p73 expression in esophageal cancers, p73 expression was immunohistochemically investigated in 106 surgically resected esophageal cancers and the results were compared with various clinicopathological factors. In normal esophageal epithelium, the expression of p73 was observed only in the nuclei of basal cells. In esophageal cancers, p73 immunoreactivity was observed in all intraepithelial lesions except one cancer, and was reduced with cancer invasion, to 78% and 64% at superficial invasion and deep invasion sites, respectively. However, p73 expression was not correlated with any other clinicopathological factor. The expressions of p53 and p21 were also investigated in esophageal cancer. To evaluate the status of the p53 gene mutation immunohistochemically, two monoclonal antibodies (DO7 and PAb240) were used. There seemed to be an inverse correlation between p73 expression and p53 mutation. Moreover, the expression of p21 was highly correlated with p73 expression irrespective of the p53 mutation status. In human esophageal cancers, p73 expression decreased with increasing degree of tumor invasion, and its decreased expression in local advanced tumor caused down-regulation of p21 expression, which might reflect tumor progression.
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PMID:Synergistic decline in expressions of p73 and p21 with invasion in esophageal cancers. 1284 70

A balance between proliferation, differentiation, migration and death of cells is critical for the normal development of an organism. Perturbations of this balance can contribute to cancer development. The p21-activated serine/threonine kinases (Paks) play an important role in a variety of cellular functions including cell morphogenesis, motility, survival, angiogenesis, and mitosis. Paks were initially identified as an effector molecules of RHO GTPases; however, recent evidence that they can be activated in both GTPase-dependent and -independent manners expands our understanding of their physiologic functions. Paks play an important role in growth factor signaling, leading to cytoskeletal reorganization that subsequently influences growth factor-mediated cell migration and metastasis functions. Recent findings that Paks play a role in mitosis, nuclear receptor-signaling and deregulation of Pak in cancer cells suggest that these kinases play an important role in both normal development and cancer progression. In this review, we summarize the results of recent advances into the role of Paks in tumorigenesis and metastasis.
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PMID:P21-activated kinases in human cancer. 1288 13

An in vitro model, based on normal (primary) human astrocytes (NHAs), was used to investigate the nature of the selection pressures for events that occur during the progression of astrocyte-derived tumors and, in particular, the potential role of proliferative life span barriers (PLBs). As with fibroblasts, NHAs senesced with elevated p21(WAF1) and senescence-associated beta-galactosidase activities. Unlike fibroblasts, replicative senescence (M1) occurred much earlier, after approximately 20 pd and was not bypassed by hTERT expression. Abrogation of p53 function, by expression of human papillomavirus type 16 E6, led to an extension of life span, implying that replicative senescence in NHAs was p53-dependent but telomere-independent. human papillomavirus type16 E6 expression promoted additional growth of up to 12 pd, until a second telomere-independent PLB (termed M(INT)) was imposed associated with elevated p16(INK4A) levels. A proportion of cells escaped from M(INT) lost p16(INK4A) expression and achieved approximately an additional 25 pd until a crisis-like third PLB (M2) was reached. Expression of hTERT in post-M(INT) cells allowed these cells to become immortal and bypass this third PLB. The in vitro PLBs appear, in order of occurrence, dependent upon p53, p16(INK4A), and telomere erosion, a situation that mirrors an equivalent order of mutational events during tumor progression in vivo. This study describes a model that provides a plausible explanation for the selective pressures driving mutational events in this tumor type and provides direct evidence of a p53-dependent, telomere-independent PLB.
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PMID:A P53-dependent, telomere-independent proliferative life span barrier in human astrocytes consistent with the molecular genetics of glioma development. 1294 6

This study for the first time demonstrates a physical and functional interaction between the Ca(2+)-binding protein Mts1/S100A4 and tumor suppressor p53 protein. Using different in vitro and in vivo approaches, we have found that Mts1 can bind to the C-terminal regulatory domain of p53. The Mts1 binding to p53 promotes activation of the reporter gene transcription in vivo. A modulation of the p53 target gene (p21/WAF, bax, mdm-2, and thrombospondin-1) expression was observed upon Mts1 induction in the cells expressing the wild-type p53. These results suggest that the ability of Mts1 to enhance p53-dependent apoptosis of tumor cells leads to the decrease/disappearance of the tumor cells expressing the wild-type p53. Thus, Mts1 promotes selection of more aggressive, metastatic phenotype during tumor progression.
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PMID:[Activator of metastasis in cancer cells, Mst1/S100A4 protein binds to tumor suppressor protein p53]. 1294 74

Interaction between cell and extracellular matrix (ECM) plays a crucial role in tumor invasiveness and metastasis. Using an immortalized human bronchial epithelial (BEP2D) cell model, we showed previously that expression of a list of genes including Betaig-h3 (induced by transforming growth factor-beta), DCC (deleted in colorectal cancer), p21(cipl), c-fos, Heat shock protein (HSP27) and cytokeratin 14 were differentially expressed in several independently generated, radiation-induced tumor cell lines (TL1-TL5) relative to parental BEP2D cells. Our previous data further demonstrated that loss of tumor suppressor gene(s) as a likely mechanism of radiation carcinogenesis. In the present study, we chose Betaig-h3 and DCC that were downregulated in tumorigenic cells for further study. Restored expression of Betaig-h3 gene, not DCC gene, by transfecting cDNA into tumor cells resulted in a significant reduction in tumor growth. While integrin receptor alpha 5 beta 1 was overexpressed in tumor cells, its expression was corrected to the level found in control BEP2D cells after Betaig-h3 transfection. These data suggest that Betaig-h3 gene is involved in tumor progression by regulating integrin alpha 5 beta 1 receptor. Furthermore, exogenous TGF- beta 1 induced expression of Betaig-h3 gene and inhibited the growth of both control and tumorigenic BEP2D cells. Therefore, downregulation of Betaig-h3 gene may results from the decreased expression of upstream mediators such as TGF-beta. The findings provide strong evidence that the Betaig-h3 gene has tumor suppressor function in radiation-induced tumorigenic human bronchial epithelial cells and suggest a potential target for interventional therapy.
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PMID:Tumor suppressor function of Betaig-h3 gene in radiation carcinogenesis. 1297 13

Ca2+ sensitivity of smooth muscle and nonmuscle myosin II reflects the ratio of activities of myosin light-chain kinase (MLCK) to myosin light-chain phosphatase (MLCP) and is a major, regulated determinant of numerous cellular processes. We conclude that the majority of phenotypes attributed to the monomeric G protein RhoA and mediated by its effector, Rho-kinase (ROK), reflect Ca2+ sensitization: inhibition of myosin II dephosphorylation in the presence of basal (Ca2+ dependent or independent) or increased MLCK activity. We outline the pathway from receptors through trimeric G proteins (Galphaq, Galpha12, Galpha13) to activation, by guanine nucleotide exchange factors (GEFs), from GDP. RhoA. GDI to GTP. RhoA and hence to ROK through a mechanism involving association of GEF, RhoA, and ROK in multimolecular complexes at the lipid cell membrane. Specific domains of GEFs interact with trimeric G proteins, and some GEFs are activated by Tyr kinases whose inhibition can inhibit Rho signaling. Inhibition of MLCP, directly by ROK or by phosphorylation of the phosphatase inhibitor CPI-17, increases phosphorylation of the myosin II regulatory light chain and thus the activity of smooth muscle and nonmuscle actomyosin ATPase and motility. We summarize relevant effects of p21-activated kinase, LIM-kinase, and focal adhesion kinase. Mechanisms of Ca2+ desensitization are outlined with emphasis on the antagonism between cGMP-activated kinase and the RhoA/ROK pathway. We suggest that the RhoA/ROK pathway is constitutively active in a number of organs under physiological conditions; its aberrations play major roles in several disease states, particularly impacting on Ca2+ sensitization of smooth muscle in hypertension and possibly asthma and on cancer neoangiogenesis and cancer progression. It is a potentially important therapeutic target and a subject for translational research.
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PMID:Ca2+ sensitivity of smooth muscle and nonmuscle myosin II: modulated by G proteins, kinases, and myosin phosphatase. 1450 7

In this study we performed detailed deletion mapping of two broad regions in the short arm (p) of chromosome 3 (i.e., 3p21.2 approximately p22 and 3p12 approximately p13), which were shown to have a high rate of deletions in head and neck lesions in our previous study. Using 18 highly polymorphic microsatellite markers, the deletion mapping was done in 35 dysplastic lesions and 46 primary head and neck squamous cell carcinoma (HNSCC) samples from Indian patients. Within the 21.6-megabase (Mb) region of 3p21.1 approximately p21.33, we have identified four areas (D1, 3p21.33; D2, 3p21.32; D3, 3p21.31; D4, 3p21.1) that showed a high frequency (46%-69%) of deletions in our samples. In the 3p12 approximately p13 region, we narrowed down the deletion within the 0.7-Mb region (D5, 3p12.1). Among these five regions (D1-D5), deletion in D3 is suggested to be necessary for the development of early dysplastic lesions, whereas the deletion in D2 may be necessary for dysplastic lesions and tumor progression. On the other hand, the deletion in D5 is significantly associated with progression of the lesions from mild/moderate to severe dysplasia. The deletions in D1 and D4, however, are required for tumor progression. As in our previous study, microsatellite size alterations (MA) were observed to be high in and around the highly deleted regions and gradually increased during the progression of the tumor. Loss of normal copy/interstitial alterations of chromosome 3 in the late stages of the tumor as well as rare biallelic alterations around the highly deleted regions also were seen in our samples. Human papilloma virus infection has been found to be associated with the deletion in the D5 region and MA in the D1 region, whereas nodal involvement of the tumor correlated only with the MA in D1 and D5. Thus, this study indicates that multiple tumor suppressor genes whose differential deletions are associated with the development of HNSCC may be present in 3p.
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PMID:Differential deletions in 3p are associated with the development of head and neck squamous cell carcinoma in Indian patients. 1455 47

Accumulating evidence suggests that p21(Cip1) located in the cytoplasm might play a role in promoting transformation and tumor progression. Here we show that oncogenic H-RasV12 contributes to the loss of actin stress fibers by inducing cytoplasmic localization of p21(Cip1), which uncouples Rho-GTP from stress fiber formation by inhibiting Rho kinase (ROCK). Concomitant with the loss of stress fibers in Ras-transformed cells, there is a decrease in the phosphorylation level of cofilin, which is indicative of a compromised ROCK/LIMK/cofilin pathway. Inhibition of MEK in Ras-transformed NIH3T3 results in restoration of actin stress fibers accompanied by a loss of cytoplasmic p21(Cip1), and increased phosphorylation of cofilin. Ectopic expression of cytoplasmic but not nuclear p21(Cip1) in Ras-transformed cells was effective in preventing stress fibers from being restored upon MEK inhibition and inhibited phosphorylation of cofilin. p21(Cip1) was also found to form a complex with ROCK in Ras-transformed cells in vivo. Furthermore, inhibition of the PI 3-kinase pathway resulted in loss of p21(Cip1) expression accompanied by restoration of phosphocofilin, which was not accompanied by stress fiber formation. These results suggest that restoration of cofilin phosphorylation in Ras-transformed cells is necessary but not sufficient for stress fiber formation. Our findings define a novel mechanism for coupling cytoplasmic p21(Cip1) to the control of actin polymerization by compromising the Rho/ROCK/LIMK/cofilin pathway by oncogenic Ras. These studies suggest that localization of p21(Cip1) to the cytoplasm in transformed cells contributes to pathways that favor not only cell proliferation, but also cell motility thereby contributing to invasion and metastasis.
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PMID:Cytoplasmic p21Cip1 is involved in Ras-induced inhibition of the ROCK/LIMK/cofilin pathway. 1455 14

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