EC:3.2.1.23 - FACTA Search

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Query: EC:3.2.1.23 (beta-galactosidase)
14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

BACKGROUND: The p16INK4A gene product halts cell proliferation by preventing phosphorylation of the Rb protein. The p16INK4a gene is often deleted in human glioblastoma multiforme, contributing to unchecked Rb phosphorylation and rapid cell division. We show here that transduction of the human p16INK4a cDNA using the pCL retroviral system is an efficient means of stopping the proliferation of the rat-derrived glioma cell line, C6, both in tissue culture and in an animal model. C6 cells were transduced with pCL retrovirus encoding the p16INK4a, p53, or Rb genes. These cells were analyzed by a colony formation assay. Expression of p16INK4a was confirmed by immunohistochemistry and Western blot analysis. The altered morphology of the p16-expressing cells was further characterized by the senescence-associated beta-galactosidase assay. C6 cells infected ex vivo were implanted by stereotaxic injection in order to assess tumor formation. RESULTS: The p16INK4a gene arrested C6 cells more efficiently than either p53 or Rb. Continued studies with the p16INK4a gene revealed that a large portion of infected cells expressed the p16INK4a protein and the morphology of these cells was altered. The enlarged, flat, and bi-polar shape indicated a senescence-like state, confirmed by the senescence-associated beta-galactosidase assay. The animal model revealed that cells infected with the pCLp16 virus did not form tumors. CONCLUSION: Our results show that retrovirus mediated transfer of p16INK4a halts glioma formation in a rat model. These results corroborate the idea that retrovirus-mediated transfer of the p16INK4a gene may be an effective means to arrest human glioma and glioblastoma.
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PMID:Retroviral transfer of the p16INK4a cDNA inhibits C6 glioma formation in Wistar rats. 1198 28

Recent studies have shown that the presence of tumor suppressors such as p53 or p16 account for the lack of transformation in primary cells. To investigate a potential role of active Ras in atherosclerosis, we infected bovine aortic endothelial cells with a replication-deficient, recombinant adenovirus containing the activated H-Ras61L gene. Ras overexpression led after 72 hours to G1- and G2/M-cell cycle arrest due to induction of p21(Cip1/Waf1). Treatment of Ras-infected endothelial cells with 40 ng/ml TNF-alpha for 20 hours augmented apoptosis 8-fold in comparison to Ad-Con (control virus with empty expression cassette) infected cells (36.2% vs. 4.3%, p < 0.001), while Ras itself did not cause any cell death. Furthermore, more than 58% of Ras-infected cells stained positive for senescence-associated beta-galactosidase activity as opposed to 2% in control vector-infected cells (p < 0.001), strongly suggesting a senescent phenotype in the Ras-infected population. We found further features of senescence in Ras-transduced endothelial cells, such as growth arrest and the lack of AP-1 serum inducibility. Finally, we evaluated the role of p21(Cip1/Waf1) in this process of senescence. Adenoviral overexpression of p21 led to growth arrest by induction of G1- and G2/M-cell cycle arrest. In addition, p21-overexpressing endothelial cells were highly sensitive for TNF-alpha induced-apoptosis. Surprisingly, senescence-associated beta-galactosidase activity was not apparant in p21-infected endothelial cells, suggesting further signaling events necessary for the senescent morphology of endothelial cells. Our results demonstrate a novel way to render primary endothelial cells senescent by overexpressing oncogenic Ras. Increased sensitivity of senescent endothelial cells for cytotoxic stimuli seemed to be due to Ras-induced upregulation of p21(Cip1/Waf1). Future studies have to investigate a potential role of Ras in human vascular biology.
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PMID:Oncogenic ras induces premature senescence in endothelial cells: role of p21(Cip1/Waf1). 1200 58

We demonstrate that by simply raising extracellular pyruvate levels, and hence increasing metabolic supply, human diploid fibroblasts undergo a concentration-dependent induction of cellular senescence. Fibroblasts treated with pyruvate undergo a rapid growth arrest accompanied by elevated levels of the cell-cycle regulatory molecules p53, p21, and p16. These cells also exhibit a rise in mitochondrial oxidant production and a fall in intracellular glutathione levels. Exposure of pyruvate treated cells to the antioxidant and glutathione precursor N-acetylcysteine restores cell growth and reverses the increase in senescence-associated beta-galactosidase activity. Similarly, we demonstrate that by increasing mitochondrial number via retroviral-mediated expression of the mitochondrial biogenesis regulator PGC-1 there is also a reduction in cell growth and the more rapid induction of senescence. These results suggest that mitochondria appear to play a central role in regulating cellular life span.
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PMID:A role for mitochondria as potential regulators of cellular life span. 1205 1

To test the involvement of the telomeres in the senescent phenotype, we used telomerase-immortalized human foreskin fibroblasts (hTERT-BJ1). We exposed hTERT-BJ1 and parental BJ cells to either UVB or H(2)O(2) subcytotoxic stress(es). Both cell lines developed biomarkers of replicative senescence: loss of replicative potential, increase in senescence-associated beta-galactosidase activity, typical senescence-like morphology, overexpression of p21(WAF-1) and p16(INK-4a), and decreased level of the hyperphosphorylated form of pRb. Telomere shortening was slightly higher under stress for both BJ and hTERT-BJ1 but still much lower than that reported for other cell lines. We conclude that pathways alternative to telomere shortening must cause the appearance of the senescence phenotype.
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PMID:Stress-induced premature senescence in BJ and hTERT-BJ1 human foreskin fibroblasts. 1212 24

This study has identified molecular changes characteristic of early oral cancer progression. We reported previously that acquisition of the immortal phenotype is an early event in oral cancer development (F. McGregor et al., Cancer Res., 57: 3886-3889, 1997); our current data indicate that about half of oral dysplasia cultures are immortal, and this is associated with loss of expression of retinoic acid receptor (RAR)-beta and the cell cycle inhibitor p16(ink4a) (p16), p53 mutations, and increased levels of telomerase/human telomerase reverse transcriptase mRNA. In contrast, increased expression of the epidermal growth factor receptor, known to be a characteristic of oral cancer, does not occur until after the dysplasia stage in squamous cell carcinomas. Acquisition of invasive properties as judged by an in vitro Matrigel invasion assay also does not occur until the carcinoma stage and is further increased in metastases. Interestingly, one atypical mortal dysplasia with a considerably extended life span has lost expression of RAR-beta and p16, but it still expresses only wild-type p53 (albeit at a higher level than normal) and has not activated telomerase. RAR-beta and/or p16 re-expression can be induced by treatment with 5-aza-2-deoxycytidine (Aza-C) in some immortal dysplasias, and this has been shown to be due to silencing of gene expression by promoter methylation. Aza-C treatment also down-regulated telomerase activity and human telomerase reverse transcriptase mRNA. Interestingly, with one dysplasia, Aza-C was able to reverse its immortal phenotype, as judged by morphological criteria and expression of the senescence-associated acid beta-galactosidase activity during terminal growth arrest; this immortal dysplasia was the only one in which Aza-C treatment not only down-regulated telomerase activity but also induced re-expression of both RAR-beta and p16. The possibility of reversing the immortal phenotype of some dysplasias by Aza-C may be of clinical usefulness.
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PMID:Molecular changes associated with oral dysplasia progression and acquisition of immortality: potential for its reversal by 5-azacytidine. 1218 35

Primary human embryo lung fibroblasts and adult diploid fibroblasts infected by the human cytomegalovirus (HCMV) display beta-galactosidase (beta-Gal) activity at neutral pH (senescence-associated beta-Gal [SA-beta-Gal] activity) and overexpression of the plasminogen activator inhibitor type 1 (PAI-1) gene, two widely recognized markers of the process designated premature cell senescence. This activity is higher when cells are serum starved for 48 h before infection, a process that speeds and facilitates HCMV infection but that is insufficient by itself to induce senescence. Fibroblasts infected by HCMV do not incorporate bromodeoxyuridine, a prerequisite for the formal definition of senescence. At the molecular level, cells infected by HCMV, beside the accumulation of large amounts of the cell cycle regulators p53 and pRb, the latter in its hyperphosphorylated form, display a strong induction of the cyclin-dependent kinase inhibitor (cdki) p16(INK4a), a direct effector of the senescence phenotype in fibroblasts, and a decrease of the cdki p21(CIP1/WAF). Finally, a replicative senescence state in the early phases of infection significantly increased the number of cells permissive to virus infection and enhanced HCMV replication. HCMV infection assays carried out in the presence of phosphonoformic acid, which inhibits the virus DNA polymerase and the expression of downstream genes, indicated that immediate-early and/or early (alpha) genes are sufficient for the induction of SA-beta-Gal activity. When baculovirus vectors expressing HCMV IE1-72 or IE2-86 proteins were inoculated into fibroblasts, the increase of p16(INK4a) (observed predominantly with IE2-86) was similar to that observed with the whole virus, as was the induction of SA-beta-Gal activity, suggesting that the viral IE2 gene leads infected cells into senescence. Altogether our results demonstrate for the first time that HCMV, after arresting the cell cycle and inhibiting apoptosis, triggers the cellular senescence program, probably through the p16(INK4a) and p53 pathways.
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PMID:Cell cycle arrest by human cytomegalovirus 86-kDa IE2 protein resembles premature senescence. 1241 54

Cellular senescence has been suggested to play a role in the deterioration of renal graft function and has been linked to telomere shortening. We have investigated markers of cellular senescence in the F344 to LEW rat model of chronic renal transplant rejection. Syngeneic and LEW to F344 transplants were used as controls. Substantial telomere shortening was observed in all transplants, including allogeneic and syngeneic grafts from day 7 post-transplant onwards. Ischemia of native F344 kidneys was already sufficient to induce telomere shortening. It is known that shortened telomeres can activate cell cycle regulators, such as p21 and p16. Accordingly, all cases showed a transient p21 increase, with a maximum at day 7 and a sustained expression of p16. Importantly, senescence-associated beta-galactosidase staining, a cytological marker for senescence, was only observed in tubular epithelial cells of chronically rejecting F344 allografts from day 30 post-transplantation onwards. Long-term surviving LEW allografts or syngeneic F344 grafts were negative for senescence-associated beta-galactosidase. In conclusion, ischemia during transplantation results in telomere shortening and subsequent activation of p21 and p16, whereas senescence-associated beta-galactosidase staining is only present in chronically rejecting kidney grafts.
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PMID:Telomere shortening and cellular senescence in a model of chronic renal allograft rejection. 1265 22

In this work, the tumor suppressor gene p16 was efficiently transferred into FR cells isolated from a patient with malignant mesothelioma using cationic liposomes prepared from trimethyl aminoethane carbamoyl cholesterol (TMAEC-Chol) and triethyl aminopropane carbamoyl cholesterol (TEAPC-Chol). This transfer was performed after preliminary assays were undertaken to find the optimal transfection conditions. Results showed that an efficient transfer of plasmids containing the reporter gene pCMV-beta galactosidase vectorized by TMAEC-Chol/DOPE and TEAPC-Chol/DOPE liposomes into mesothelioma FR cells was obtained as assessed by luminometric measurements of beta-galactosidase activity. Cytotoxicity studied by MTT test showed that at concentrations used for this study, the cationic liposomes have no effect on cell growth. Transfer into mesothelioma FR cells of a plasmid construct containing the tumor suppressor gene p16 was carried out with these liposomes. Western blotting and immunofluorescence showed the presence of p16 in treated cells. An inhibition of cell growth was observed, indicating that efficient tumor suppressor gene transfer can be performed by using cationic liposomes.
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PMID:Transfer into a mesothelioma cell line of tumor suppressor gene p16 by cholesterol-based cationic lipids. 1265 54

In gliomas, a high frequency of homozygous p16 gene deletions have been demonstrated, which are believed to be linked with malignant progression. The aim of this study was to assess the role of p16 in growth, invasion, and senescence. The human glioma cell lines U87 MG and U373 MG were transduced with Ad-p16, and cell viability was assessed by trypan blue staining. To examine the mechanism of cell growth inhibition, cell cycle analyses and annexin assays were performed. The invasive potential of Ad-p16 transduced cells was evaluated using a Matrigel invasion assay, and trimolecular complex (MMP-2/MT1-MMP/TIMP-2) synthesis was proven by zymography and Western blotting. To establish the link between p16 and cell senescence, we stained for Senescence-Associated beta-galactosidase activity. A cell proliferation assay demonstrated that Ad-p16 treatment significantly inhibits cell growth. Moreover, this cell growth inhibition was induced by cell cycle arrest, not by apoptosis. In vitro treatment of malignant glioma cells with Ad-p16 significantly decreased their invasive potential by Matrigel invasion assay. However, we were unable to demonstrate any differences in the constitutive productions and secretions of MMP-2, MT1-MMP, and TIMP-2, among the mock-treated, Ad-lacZ-transduced, and Ad-p16-transduced cells. p16 expression caused an enlargement of all cells, and these were morphologically similar to senescent cells. Staining for Senescence-Associated beta-galactosidase activity showed that the enlarged cells stained positively. Taken together these data strongly suggest that the anti-cancer effect of p16 is modulated by p16-mediated cell cycle arrest and by the induction of senescence.
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PMID:Adenoviral p16/CDKN2 gene transfer to malignant glioma: role of p16 in growth, invasion, and senescence. 1288 67

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

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