UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

NO is believed to be involved in neurotoxicity after various neuronal stresses. NO donors are toxic and cause changes in cellular morphology such as condensed and fragmented chromatin, shriveled nuclei, apoptotic bodies and membrane blebbing. These observations are consistent with the overall description of apoptosis. The crucial mechanism of NO-induced cytotoxicity is still unclear. Several mechanisms for NO-induced cytotoxicity in neurons have been proposed. It has been reported that NO enhances ADP-ribosylation or S-nitrosylation of an increasing number of proteins, and two of these proteins were identified as NO-target proteins. One is glyceraldehyde-3-phosphate dehydrogenase (GAPDH), a key enzyme of glycolytic conversion, which is S-nitrosylated by NO inhibiting the enzyme activity. Hence, inhibition of GAPDH activity by NO would decrease the amount of ATP. NO also activates poly (ADP-ribose) polymerase (PARP) in the presence of DNA damage. The activation of PARP results in depletion of NAD and ATP. The energy depletion by NO could cause cell death. Recently, several factors such as Fas, the caspases (interleukin-1 beta-converting enzyme (ICE)-like proteases), Bcl-2 and the tumor suppressor gene product p53 have been shown to be involved in apoptotic cell death. We here discuss the crucial mechanisms of NO-induced cytotoxicity and also discuss recent findings about the protective effect of NO on cell death.
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PMID:[The precise characterization and the crucial mechanism of NO-induced cytotoxicity]. 979 73

This paper reviews the functions of and connections between the presumed DNA damage sensors: poly(ADP-ribose) polymerase (PARP), DNA-dependent protein kinase (DNA-PK), the protein product of the ataxia telangiectasia mutated (ATM) gene, and the tumor suppressor, p53. Recognition of DNA damage is associated with the generation of alarm signals. The possible alarm signals include synthesis of poly(ADP-ribose) polymers and initiation of phosphorylation cascades by kinases complexed with the DNA damage sensors, DNA-PK and ATM; the role of other factors is discussed, among them BRCA1 and 2, IRF-1 and RB (retinoblastoma). Alarm signal molecules generated in the cytoplasm or plasma membrane are reactive oxygen species and ceramide. Some of the signal pathways are discussed. The p53 protein, which is poised in the central junction of the postirradiation signaling, as well as p53-independent signaling pathways form an intricate network that executes concerted and partly overlapping functions in the cellular response to ionizing radiation. These functions comprise activation of specific groups of genes, control of progression through the cell cycle checkpoints, inhibition of replication and transcription, induction of apoptosis, or an adaptive response; these features of the cellular response to radiation are discussed. They affect the fate of the irradiated mammalian cell as markedly as the DNA repair efficiency. This is shown in examples of the effect of inhibition of signaling on the adaptive response of human lymphocytes and on survival of tumor cells.
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PMID:Monitoring and signaling of radiation-induced damage in mammalian cells. 980 12

The poly(ADP-ribose) polymerase gene is involved in DNA repair, cell proliferation, differentiation, and malignant transformation. Because dysregulation of PARP expression might lead to genetic instability in human tumors, we examined PARP gene expression and genetic instability in 35 primary human breast carcinomas. Genetic instability was studied by analyzing nine genetic abnormalities among those most frequently observed in breast tumor DNA, including amplification of proto-oncogenes MYC and ERBB2 and chromosome regions 7p, 11q13, and 20q13, and loss of heterozygosity on chromosome arms 1p, 3p, 7p, 7q, and 11p. We found a significant link between strong PARP gene overexpression and low genetic instability (chi2corr. = 5.33; P = 0.012), pointing to a possible involvement of this gene in DNA repair in human breast tumor cells. A trend toward a link between PARP gene overexpression and amplification at 1q41-q44 (the site of the PARP gene) was also observed, suggesting that dysregulation of PARP expression could be due partly to a gene dosage effect.
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PMID:Poly(ADP-ribose) polymerase gene expression status and genomic instability in human breast cancer. 981 83

Immunotoxins composed of antibodies linked to plant or bacterial toxins are being evaluated in the treatment of cancer. It is known that the toxin moieties of immunotoxins, including Pseudomonasexotoxin A (PE), diphtheria toxin, and ricin, are capable of inducing apoptosis. Since the efficiency of induction of apoptosis and the apoptosis pathway may have direct effects on the therapeutic usefulness of immunotoxins, we have studied how B3(Fv)-PE38, a genetically engineered immunotoxin in which the Fv fragment of an antibody is fused to a mutated form of PE, induces apoptosis of the MCF-7 breast cancer cell line. We show for the first time that a PE-containing immunotoxin activates ICE/ced-3 proteases, now termed caspases, and causes characteristic cleavage of the "death substrate" poly(ADP)-ribose polymerase (PARP) to an 89 kDa fragment with a time course of cleavage comparable to that induced by TNFalpha. Also the fluorescent substrate, DEVD-AFC, is cleaved 2-4-fold more rapidly by lysates from B3(Fv)-PE38 treated MCF-7 cells than untreated control cells, suggesting that a CPP32-like caspase is involved in B3(Fv)-PE38-mediated apoptosis. B3(Fv)-PE38-induced PARP cleavage is inhibited by several protease inhibitors known to inhibit caspases (zVAD-fmk, zDEVD-fmk, zIETD-fmk) as well as by overexpression of Bcl-2 providing additional evidence for caspase involvement. zVAD-fmk, a broad spectrum inhibitor of most mammalian caspases, prevents the early morphological changes and loss of cell membrane integrity produced by B3(Fv)-PE38, but not its ability to inhibit protein synthesis, arrest cell growth, and subsequently kill cells. Despite inhibition of apoptosis, the immunotoxin is still capable of selective cell killing, which indicates that B3(Fv)-PE38 kills cells by two mechanisms: one requires caspase activation, and the other is due to the arrest of protein synthesis caused by inactivation of elongation factor 2. The fact that an immunotoxin can specifically kill tumor cells without the need of inducing apoptosis makes such agents especially valuable for the treatment of cancers that are protected against apoptosis, e.g., by overexpression of Bcl-2.
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PMID:Role of caspases in immunotoxin-induced apoptosis of cancer cells. 983 86

The MDM2 oncogene product is a regulator of the p53 tumor suppressor. MDM2 is cleaved by Caspase 3 (CPP32) during apoptosis after aspartic acid-361, generating a 60 kd fragment. Here we report that human tumor cell lines often express high levels of a 60 kd MDM2 isoform (p60) in the absence of apoptosis. We demonstrate that p60 is a product of caspase cleavage of full length MDM2 after residue 361. The protease that cleaves MDM2 in non-apoptotic cells appears to be distinct from the apoptosis-specific Caspase 3, since Caspase 3 substrate poly(ADP-ribose) polymerase (PARP) is not cleaved in cells producing p60. The p60 form of MDM2 is a significant fraction of the p53-bound MDM2 protein in certain tumor cells, suggesting that it functions in the regulation of p53. p60 is also detected in breast tumors overexpressing MDM2. These observations suggest that MDM2 is regulated by caspase processing in non-apoptotic cells, and may account for the MDM2 proteins of similar mobility seen in tumors and other cell lines.
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PMID:A 60 kd MDM2 isoform is produced by caspase cleavage in non-apoptotic tumor cells. 984 Sep 26

Ceramide, a product of sphingomyelin metabolism, is a novel lipid second messenger that mediates diverse cellular functions. The present study demonstrates the activation of caspase-3/CPP-32beta, during apoptosis induced by cell permeable exogenous ceramides, in AK-5 tumor, a spontaneously regressing rat histiocytoma. The apoptotic events were suppressed by the caspase-3 specific tetrapeptide inhibitor DEVD-CHO but not by the caspase-1 inhibitor YVAD-CMK. In cells overexpressing Bcl-2, a significant decrease in cell death was observed after exogenous addition of ceramides. Furthermore the processing of caspase-3 to its active form upon apoptotic stimulus, and the subsequent cleavage of the substrate PARP, suggested a central role for caspase-3 in the ceramide mediated apoptosis in AK-5 tumor cells.
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PMID:Selective involvement of caspase-3 in ceramide induced apoptosis in AK-5 tumor cells. 984 82

Bcl-2, Bax and p53 gene products have been linked to programmed cell death pathways. p21WAF1 has been shown to mediate p53-induced cell cycle arrest and to inhibit cyclin-dependent kinase activity. We have analysed the expression of these genes and apoptosis induced by 12-O-tetradecanoyl-phorbol-13-acetate (TPA) in several human breast cancer cell line. We found up-regulation of p21WAF1 and Bax expressions, however, the expressions of p53 and Bcl-2 genes remained unchanged in TPA-treated cells. Furthermore, DNA ladder formation and PARP cleavage were observed after treatment for 24 h, indicating apoptotic cell death. Flow cytometry with 7-amino actinomycin D staining showed that the number of apoptotic cells increased with longer treatment of TPA. From these results, we conclude that TPA is not only a tumor promoter, but also induces apoptosis in breast cancer cells. TPA-induced apoptosis appears to be mediated through a p53-independent pathway, and the up-regulation of p21WAF1 and Bax may be the molecular mechanisms by which TPA induces apoptosis.
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PMID:Induction of apoptosis in breast cancer cells by TPA. 987 97

The interaction between poly(ADP-ribose) polymerase (PARP) and the product of the tumor suppressor gene p53 has been described previously. Here, we have investigated whether PARP deficiency may affect the expression and regulation of wild-type (wt) p53. For this purpose, we have used immortalized cells derived from wt and PARP knockout mice. We have found a clearly reduced basal level of PAb421 immunoreactive wt p53 protein in PARP-deficient cells. The monoclonal antibody PAb421 is known to recognize an epitope in the COOH terminus of normally spliced p53 protein. Under indirect immunofluorescence, this antibody stained nuclei in normal but not in PARP-deficient cells. Despite marked reduction of wt p53 protein in PARP knockout cells, no significant difference of the p53 transcription rate was observed between wt and PARP-deficient cells. Interestingly, in both cell types, an additional p53 transcript representing the alternatively spliced (AS) p53 form was detected. Because of its reactivity with different specific anti-p53 antibodies, we have determined that the p53 protein present in PARP knockout mouse cells possesses characteristic features of AS p53. Our results clearly show that PARP-deficient cells constitutively express the AS form of wt p53 and indicate that the regularly spliced p53 is extremely unstable in the absence of PARP. Moreover, PARP-/- cells fail to transactivate p53-responsive genes. Treatment of PARP-/- cells with genotoxic agents primarily leads to the activation of AS p53 protein.
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PMID:Reduced stability of regularly spliced but not alternatively spliced p53 protein in PARP-deficient mouse fibroblasts. 989 79

Apoptosis is a mechanism of cell death that occurs in normal development and on the regulation of vertebrate tissues and organ cellularity. Neurons undergo p53-dependent and p53-independent apoptosis, depending upon the stimulus that triggers DNA fragmentation. Many neurons in the developing nervous system suffer apoptosis, with the cyclin D1 being an essential mediator of neuronal cell death. Other characteristics of apoptosis are: condensation of the nucleus, fragmentation of chromatin at nucleosome linkage sites, membrane blebbing, and the formation of apoptotic bodies. Among the possible molecular mechanisms are: (a) activation of proteases, as ICE (Il-1 beta converting enzyme); (b) calpain is activated in several cells, with PARP (Poly-ADP-ribose polymerase) and a small U1 Ribonucleoprotein, being substrates for ICE and its homologs such as ICH and others proteins. The p53 gene encodes a transcription factor that contributes to several different cellular activities, including apoptosis, the cellular response to radiation, and the activation of proteins such as GADD, Bcl-2 (represses to apoptosis) and Bax. P53 exerts a role as inductor of apoptosis by transactivating expression of the Bax gene. The p53 gene tumor suppressor limits cellular proliferation by including either the arrest of cell cycle in G1, or apoptosis, depending on the cellular context. The p21 is an inhibitor of cyclin-dependent kinase, which is transactivated by p53. During apoptosis, there is an activation of both, c-myc, and the transcription factor NF-kB, which is a important regulator of apoptosis. As an example of signalization of apoptosis we have selected to illustrate the problem related to the system Fas/APO in thymocytes.
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PMID:[Molecular bases of the programmed cell death process: implications of tumor suppressor protein p53 and other proteins in the control of cell cycle. Mechanisms of apoptotic action. Review]. 992 5

Photodynamic therapy (PDT) is a cancer treatment modality utilizing a photosensitizer, light and oxygen. Photodynamic therapy with Photofrin has been approved by the U.S. Food and Drug Administration for treatment of advanced esophageal and early lung cancer. Because of certain drawbacks associated with the use of Photofrin, there is a need to identify new photosensitizers for human use. The photosensitizer Pc 4 (HOSiPc-OSi[CH3]2[CH2]3N[CH3]2) has yielded promising PDT effects in many in vitro and in vivo systems. The aim of this study was to assess the usefulness of Pc 4 as a PDT photosensitizer for a human tumor grown as a xenograft in athymic nude mice. The ovarian epithelial carcinoma (OVCAR-3) was heterotransplanted subcutaneously in athymic nude mice. Sixty mice bearing OVCAR-3 tumors (approximately 80-130 mm3) were divided into six groups of 10 animals each, three for controls and three for treatment. The Pc 4 was given by tail vein injection, and 48 h later a 1 cm area encompassing the tumor was irradiated with light from a diode laser coupled to a fiberoptic terminating in a microlens (lambda = 672 nm, 150 J/cm2, 150 mW/cm2). Tumors of control animals receiving no treatment, light alone or Pc 4 alone continued to grow. Of animals receiving 0.4 mg/kg Pc 4 and light, one (10%) had a complete response and was cured (no regrowth up to 90 days post-PDT), while all others (90%) had a partial response and were delayed in regrowth. Of animals receiving 0.6 mg/kg Pc 4 and light, eight (80%) had a complete response, and two of these were cured. Of animals receiving 1.0 mg/kg Pc 4 and light, six (60%) had a complete response, and two of these were cured. In additional experiments, tumors from animals treated with Pc 4 (1 mg/kg) and light were removed 15, 30, 60 and 180 min post-PDT, and from these tumors DNA and protein were extracted. Agarose gel electrophoresis revealed the presence of apoptotic DNA fragmentation as early as 15 min post-PDT. Western blotting showed the cleavage of the 116 kDa native poly(ADP-ribose) polymerase (PARP) into fragments of approximately 90 kDa, another indication of apoptosis, and the presence of p21/WAF1/CIP1 (p21) in all PDT-treated tumors. These changes did not occur in control tumors. Pc 4 appears to be an effective photosensitizer for PDT of human tumors grown as xenografts in nude mice. Early apoptosis, as revealed by PARP cleavage, DNA fragmentation and p21 overexpression, may be responsible for the excellent Pc 4-PDT response. Clinical trials of Pc 4-PDT are warranted.
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PMID:Phthalocyanine 4 (Pc 4) photodynamic therapy of human OVCAR-3 tumor xenografts. 1004 16

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