Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A431 cells/UVC-induced apoptosis/Caspase 8/Fas/JNK/PAPK. We previously observed that p53-mutated human epithelial tumor A431 cells underwent apoptosis after ultraviolet C (UVC) irradiation through the caspases-8 and -3 pathway. Fas/FasL is known to initiate apoptosis in several cell lines via caspase-8 activation. Then, to determine if Fas/FasL mediates apoptosis in A431. we investigated Fas expression and modulation in UVC-irradiated A431 cells. A431 constitutively expressed Fas, which gradually decreased after UVC-irradiation. Pretreatment with a neutralizing anti-Fas antibody, ZB4, did not abrogate the UVC-induced apoptosis. An agonistic anti-Fas antibody, CH11, very slowly induced apoptosis in A431. suggesting that the constitutively expressed Fas had a low functional potential. Hence, UVC-induced apoptosis in A431 seems to occur independent of the Fas signal. Interestingly, however, a pretreatment with CH11 remarkably potentiated UVC-induced apoptosis. An inhibitor of caspase-8, Ac-IETD-CHO, partially inhibited UVC-induced apoptosis. JNK was phosphorylated immediately after exposure to UVC. prior to apoptotic chromatin condensation. Our data suggest that the activation of caspase-8 occurs independent of Fas upregulation, and that JNK/ SAPK contributes to UVC-induced apoptosis in human epithelial A431 cells.
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PMID:Fas-independent apoptosis induced by UVC in p53-mutated human epithelial tumor A431 cells through activation of caspase-8 and JNK/SAPK. 1159 86

Anticancer treatment using cytotoxic drugs is considered to mediate cell death by activating key elements of the apoptosis program and the cellular stress response. While proteolytic enzymes (caspases) serve as main effectors of apoptosis, the mechanisms involved in activation of the caspase system are less clear. Two distinct pathways upstream of the caspase cascade have been identified. Death receptors, eg, CD95 (APO-1/Fas), trigger caspase-8, and mitochondria release apoptogenic factors (cytochrome c, Apaf-1, AIF), leading to the activation of caspase-9. The stressed endoplasmic reticulum (ER) contributes to apoptosis by the unfolded protein response pathway, which induces ER chaperones, and by the ER overload response pathway, which produces cytokines via nuclear factor-kappaB. Multiple other stress-inducible molecules, such as p53, JNK, AP-1, NF-kappaB, PKC/MAPK/ERK, and members of the sphingomyelin pathway have a profound influence on apoptosis. Understanding the complex interaction between different cellular programs provides insights into sensitivity or resistance of tumor cells and identifies molecular targets for rational therapeutic intervention strategies.
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PMID:Cellular stress response and apoptosis in cancer therapy. 1167 28

In addition to myelosuppression, anticancer drugs cause rapid and persistent depletion of lymphocytes, possibly by direct apoptosis induction in mature T and B cells. Induction of apoptosis regulators was analyzed in peripheral blood lymphocytes from pediatric patients undergoing first-cycle chemotherapy for solid tumors. In vivo chemotherapy induced a significant increase in lymphocyte apoptosis ex vivo. The activation of initiator caspase-8 and effector caspase-3 and the cleavage of caspase substrates was detected 12 to 48 hours after the onset of therapy. Caspase inhibition by Z-VAD-fmk did not reduce ex vivo lymphocyte apoptosis in all patients, indicating the additional involvement of caspase-independent cell death. No evidence for the involvement of activation-induced cell death was found in the acute phase of lymphocyte depletion as analyzed by activation marker expression and sensitivity for CD95 signaling. Lymphocyte apoptosis in vivo appeared to be predominantly mediated by the mitochondrial pathway because a marked decrease of mitochondrial membrane potential (DeltaPsi(M)) was detected after 24 to 72 hours of treatment, preceded by the increased expression of Bax. Interestingly, despite the use of DNA-damaging agents, p53 remained completely undetectable throughout treatment. In contrast, in vitro treatment with cytarabine and etoposide induced p53 protein, CD95 receptor expression, CD95 sensitivity, and CD95 receptor-ligand interaction in stimulated cycling lymphocytes, but no such induction was seen in resting cells. These data suggest that chemotherapy-induced lymphocyte depletion involves distinct mechanisms of apoptosis induction, such as direct mitochondrial and caspase-dependent pathways in resting cells and p53-dependent pathways in cycling lymphocytes.
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PMID:Activation of apoptosis pathways in peripheral blood lymphocytes by in vivo chemotherapy. 1194 31

In this study, we investigated the mechanism of apoptosis by 3-amino-1,4-dimethyl-5H-pyrido[4,3-b]indole (Trp-P-1) in cocultures of parenchymal and nonparenchymal liver cells, since the liver consists of various cell types and they cooperatively respond to chemicals. It was found that cocultures were more susceptible to cell death by Trp-P-1 than culture of each cell type alone. In cocultures, Trp-P-1 induced DNA fragmentation accompanied by the activation of 18-kDa endonuclease. Trp-P-1 (30 microM) caused a rapid increase in Bid protein level in mitochondria and the leakage of cytochrome c from mitochondria into the cytosol 15 min after treatment. On the other hand, an increase in Bax protein and a decrease in Bcl-2 protein were detected in the mitochondrial fraction 2 h after treatment following the increases in p53 protein level and DNA binding activity of NF-kappa B. Caspase-8 was activated within 30 min followed by the activation of downstream caspases as measured using the corresponding peptide substrates. The activation of caspases was also confirmed by cleavage of caspase-3, poly(ADP-ribose)polymerase, and protein kinase C-delta as analyzed by Western blotting. A peptide inhibitor of caspase-8 diminished DNA ladder formation and the activation of downstream caspases, but a caspase-9 inhibitor and pyrrolidinedithiocarbamate as an inhibitor of NF-kappa B showed only partial inhibition, suggesting that caspase-8 is the apical caspase in the cascade. These results led to the conclusion that Trp-P-1 mainly drives the caspase-8-mediated pathway that involves Bid, accompanied by a delay in the p53/NF-kappa B-mediated side pathway that involves Bax, Bcl-2, and caspase-9.
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PMID:The heterocyclic amine, 3-amino-1,4-dimethyl-5H-pyrido[4,3-b]indole induces apoptosis in cocultures of rat parenchymal and nonparenchymal liver cells. 1170 1

In this study, we investigated the molecular pathways targeted by curcumin during apoptosis of human melanoma cell lines. We found that curcumin caused cell death in eight melanoma cell lines, four with wild-type and four with mutant p53. We demonstrate that curcumin-induced apoptosis is both dose- and time-dependent. We found that curcumin did not induce p53, suggesting that curcumin activates other apoptosis pathways. Our data show that curcumin activates caspases-3 and -8 but not caspase-9, supporting the rationale that apoptosis occurs via a membrane-mediated mechanism. Both a caspase-8 and broad-based caspase inhibitor, but not a caspase-9 specific inhibitor, suppressed curcumin-induced cell death. To further support our hypothesis that curcumin induces activation of a death receptor pathway, we show that curcumin induces Fas receptor aggregation in a FasL-independent manner and that low-temperature incubation, previously shown to inhibit receptor aggregation, prevented curcumin-induced cell death. Moreover, we demonstrate that expression of dominant negative FADD significantly inhibited curcumin-induced cell death. In addition, our results indicate that curcumin also blocks the NF-kappaB cell survival pathway and suppresses the apoptotic inhibitor, XIAP. Since melanoma cells with mutant p53 are strongly resistant to conventional chemotherapy, curcumin may overcome the chemoresistance of these cells and provide potential new avenues for treatment.
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PMID:Curcumin induces apoptosis in human melanoma cells through a Fas receptor/caspase-8 pathway independent of p53. 1171 43

Ultraviolet B (UVB) irradiation induces apoptosis of keratinocytes, where p53 has been suggested to play an important role. Recently we have shown that UVB irradiation induces apoptosis of SV40-transformed human keratinocytes (SVHK cells). Because p53 function is impaired in SVHK cells by large T antigen, a UVB-induced p53-independent apoptotic pathway was suggested. We investigated the UVB-induced apoptotic pathway using various keratinocytes. Cultured mouse keratinocytes of homozygous p53 deficient mice (p53(-/-)) were markedly resistant to UVB-induced apoptosis compared with keratinocytes from wild or heterozygous p53 deficient mice (p53(-/+)). Twenty per cent of keratinocytes derived from p53 (-/-) mice, however, induced apoptosis following UVB irradiation. Analysis using caspase inhibitors disclosed activation of caspase 8 and 3 in UVB-irradiated SVHK cells. Keratinocytes derived from MRL/lpr mice, which have mutated Fas antigen, showed diminished UVB-induced apoptosis suggesting that Fas antigen is significantly involved in UVB-induced apoptosis. Immunohistochemical analysis revealed that UVB irradiation induces aggregation of Fas antigen showing a dense dot-like staining, which was also observed in SVHK cells treated with agonistic anti-Fas antibody, CH11. Pretreatment of antagonistic anti-Fas antibody, ZB4, inhibited CH11-induced but not UVB-induced multimerization of Fas antigen. Furthemore, UVB irradiation did not affect the basal expression of Fas ligand mRNA, protein and soluble Fas ligand. These results indicate that UVB irradiation induces multimerization of Fas antigen that results in apoptosis without the Fas ligand.
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PMID:Ultraviolet B irradiation induces apoptosis of keratinocytes by direct activation of Fas antigen. 1176 89

To understand the function of the individual oncogenes of HPV16 in modulating the cellular response to apoptogenic signals, we used human keratinocytes immortalized with either E6, E7 or E6/E7 oncoproteins as model system. Applying CD95 antibodies or recombinant CD95 ligand, only the E7-immortalized cells underwent extensive apoptosis. In contrast, E6- and E6/E7-expressing keratinocytes were resistant. Dominance of E6 correlated with significant down-regulation of p53, c-Myc, p21 and Bcl-2. CD95 was found to be reduced in resistant HPV-positive cells, while there were no quantitative differences in expression levels of FADD, FLICE/caspase-8 or caspase-3. Notably, in contrast to primary human keratinocytes, all immortalized cells showed a general reduction of c-FLIP, an inhibitory protein which normally prevents unscheduled CD95-induced apoptosis. E6- and E6/E7-positive keratinocytes, however, can be sensitized to CD95 apoptosis by blocking proteasome-mediated proteolysis. CD95-resistant HPV-positive cells underwent apoptosis within 3-5 h upon co-incubation with MG132 and agonistic antibodies or CD95 ligand, which was preceded by a strong re-expression of p53 and c-Myc, but not of other half-life controlled proteins such as Bax or IkappaBalpha. Blockage of proteasomal activity alone did not result in apoptosis, although the same set of pro-apoptotic proteins was up-regulated. Performing similar experiments with cervical carcinoma cells expressing mutated p53 (C33a) or with p53-'null' lung carcinoma cells (H1299), no CD95 cell killing occurred even though c-Myc was strongly induced. These data indicate that the reduced bioavailability of p53 is a key-regulatory event in perturbation of CD95 signaling in HPV16 immortalized keratinocytes.
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PMID:Restoration of p53 expression sensitizes human papillomavirus type 16 immortalized human keratinocytes to CD95-mediated apoptosis. 1180 60

Many viruses are known to disarm or suppress the cell death machinery of infected cells. Apoptotic cell death can be activated by aggregation of the CD95 cell surface death receptor in sensitive cells, and in most insensitive cells treated with sensitizing agents such as interferon-gamma or inhibitors of protein synthesis. We show that, subsequent to sequestration and inactivation of the p53 tumour suppressor protein, SV40 abrogates p53-dependent, DNA damage-inducible up-regulation of CD95 surface expression. Loss of surface up-regulation of CD95 after sub-lethal mitomycin C treatment resulted in an impaired enhancement of both caspase-8 cleavage and apoptotic cell death following CD95 aggregation. We conclude that infection of human cells with SV40 virus strongly inhibits DNA damage-induced enhancement of CD95-mediated apoptosis.
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PMID:Simian virus-40 infection inhibits DNA damage-induced enhancement of CD95 expression and function. 1180 62

During apoptosis of human glioma cells induced by anti-Fas antibody, ceramide formation with activation of acid, but not neutral sphingomyelinase (SMase), was observed. A potent inhibitor of acid SMase, SR33557, effectively inhibited ceramide formation and apoptosis. Fas-induced apoptosis and ceramide formation proceeded regardless of p53 status. The agents, which modify intracellular levels of reactive oxygen species (ROS) and reduced glutathione (GSH), failed to modulate Fas-induced acid SMase activation and apoptosis. Moreover, expression of functional p53 protein using a temperature-sensitive human p53val(138) induced ceramide generation by activation of neutral SMase but not acid SMase through ROS formation. Peptide inhibitors for caspases-8 (z-IETD-fmk) and -3 (z-DEVD-fmk) suppressed Fas-induced apoptosis. However, activation of acid SMase was inhibited only by z-IETD-fmk. Thus, ceramide generated by acid SMase may take a part in Fas-induced apoptosis of human glioma cells and acid SMase activation may be dependent on caspase-8 activation, but not on p53 nor ROS.
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PMID:Acid sphingomyelinase activation requires caspase-8 but not p53 nor reactive oxygen species during Fas-induced apoptosis in human glioma cells. 1182 71

The spermine analogue N(1),N(11)-diethylnorspermine (DENSPM) efficiently depletes the cellular pools of putrescine, spermidine and spermine by down-regulating the activity of the polyamine biosynthetic enzymes and up-regulating the activity of the catabolic enzyme spermidine/ spermine N(1)-acetyltransferase (SSAT). In the breast cancer cell line L56Br-C1, treatment with 10 microm DENSPM induced SSAT activity 60 and 240-fold at 24 and 48 h after seeding, respectively, which resulted in polyamine depletion. Cell proliferation appeared to be totally inhibited and within 48 h of treatment, there was an extensive apoptotic response. Fifty percent of the cells were found in the sub-G(1) region, as determined by flow cytometry, and the presence of apoptotic nuclei was morphologically assessed by fluorescence microscopy. Caspase-3 and caspase-9 activities were significantly elevated 24 h after seeding. At 48 h after seeding, caspase-3 and caspase-9 activities were further elevated and at this time point a significant activation of caspase-8 was also found. The DENSPM-induced cell death was dependent on the activation of the caspases as it was inhibited by the general caspase inhibitor Z-Val-Ala-Asp fluoromethyl ketone. The results are discussed in the light of the L56Br-C1 cells containing mutated BRCA1 and p53, two genes involved in DNA repair.
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PMID:Rapid caspase-dependent cell death in cultured human breast cancer cells induced by the polyamine analogue N(1),N(11)-diethylnorspermine. 1184 6


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