UNIPROT:P42574 - FACTA Search

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Query: UNIPROT:P42574 (caspase-3)
45,978 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

All-trans-retinoic acid (RA) treatment induces morphological remission in acute promyelocytic leukemia (APL) patients carrying the t(15;17) and expressing the PML/RARalpha product by inducing terminal differentiation of the leukemic clone. RA treatment induces downregulation of PML/RARalpha and reorganization of the PML-nuclear bodies. These events have been proposed to be essential for the induction of APL cell differentiation by RA. Here, we show that in the APL-derived NB4 cell line as well as in myeloid precursor U937 cells expressing the PML/RARalpha (U937/PR9) and in blasts from APL patients, the PML/RARalpha fusion protein is cleaved by a caspase 3-like activity induced by RA treatment. In fact, a caspase 3-like activity is detectable in PML/RARalpha expressing cells after RA treatment, and selective caspase inhibitor peptides are able to prevent the RA-induced degradation of the fusion protein in vivo and in vitro. Using recombinant caspases and PML/RARalpha deletion mutants we mapped a caspase 3 cleavage site (Asp 522) within the alpha-helix region of the PML component of the fusion protein. The extent of PML/RARalpha cleavage directly correlates with the ability of RA to restore the normal PML nuclear bodies (NBs) pattern. However, RA-induced differentiation is not prevented by the persistence of the fusion product and occurs in the absence of normally structured PML NBs. These results indicate that PML/RARalpha is directly involved in conferring RA sensitivity of APL cells and that the RA-induced reassembly of PML NBs is the consequence of the disappearance of PML/RARalpha.
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PMID:Caspases mediate retinoic acid-induced degradation of the acute promyelocytic leukemia PML/RARalpha fusion protein. 974 61

PML nuclear bodies (NBs) are nuclear matrix-associated structures altered by viruses and oncogenes. We show here that PML overexpression induces rapid cell death, independent of de novo transcription and cell cycling. PML death involves cytoplasmic features of apoptosis in the absence of caspase-3 activation, and caspase inhibitors such as zVAD accelerate PML death. zVAD also accelerates interferon (IFN)-induced death, suggesting that PML contributes to IFN-induced apoptosis. The death effector BAX and the cdk inhibitor p27KIP1 are novel NB-associated proteins recruited by PML to these nuclear domains, whereas the acute promyelocytic leukaemia (APL) PML/RAR alpha oncoprotein delocalizes them. Arsenic enhances targeting of PML, BAX and p27KIP1 to NBs and synergizes with PML and IFN to induce cell death. Thus, cell death susceptibility correlates with NB recruitment of NB proteins. These findings reveal a novel cell death pathway that neither requires nor induces caspase-3 activation, and suggest that NBs participate in the control of cell survival.
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PMID:PML induces a novel caspase-independent death process. 980 33

The PML gene of acute promyelocytic leukaemia (APL) encodes a cell growth and tumour suppressor, however, the mechanisms by which PML suppresses tumorigenesis are poorly understood. We show here that Pml is required for Fas- and caspase-dependent DNA-damage-induced apoptosis. We also found that Pml is essential for induction of programmed cell death by Fas, tumour necrosis factor alpha (TNF), ceramide and type I and II interferons (IFNs). As a result, Pml-/- mice and cells are protected from the lethal effects of ionizing radiation and anti-Fas antibody. Pml is required for caspase 1 and caspase 3 activation upon exposure to these stimuli. The PML-RAR alpha fusion protein of APL renders haemopoietic progenitor cells resistant to Fas-, TNF- and IFN-induced apoptosis with a lack of caspase 3 activation, thus acting as a Pml dominant-negative product. These results demonstrate that Pml is a mediator of multiple apoptotic signals, and implicate inhibition of apoptosis in the pathogenesis of APL.
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PMID:PML is essential for multiple apoptotic pathways. 980 33

Fusion proteins involving the retinoic acid receptor alpha (RARalpha) and PML or PLZF nuclear protein are the genetic markers of acute promyelocytic leukemia (APL). APLs with PML-RARalpha or PLZF-RARalpha fusion protein differ only in their response to retinoic acid (RA) treatment: the t(15;17) (PML-RARalpha-positive) APL blasts are sensitive to RA in vitro, and patients enter disease remission after RA treatment, while those with t(11;17) (PLZF-RARalpha-positive) APLs do not. Recently it has been shown that complete remission can be achieved upon treatment with arsenic trioxide (As2O3) in PML-RARalpha-positive APL, even when the patient has relapsed and the disease is RA resistant. This appears to be due to apoptosis induced by As2O3 in the APL blasts by poorly defined mechanisms. Here we report that (i) As2O3 induces apoptosis only in cells expressing the PML-RARalpha, not the PLZF-RARalpha, fusion protein; (ii) PML-RARalpha is partially modified by covalent linkage with a PIC-1/SUMO-1-like protein prior to As2O3 treatment, whereas PLZF-RARalpha is not; (iii) As2O3 treatment induces a change in the modification pattern of PML-RARalpha toward highly modified forms; (iv) redistribution of PML nuclear bodies (PML-NBs) upon As2O3 treatment is accompanied by recruitment of PIC-1/SUMO-1 into PML-NBs, probably due to hypermodification of both PML and PML-RARalpha; (v) As2O3-induced apoptosis is independent of the DNA binding activity located in the RARalpha portion of the PML-RARalpha fusion protein; and (vi) the apoptotic process is bcl-2 and caspase 3 independent and is blocked only partially by a global caspase inhibitor. Taken together, these data provide novel insights into the mechanisms involved in As2O3-induced apoptosis in APL and predict that treatment of t(11;17) (PLZF-RARalpha-positive) APLs with As2O3 will not be successful.
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PMID:PIC-1/SUMO-1-modified PML-retinoic acid receptor alpha mediates arsenic trioxide-induced apoptosis in acute promyelocytic leukemia. 1037 66

CD437-induced apoptosis has been investigated in NB4, a human t(15;17) acute promyelocytic leukemia (APL) cell line, and in the retinoic acid (RA)-resistant NB4-R1 derivative subclone. Both NB4 and NB4-R1 cells underwent rapid apoptosis in response to low doses of CD437 (10(-7)M). This apoptosis did not require the activation of classical retinoid receptors and like arsenic (As)-induced apoptosis was preceded by the rapid activation of a caspase-3-like enzymatic activity as indicated by the increase of DEVD-pNA hydrolytic activity, by the processing of procaspase-3 protein and by the cleavage of poly(ADP-ribose) polymerase (PARP). Furthermore, it was demonstrated that the caspase-3-like proteolytic activity is responsible for the degradation of both the PML/RARalpha oncogenic protein and the normal RARalpha proteins. In CD437-treated cells, PML proteins were not degraded and PML relocalization on PMLNBs occurred in all the cells before death. CD437-induced apoptosis and receptor degradation were proteasome independent and not influenced either by inhibitors of protein tyrosine kinases (PTK), protein tyrosine phosphatases (PTPases) and serine proteases or by glutathione levels. Moreover, our data suggested that as for As2O3-induced apoptosis Bc12 modulation is not significant for CD437-induced apoptosis of NB4 cells. Since CD437 induces in vitro the rapid apoptosis of both RA-sensitive and -resistant APL cells, it could represent the first retinoid potentially able to eradicate in vivo malignant leukemia blasts.
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PMID:In acute promyelocytic leukemia NB4 cells, the synthetic retinoid CD437 induces contemporaneously apoptosis, a caspase-3-mediated degradation of PML/RARalpha protein and the PML retargeting on PML-nuclear bodies. 1037 79

6-[3-adamantyl-4-hydroxyphenyl]-2-naphthalene carboxylic acid (CD437) is a novel compound that represents the prototype of a new class of synthetic retinoids with apoptogenic properties in acute promyelocytic leukemia (APL) and other types of leukemia. In this article, using SCID mice xenografted with APL-derived NB4 cells, we demonstrate that CD437 has significant antileukemic activity in vivo. In addition, we report on the isolation and characterization of an APL cell line (NB4.437r) resistant to CD437. The cell line retains expression of PML-RARalpha and is approximately 33-fold more resistant than the parental counterpart to the apoptogenic effects of the retinoid. Resistance is relatively specific to CD437 and structural congeners because the NB4.437r cell line is still sensitive to various types of apoptogenic compounds. The CD437-resistant cell line maintains sensitivity to the antiproliferative and apoptotic action of all-trans-retinoic acid, AM580, and fenretinide, though it shows partial resistance to the cytodifferentiating effects of the first 2 compounds. Resistance to CD437 lays upstream of the CD437-induced release of cytochrome c from the mitochondria and the activation of caspase-3, -7, -8, and -9. Furthermore, NB4.437r cells are deficient in the CD437-dependent activation of nuclear NFkb and AP1-binding activities and in the phosphorylation of the protein kinase Akt. In the case of AP1, deficient assembly of the complex is not caused by the lack of activation of the Jun N-terminal kinase (JNK) family of kinases. The novel cell line will be useful in the elucidation of the molecular mechanisms underlying the apoptogenic action of CD437 and structurally related retinoids. (Blood. 2000;95:2672-2682)
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PMID:Isolation and characterization of an acute promyelocytic leukemia cell line selectively resistant to the novel antileukemic and apoptogenic retinoid 6-[3-adamantyl-4-hydroxyphenyl]-2-naphthalene carboxylic acid. 1075 50

Arsenic trioxide (As2O3)-treatment is effective in acute promyelocytic leukemia (APL) patients with t(15;17). Clinically achievable concentrations of As2O3 induce apoptosis in NB4, an APL cell line, in vitro. Here, to study the mechanism of As2O3-induced apoptosis, we established an As2O3-resistant subline, NB4/As. Growth of NB4/As was inhibited by 50% after 2 day-treatment (IC50) at 1.6 microM As2O3, whereas IC50 of NB4 was 0.3 microM. Degradation of PML-RARalpha and change of the PML-subcellular localization were similarly induced by As2O3 in NB4 and NB4/As, suggesting that their contribution to apoptosis is small. Treatment with 1 microM As2O3 induced the activation of caspase 3 as well as a loss of mitochondrial transmembrane potential (deltapsim) in NB4 but not in NB4/As. Caspase 8 and Bid were also activated by As2O3 in NB4 but not in NB4/As. In NB4, an inhibitor of caspase 8 blocked not only the activation of caspase 3 but also the loss of deltapsim. Neither cell line expressed CD95/Fas, and agonistic anti-Fas antibody (CH-11) failed to cause apoptosis. Neither antagonistic anti-CD95/Fas antibody nor anti-Fas ligand antibodies influenced the As2O3-induced apoptosis. NB4/As had a higher concentration of intracellular glutathione (GSH) than NB4 (96 vs 32 nmol/mg). Reduction of the GSH level by buthionine sulfoxide (BSO) completely restored the sensitivity to As2O3 in NB4/As. Furthermore, caspase activation and the loss of deltapsim were recovered by combination treatment with BSO. These findings suggest that the As2O3 treatment activates caspase 8 in a CD95-independent but GSH concentration-dependent manner. In combination with BSO, As2O3 might be applied to therapy of leukemia/cancers which are insensitive to the clinically achievable concentrations of As2O3.
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PMID:Involvement of CD95-independent caspase 8 activation in arsenic trioxide-induced apoptosis. 1102 49

Treatment of APL with ATRA or As2O3 alone or in combination with chemotherapy yields a complete remission as high as 85%-95%, but their mechanisms of action remain unclear. The mechanisms of action underlying ATRA treatment are (1) relocalization of the PML restoration of normal structure of nuclear bodies and degradation of PML-RAR alpha protein via caspase-mediated cleavage and proteosome-dependent degradation; (2) conversion of PML-RAR alpha from a transcription repressor (CoR) to a transcription activator (CoA) under therapeutic concentration of ATRA (3) coordinated genes expression induced by ATRA resulting in an elegant and intricate cellular program for the commitment to differentiation. 169 genes were modulated to express, with 100 genes up-regulated and 69 down-regulated. As2O3 exerts its action by dual dose-dependent manner. At higher concentration (1-2 microns/l), it induces apoptosis of the leukemic cells associated with disruption of mitochondrial membrane potential, elevation of caspase-3 and other caspases activity and decline of Bcl-2 expression. At lower concentration (0.1-0.5 micron/l), it triggers differentiation with elevation of CD11b expression accompanied by morphologically partial differentiation. At both concentrations, As2O3 causes degradation of PML-RAR alpha protein implicated probably in its mechanisms of action.
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PMID:Mechanism of action of all-trans retinoic acid and arsenic trioxide in the treatment of acute promyelocytic leukemia. 1189 Jan 9

A metal chelator, diphenylthiocarbazone (dithizone), has been reported to induce differentiation and apoptosis of the human myeloid leukemia cell line HL-60, however, very little is known about the mechanism of dithizone-induced apoptosis. Here, we report for the first time that dithizone can induce inhibition of cellular growth of retinoic acid (RA)-sensitive NB4 and RA-resistant UF-1 APL cells via induction of apoptosis but not differentiation. Treatment of NB4 cells with dithizone markedly-induced apoptosis, which was associated with the loss of mitochondrial transmembrane potentials (Delta Psi(m)) and activation of caspase-3 and -9. Further investigation of the RA-resistant UF-1 APL cells showed that dithizone-induced apoptosis to a lesser extent. However, neither dithizone alone nor in combination with all-trans RA induced the expression of myeloid differentiation antigen CD11b. Concomitantly, the degradation of PML/RARalpha fusion protein was not observed after treatment with dithizone alone, and the degradation was not enhanced by the combination of dithizone and all-trans RA. We conclude that dithizone, a metal chelator, induced apoptosis without differentiation in APL cells in association with Delta Psi(m) collapse and caspase-3 and -9 activation.
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PMID:A metal chelator, diphenylthiocarbazone, induces apoptosis in acute promyelocytic leukemia (APL) cells mediated by a caspase-dependent pathway without a modulation of retinoic acid signaling pathways. 1200 84

Arsenic trioxide (As2O3) can induce clinical remission in patients with acute promyelocytic leukemia (APL), including those who have relapsed after treatment with all-trans-retinoic acid (RA). In vitro studies with the APL-derived NB4 cell line showed that As2O3 exerts a dose-dependent dual effect, which induces apoptosis at 1 microM, whereas at a lower concentration of 0.1 microM, a partial differentiation of APL is observed. In non-APL cells, interferon (IFN) alpha and 1 microM As2O3 act synergistically to induce apoptosis. In this report, we show that in NB4 cells and in two RA-resistant NB4-derived cell lines, NB4-R1 and NB4-R2, IFNalpha or IFNgamma combined with 0.1 microM As2O3 lead to an increased maturation effect. Moreover, IFNgamma alone is able to differentiate RA-sensitive and -resistant cells with a higher maturation effect on NB4-R2 cells. In contrast, all these cells underwent apoptosis in the presence of the cytokine and a higher concentration of As2O3. IFNgamma boosted As2O3-induced apoptosis in APL cells as tested by TUNEL, Annexin V staining and activation of caspase 3. As2O3 differently altered IFN-induced gene products; it downregulated PML/RARalpha and PML, did not alter PKR and Stat1, and upregulated interferon regulatory family (IRF)-1. Synergism by IFNgamma and arsenic on IRF-1 expression is mediated by a composite element in the IRF-1 promoter that includes an IFNgamma-activation site (GAS) overlapped by a nonconsensus site for nuclear factor kappa B (NFkappaB). Arsenic has no effect on NFkappaB, whereas it enhances the activation of Stat1 by IFNgamma in NB4 cells leading to an increase in IRF-1 expression.
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PMID:Arsenic enhances the activation of Stat1 by interferon gamma leading to synergistic expression of IRF-1. 1466 93

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