UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the majority of Ph+ALL patients, p190 bcr-abl fusion protein is generated in the Philadelphia chromosome. The fusion protein may serve as a leukemia antigen because it is not expressed in normal cells and hardly in any other malignancy. From a healthy donor, we have established a p190 bcr-abl fusion peptide-specific CD4+ cytotoxic T-cell clone, activation of which depends on HLA-DRB1*1501. This T-cell clone has a strong cytotoxic activity against autologus MoDCs pulsed with e1a2 peptide and its cytotoxicity is not mediated by Fas/Fas ligand or perforin pathway. Success in establishment of the p190 bcr-abl fusion peptide-specific T-cell clone encourages us to develop a new approach to an effective immunotherapy for Ph+ALL.
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PMID:Generation of Fas-independent CD4+ cytotoxic T-cell clone specific for p190 minor bcr-abl fusion peptide. 1179 22

C57BL/6 (B6; H-2(b)) mice mount strong AKR/Gross murine leukemia virus (MuLV)-specific CD8(+) CTL responses to the immunodominant K(b)-restricted epitope, KSPWFTTL, of endogenous AKR/Gross MuLV. In sharp contrast, spontaneous virus-expressing AKR.H-2(b) congenic mice are low/nonresponders for the generation of AKR/Gross MuLV-specific CTL. Furthermore, when viable AKR.H-2(b) spleen cells are cocultured with primed responder B6 antiviral precursor CTL, the AKR.H-2(b) cells function as "veto" cells that actively mediate the inhibition of antiviral CTL generation. AKR.H-2(b) veto cell inhibition is virus specific, MHC restricted, contact dependent, and mediated through veto cell Fas ligand/responder T cell Fas interactions. In this study, following specific priming and secondary in vitro restimulation, antiretroviral CD8(+) CTL were identified by a labeled K(b)/KSPWFTTL tetramer and flow cytometry, enabling direct visualization of AKR.H-2(b) veto cell-mediated depletion of these CTL. A 65-93% reduction in the number of B6 K(b)/KSPWFTTL tetramer(+) CTL correlated with a similar reduction in antiviral CTL cytotoxicity. Addition on sequential days to the antiviral CTL restimulation cultures of either 1) AKR.H-2(b) veto cells or 2) a blocking Fas-Ig fusion protein (to cultures also containing AKR.H-2(b) veto cells) to block inhibition demonstrated that AKR.H-2(b) veto cells begin to inhibit B6 precursor CTL/CTL expansion during days 2 and 3 of the 6-day culture. Shortly thereafter, a high percentage of B6 tetramer(+) CTL cocultured with AKR.H-2(b) veto cells was annexin V positive and Fas(high), indicating apoptosis as the mechanism of veto cell inhibition. Experiments using the irreversible inhibitor emetine demonstrated that AKR.H-2(b) cells had to be metabolically active and capable of protein synthesis to function as veto cells. Of the tetramer-positive CTL that survived veto cell-mediated apoptosis, there was no marked skewing from the preferential usage of Vbeta4, 8.1/8.2, and 11 TCR normally observed. These findings provide further insight into the complexity of host/virus interactions and suggest a fail-safe escape mechanism by virus-infected cells for epitopes residing in critical areas of viral proteins that cannot accommodate variations of amino acid sequence.
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PMID:Characterization of the Fas ligand/Fas-dependent apoptosis of antiretroviral, class I MHC tetramer-defined, CD8+ CTL by in vivo retrovirus-infected cells. 1188 42

L-leucyl-L-leucine methyl ester (LLME) prevents GVHD in several animal models by depleting dipeptidyl peptidase I (DPPI)-expressing cytotoxic cellular subsets. However, clinical application has been hampered by difficulties in stem cell engraftment following treatment of donor bone marrow inocula with LLME at the concentrations necessary to purge DPPI-expressing T-cells. Noting that T-cells can mediate graft-versus-leukemia (GVL) responses via both perforin (usually co-expressed in cytotoxic granules with DPPI) and Fas ligand pathways in a murine model, we hypothesized that LLME might be useful for treatment of delayed DLIs for potential GVL activity with a decreased risk of GVHD induction. In regard to the clinical setting, the ex vivo use of LLME for this purpose would circumvent any toxicity issues for donor stem cells, because by that time patients would have already achieved successful engraftment. For our preclinical studies, we used the haploidentical C57BL/6 (B6) (H2b) --> ((B6 x DBA/2)F1 (H(2b/d)) murine model with lethally irradiated hosts that had received transplants of T-cell-depleted bone marrow cells and were challenged with the MMD2-8 myeloid leukemia line (H2d) of DBA/2 origin. A DLI of LLME-treated donor splenocytes, from B6 mice presensitized to recipient alloantigens, was administered in varying doses 14 days post-marrow transplantation, and the potential for both GVHD and GVL activity was assessed. All mice that received any dose of LLME-treated DLI survived indefinitely, without evidence of cachexia nor B-cell hypoplasia, in contrast to the severe and lethal GVHD induced by mock-treated DLI. Histological analysis largely correlated with the symptomatic findings and revealed no GVHD-like lesions in the spleens of LLME-treated DLI recipients, although some mice displayed various degrees of hepatic mononuclear infiltration. Most notably, mice given LLME-treated DLI also experienced DLI dose-dependent increases in survival against the challenge with the MMD2-8 leukemia. LLME-treated splenocytes remained immunocompetent, as these cells could proliferate in response to mitogens and to restimulation with ovalbumin when used as a recall antigen. In conclusion, LLME-treated DLI possesses immune potential and, in particular, GVL activity without inducing clinically evident GVHD.
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PMID:Leucyl-leucine methyl ester-treated haploidentical donor lymphocyte infusions can mediate graft-versus-leukemia activity with minimal graft-versus-host disease risk. 1210 16

Altered expression of the Fas-Fas ligand apoptotic pathway leads to lymphoproliferative and autoimmune diseases. In lpr/lpr mice and children with autoimmune lymphoproliferative syndrome, defective apoptosis is due to Fas mutations. Large granular lymphocyte (LGL) leukemia is a clonal lymphoproliferative disorder associated with rheumatoid arthritis. Leukemic LGLs are resistant to Fas-dependent apoptosis despite expressing high levels of Fas. Such resistance can be overcome by activating leukemic LGLs in vitro, suggesting inhibition of Fas signaling in leukemic cells. We report that sera from patients with LGL leukemia contain high levels of soluble Fas. Ten of these 33 patients with LGL leukemia also had rheumatoid arthritis. Cloning and sequencing revealed expression of multiple Fas messenger RNA variants in leukemic LGL. These Fas variants, including 3 newly described here, encode soluble Fas molecules. Supernatants from cells transfected with these Fas variants blocked Fas-dependent apoptosis of leukemic LGLs. These results suggest that blockade of Fas-signaling by soluble Fas may be a mechanism leading to apoptosis resistance in leukemic LGLs.
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PMID:Blockade of Fas-dependent apoptosis by soluble Fas in LGL leukemia. 1214 30

Tumor necrosis factor (TNF)-related apoptosis-inducing ligand (TRAIL) and Fas ligand (FasL) have been implicated in antitumor immunity and therapy. In the present study, we investigated the sensitivity of Philadelphia chromosome (Ph1)-positive leukemia cell lines to TRAIL- or FasL-induced cell death to explore the possible contribution of these molecules to immunotherapy against Ph1-positive leukemias. TRAIL, but not FasL, effectively induced apoptotic cell death in most of 5 chronic myelogenous leukemia-derived and 7 acute leukemia-derived Ph1-positive cell lines. The sensitivity to TRAIL was correlated with cell-surface expression of death-inducing receptors DR4 and/or DR5. The TRAIL-induced cell death was caspase-dependent and enhanced by nuclear factor kappa B inhibitors. Moreover, primary leukemia cells from Ph1-positive acute lymphoblastic leukemia patients were also sensitive to TRAIL, but not to FasL, depending on DR4/DR5 expression. Fas-associated death domain protein (FADD) and caspase-8, components of death-inducing signaling complex (DISC), as well as FLIP (FLICE [Fas-associating protein with death domain-like interleukin-1-converting enzyme]/caspase-8 inhibitory protein), a negative regulator of caspase-8, were expressed ubiquitously in Ph1-positive leukemia cell lines irrespective of their differential sensitivities to TRAIL and FasL. Notably, TRAIL could induce cell death in the Ph1-positive leukemia cell lines that were refractory to a BCR-ABL-specific tyrosine kinase inhibitor imatinib mesylate (STI571; Novartis Pharma, Basel, Switzerland). These results suggested the potential utility of recombinant TRAIL as a novel therapeutic agent and the possible contribution of endogenously expressed TRAIL to immunotherapy against Ph1-positive leukemias.
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PMID:TNF-related apoptosis-inducing ligand (TRAIL) frequently induces apoptosis in Philadelphia chromosome-positive leukemia cells. 1250 34

To determine whether the Fas receptor-Fas ligand (FasR-FasL) system, which triggers apoptosis in sensitive cells, is an important mechanism of cytotoxicity in myeloid leukemia. FasL expression was investigated in myeloid leukemia cells and its upregulation by a combination of IL-2 and INF-gamma, +/- as well as its function of inducing Jurkat cells to apoptosis mainly by flow cytometry (FCM). Results showed that leukemia cells expressed more FasL (3.59 +/- 1.05)% than that expressed in the healthy individuals (0.36% +/- 0.16)%, P < 0.001 and the FasL was upregulated (7.78 +/- 3.40)%, P < 0.01 when treated with IL-2 and IFN-gamma. Leukemia cells were co-cultivated with Jurkat cells for 24 hours. Then Jurkat cells were labeled with FITC-annexin V and PE-CD3 to assess apoptosis by FCM. The leukemia cells, which had been incubated with IL-2 and IFN-gamma, induced more Jurkat cells to apoptosis than the ones that freshly isolated from the peripheral blood mononuclear cells, which raised the figure from (8.28 +/- 1.61)% to (10.73 +/- 2.16%). And the supernatant derived from the former killed more Jurkat cells than the latter. It was concluded that human myeloid leukemia cells expressed high levels of functional FasL that can kill Jurkat T-cells by apoptosis. FasR-FasL sys tem could play a role in the "immune escape" and relapse of the leukemia. The induction of apoptosis through the Fas pathway might be a novel and effective approach for leukemia immunotherapy.
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PMID:[Study on expression and function of fas ligand in human myeloid leukemia cells]. 1251 81

Dendritic cells (DCs) play a central role in immune regulation. Some leukemic cells are argued to be malignant counterparts of DC because of their ability to differentiate into leukemic DC. We characterize DC-like leukemia homogenously expressing CD11c+CD86+ in acute myelogenous leukemia patients. They express the Wilms' tumor-1 antigen and common DC phenotypes (i.e., fascin+, CD83+, and DR+) directly. Purified leukemic cells produce interleukin-12 (IL-12) simultaneously with Fas ligand (FasL) and IL-6, which may suppress T cell-mediated immunity. These cells can elicit strong allogeneic T cell responses as well as induce tumor-specific CD8+ cytotoxic T cells, suggesting that they effectively present tumor-associated antigens. In contrast, they drive primary T cells toward apoptosis mediated in a tumor-specific way by a Fas-FasL interaction. Taken together, DC-like leukemia uniquely influences immune surveillance in contradictory ways, some of which may be involved in the mechanism of immune escape.
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PMID:Malignant counterpart of myeloid dendritic cell (DC) belonging to acute myelogenous leukemia (AML) exhibits a dichotomous immunoregulatory potential. 1252 65

Apoptosis mediated by the interaction of cytotoxic T lymphocyte with blast cell via Fas receptor/Fas ligand (FasL) pathway is a one of the mechanisms of immunological leukemia surveillance. There is few data on possible blocking of Fas receptor by soluble form of Fas (sFasL) present in serum and the role of blast cells as the source of this ligand. Forty-eight patients with de novo diagnosis of acute leukemia, 32 with myeloblastic (AML) and 16 with acute lymphoblastic leukemia (ALL) were studied. Fas expression on bone marrow leukemic blasts was determined by flow cytomertic immunofluorescent analysis and serum concentration of sFasL assessed at presentation, in remission and in relapse. Blasts of all patients expressed Fas at variable degree (0.8 to 100%). Fas expression was significantly higher on myelo--than on lymphoblasts. There was no relation between degree of Fas expression at diagnosis and remission rate. Concentration of sFasL in acute leukemia patients at diagnosis was significantly higher than in healthy control group, decreased to normal values in remission and rose again in relapse. There was a negative correlation between Fas expression on blasts and sFasL concentration at the time of diagnosis. Results obtained suggest that blast cells could be the source of soluble FasL in acute leukemia patients and that sFasL serum concentration could be used for monitoring of disease activity.
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PMID:[Expression of Fas receptor and soluble Fas ligand (sFasL) concentration in acute leukemia]. 1260 Jan 84

To assess the value of CD34+ cells transferred exogenous Fas ligand (FasL) in inducing apoptosis of human leukemic cells, the CD34+ cells transfected with FasL or without, pretreated with mitomycin C, was mixed with leukemic cell line U937 cells in presence or absence of daunorubicin (DNR) or cytosine arabinoside (Ara-C). After 18 h, apoptosis of cells was detected by FCM and TUNEL. Induced for 18 h by CD34+ cells transfected with FasL or without, the ratio of apoptosis of U937 cells was (5.0 +/- 1.3)%, (10.8 +/- 0.6)% (P < 0.01), respectively. Induced by FasL+ CD34+ + DNR, FasL+ CD34+ + Ara-C, the ratio was (13.4 +/- 1.0)% (P < 0.05), (17.9 +/- 1.3)% (P < 0.01), respectively. The result demonstrated that CD34+ cells transfected with exogenous FasL could induce apoptosis of human leukemic cells and showed a cytotoxic synergistic effect when used in combination with chemotherapeutic drugs, suggesting that it was possible to develop a new method in treatment of leukemia.
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PMID:Apoptosis of leukemia cells induced by CD34+ cells transferred exogenous Fas ligand. 1265 2

Mast cells are known to play an important role in inflammation and host defense. Recent evidence suggests that mast cells may also participate in immune surveillance against cancer cells. In this study, we demonstrate that human mast cells are able to trigger apoptosis in Jurkat T leukemia cells. Fragmentation of Jurkat cell DNA was detectable by JAM assay within 4 h of exposure to HMC-1 mast cells or cultured human cord blood-derived mast cells. HMC-1 mast cells that were fixed with paraformaldehyde retained the ability to induce apoptosis in Jurkat cells while cell-free conditioned supernatants from HMC-1 cell cultures failed to elicit DNA fragmentation, suggesting that mast cells mediate anti-tumor activity via a cell-surface molecule. Surprisingly, the apoptosis-inducing activity of HMC-1 mast cells was not mediated by known tumor necrosis factor (TNF) superfamily members (TNF-alpha, Fas ligand, TRAIL, TWEAK), nor did the fragmentation of Jurkat cell DNA by mast cells require the activity of caspase-3, -8, or -9. Collectively, these data indicate that mast cells trigger caspase-independent apoptosis in leukemic cells via a novel cell-surface molecule, and are consistent with a role for mast cells as anti-tumor effector cells.
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PMID:Human mast cells induce caspase-independent DNA fragmentation in leukemic T cells. 1279 63

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