Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023418 (leukemia)
 93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

HLA class I antigens of the human major histocompatibility complex play an important role in immune response. These molecules present foreign antigenic peptides to cytotoxic T lymphocytes and thereby play a role in the immune surveillance of cells infected with virus or other intracellular pathogens or altered by malignant transformation. A marked deficiency or lack of expression of these antigens has been reported in a variety of human neoplasms. In the present study, we examined the expression of class I alpha chain, beta 2-microglobulin, TAP (TAP1 and TAP2) and LMP (LMP2 and LMP7) genes in a number of human tumor cell lines including small-cell lung carcinoma, hepatocellular carcinoma, colon adenocarcinoma and basophilic leukaemia. These cell lines were deficient in expression of both class I alpha chain and beta 2-microglobulin gene products. In addition, these cell lines lacked the products of MHC-encoded proteasome subunit LMP2 as well as the putative peptide transporter TAP1 genes. In contrast, TAP2 and LMP7 genes were expressed in these cell lines. Treatment of cells with gamma-IFN markedly enhanced the expression of class I alpha chain, beta 2-microglobulin, TAP1 and LMP2 genes with a concomitant increase in cell-surface expression of class I molecules. The upregulation of TAP1 and LMP2 expression is associated with increased class I expression, suggesting that endogenous antigens, e.g. tumor antigens, could be presented by class I molecules following treatment of tumor cells with gamma-IFN.
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PMID:Markedly decreased expression of TAP1 and LMP2 genes in HLA class I-deficient human tumor cell lines. 880 12

At present, allogeneic bone marrow transplantation (BMT) is the only curative treatment for chronic myeloid leukemia (CML) in chronic phase (CP). The graft-vs.-leukemia (GVL) effect appears to play an important role in this treatment. Direct evidence for a GVL effect has been reported in Ph1-positive CML patients who relapsed after allogeneic BMT and who were treated with leukocyte transfusion from the original marrow donor. Alpha-interferon (alpha-IFN) may have facilitated this GVL effect since many patients were treated with it also. We investigated whether leukemia-reactive cytotoxic T lymphocytes (CTLs) can be generated from human leukocyte antigen (HLA)-genotypically identical sibling bone marrow (BM) donors who donated marrow for two patients with Ph1-positive CML in CP and one patient with Ph1-positive acute lymphoblastic leukemia (ALL). We also investigated alpha-IFN's ability to facilitate the generation of CTLs. In the absence of alpha-IFN, CTL lines with only low cytotoxicity and no CTL clones could be generated. In the presence of alpha-IFN, however, alloreactive, leukemia-reactive CTL lines with high cytotoxicity could be generated, and CD8+ CTL clones could be established with HLA class I restricted minor histocompatibility antigen (mHa)-specific recognition. In a cell-mediated clonogenic cytotoxicity assay, the CTL clones showed specific growth inhibition of leukemic precursor cells from the recipient and a second CML patient, but the clones did not inhibit growth of hematopoietic precursor cells (HPCs) from the donor. The normal HPCs from an unrelated donor with the HLA class I restriction molecule were also recognized by the CTL clones, illustrating that the antigen recognized is not leukemia-specific. The mechanism of the immunomodulating effect by alpha-IFN is not clear. Addition of alpha-IFN to medium did not alter the expression of HLA or adhesion molecules on CML cells. In the treatment of CML, administration of alpha-IFN as adjuvant immunotherapy after allogeneic BMT may increase GVL reactivity.
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PMID:Minor histocompatibility antigen-specific, leukemia-reactive cytotoxic T cell clones can be generated in vitro without in vivo priming using chronic myeloid leukemia cells as stimulators in the presence of alpha-interferon. 907 52

We have investigated the protective role of the membrane-bound HLA-G1 and HLA-G2 isoforms against natural killer (NK) cell cytotoxicity. For this purpose, HLA-G1 and HLA-G2 cDNAs were transfected into the HLA class I-negative human K562 cell line, a known reference target for NK lysis. The HLA-G1 protein, encoded by a full-length mRNA, presents a structure similar to that of classical HLA class I antigens. The HLA-G2 protein, deduced from an alternatively spliced transcript, consists of the alpha1 domain linked to the alpha3 domain. In this study we demonstrate that (i) HLA-G2 is present at the cell surface as a truncated class I molecule associated with beta2-microglobulin; (ii) NK cytolysis, observed in peripheral blood mononuclear cells and in polyclonal CD3(-) CD16(+) CD56(+) NK cells obtained from 20 donors, is inhibited by both HLA-G1 and HLA-G2; this HLA-G-mediated inhibition is reversed by blocking HLA-G with a specific mAb; this led us to the conjecture that HLA-G is the public ligand for NK inhibitory receptors (NKIR) present in all individuals; (iii) the alpha1 domain common to HLA-G1 and HLA-G2 could mediate this protection from NK lysis; and (iv) when transfected into the K562 cell line, both HLA-G1 and HLA-G2 abolish lysis by the T cell leukemia NK-like YT2C2 clone due to interaction between the HLA-G isoform on the target cell surface and a membrane receptor on YT2C2. Because NKIR1 and NKIR2, known to interact with HLA-G, were undetectable on YT2C2, we conclude that a yet-unknown specific receptor for HLA-G1 and HLA-G2 is present on these cells.
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PMID:The alpha1 domain of HLA-G1 and HLA-G2 inhibits cytotoxicity induced by natural killer cells: is HLA-G the public ligand for natural killer cell inhibitory receptors? 917 57

All-trans retinoic acid (RA) was previously shown to regulate the growth of gastric cancer cells derived from the cell line SC-M1. This study was designed to investigate the effect of RA on the sensitivity of SC-M1 cells to lymphokine-activated killer (LAK) activity. RA at the concentration range of 0.001-10 microM was shown to induce SC-M1 cells to exhibit resistance to LAK activity in a dose-dependent manner. A kinetics study indicated that a significantly increased resistance was detected after 2 days of co-culturing SC-M1 cells with RA and reached a maximum after 6 days of culture. Similar results were obtained from two other cancer cell lines: promyelocytic leukaemia HL-60 and hepatic cancer Hep 3B. A binding assay demonstrated that the binding efficacy between target SC-M1 cells and effector LAK cells was not altered by RA. Flow cytometric analyses revealed that RA exhibited no effect on the expression of cell surface molecules, including HLA class I and class II antigens, intercellular adhesion molecule-1 and -2, and lymphocyte function antigen-3. Cell cycle analysis revealed that culture of SC-M1 cells with RA resulted in an increase in G0/G1 phase and a decrease in S phase, accompanied by a decrease in cyclin A and cyclin B1 mRNA as determined by Northern blot analysis. Additionally, RA was shown to enhance the expression of retinoic acid receptor alpha (RAR alpha) in SC-M1 cells, and to have no effect on the expression of RARbeta or RARgamma. Taken together, these results indicate that RA can significantly increase gastric cancer cells SC-M1 to resist LAK cytotoxicity by means of a cytostatic effect through a mechanism relating to cell cycle regulation. The prevailing ideas, such as a decrease in effector to target cell binding, a reduced MHC class I antigen expression or an altered RARbeta expression, are not involved.
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PMID:All-trans retinoic acid decreases susceptibility of a gastric cancer cell line to lymphokine-activated killer cytotoxicity. 915 47

Chronic myeloid leukemia (CML) is characterized cytogenetically by a t(9;22) translocation which generates a hybrid bcr-abl gene, encoding a p210(bcr-abl) fusion protein. The induction in vitro of leukemia-specific T cells reactive with p210(bcr-abl) is a strategy developed for an immunological therapeutic approach in CML. Peptides from the junction region of this chimeric protein have been considered as potential targets for a cytotoxic response against leukemic cells. However, only a few peptides encompassing the two p210(bcr-abl) breakpoints have been shown to bind to the most common HLA class I molecules, which limits the number of patients who could benefit from this approach. We assume that the presence of chimeric BCR-ABL protein in leukemic cells may affect processing and delivery of peptides, possibly giving rise to new epitopes at the cell surface. We selected 162 peptides from the whole sequence of this protein, including 14 peptides of the b2a2 and b3a2 junctions, which had an anchor motif for a common HLA class I molecule. We tested their ability to bind to eight HLA class I molecules (HLA-A1, -A2, -A3, -A11, -B7, -B8, -B27, -B44). We identified 48 peptides from outside the junction region, with intermediate or strong binding capacities to these HLA class I molecules contrasting with only six junction peptides with a moderate binding capacity to HLA-A3/A11, -B8, or -B44 molecules. Moreover, cytotoxic T lymphocyte lines specific for various peptides outside the junction were generated from peripheral blood mononuclear cells of HLA-A2 or -B7 healthy donors and from one CML patient. These results contribute to evaluation of immunity to the BCR-ABL chimeric protein. Further studies are required to investigate whether such epitopes are correctly processed and presented by leukemic cells.
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PMID:Peptides derived from the whole sequence of BCR-ABL bind to several class I molecules allowing specific induction of human cytotoxic T lymphocytes. 929 46

It has been recently demonstrated that the CD94/NKG2-A killer inhibitory receptor (KIR) specifically recognizes the HLA-E class Ib molecule. Moreover, the apparent CD94-mediated specific recognition of different HLA class Ia allotypes, transfected into the HLA-defective cell line 721.221, indeed depends on their selective ability to concomitantly stabilize the surface expression of endogenous HLA-E molecules, which confer protection against CD94/NKG2-A+ effector cells. In the present study, we show that a selective engagement of the CD94/NKG2-A inhibitory receptor with a specific monoclonal antibody (mAb) (Z199) was sufficient to induce tyrosine phosphorylation of the NKG2-A subunit and SHP-1 recruitment. These early biochemical events, commonly related to negative signaling pathways, were also detected upon the specific interaction of NK cells with an HLA-E+ 721.221 transfectant (.221-AEH), and were prevented by pre-incubation of .221-AEH with an anti-HLA class I mAb. Furthermore, mAb cross-linking of the CD94/NKG2-A receptor, segregated from other NK-associated molecules by transfection into a rat basophilic leukemia cell line (RBL-2H3), promoted tyrosine phosphorylation of NKG2-A and co-precipitation of SHP-1, together with an inhibition of secretory events triggered via Fc epsilonRI. Remarkably, interaction of CD94/NKG2-A+ RBL cells with the HLA-E+ .221-AEH transfectant specifically induced a detectable association of SHP-1 with NKG2-A, constituting a more formal evidence for the receptor-HLA class I interaction.
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PMID:Specific engagement of the CD94/NKG2-A killer inhibitory receptor by the HLA-E class Ib molecule induces SHP-1 phosphatase recruitment to tyrosine-phosphorylated NKG2-A: evidence for receptor function in heterologous transfectants. 956 68

Despite sufficient levels of HLA class I and class II expression, acute myeloid leukemia (AML) cells usually fail to induce a significant T-cell response in vitro. Therefore, we investigated whether in vitro modifications could enhance the T-cell stimulatory properties of AML cells. AML cells were either cultured with granulocyte-macrophage colony-stimulating factor (GM-CSF), interleukin-4 (IL-4), and tumor necrosis factor-alpha (TNF-alpha), or transfected with the CD80 (B7.1) gene and used as stimulator cells for primed and unprimed allogeneic T cells. Cytokine treatment increased HLA class I and II expression, but did not induce CD80 on AML cells. Cytokine-treated AML cells efficiently presented nominal and allo-antigens to primed T-cell clones, induced strong T-cell proliferation in HLA mismatched mixed lymphocyte reactions (MLR), but failed to induce primary T-cell responses from an HLA identical bone marrow donor in MLR. In contrast, CD80-transfected AML cells induced T-cell proliferation of HLA-identical bone marrow donor peripheral blood mononuclear cell (PBMC) in primary MLR, allowing the generation of leukemia reactive CD4(+) T-cell lines and clones. The majority of the generated oligoclonal (25 of 35) T-cell cultures showed patient specific reactivity that did not discriminate between patient's leukemic cells and Epstein-Barr virus (EBV)-transformed B cells (EBV-LCL). The remaining 10 oligoclonal T-cell cultures recognized only leukemic cells. One of these latter leukemia reactive oligoclonal T cells was cloned. The majority of the clones (25 of 29) reacted against both leukemic cells and patient's EBV-LCL. A minority of the T-cell clones with the CD4 phenotype (four of 29) showed strong HLA-DP restricted reactivity against leukemic cells, but not against patient's EBV-LCL or against HLA-matched nonleukemic cells, indicating that their target antigens are preferentially expressed by leukemic cells. In conclusion, our study shows that the in vitro allogeneic T-cell response induced by CD80-transfected AML cells is mainly directed against patient's specific minor histocompatibility antigens, while antigens preferentially expressed by leukemic cells can also trigger T-cell responses.
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PMID:CD80-Transfected acute myeloid leukemia cells induce primary allogeneic T-cell responses directed at patient specific minor histocompatibility antigens and leukemia-associated antigens. 971 96

While HLA class II alleles identification by means of complement mediated lymphocytotoxicity (serology) is almost replaced by DNA typing techniques, serology is still widely used for routine class I typing. The aim of this prospective study was to compare PCR-based Amplification Refractory Mutation System with serology in clinical HLA class I alleles assignment in patients receiving marrow transplants and their potential donors. The total discrepancy rate in 114 consecutively typed individuals for HLA-A and HLA-C alleles was only in favor of ARMS-PCR, whereas HLA-B typing was discrepant also in favor of serology. The discrepancies were higher in patients, particularly in those with acute lymphoblastic leukaemia, than in healthy individuals. We conclude, that ARMS-PCR is clearly superior to serology in definition of class I alleles, which might be of clinical importance particularly for bone marrow transplantation.
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PMID:Serology versus ARMS-PCR in prospective HLA-class I typing for bone marrow transplantation. 979 77

The frequency of CTL precursors (CTLp) directed towards recipient-derived pre-transplant leukaemic blasts (LB) was measured in the peripheral blood of nine children with acute leukaemia and given BMT from either an HLA-identical sibling or a matched unrelated donor (MUD). Patients were evaluated at various time points between 1 month and more than 2 years after transplantation. A high frequency of donor-derived LB-reactive CTLp was detectable 2-6 months after BMT in all children and persisted for at least up to 18 months in the eight patients in haematological remission, while it rapidly declined in the only patient who relapsed. Generation of LB-reactive T cell clones obtained from some of these patients demonstrates that various T lymphocyte subsets, either HLA class I-restricted/TCR-dependent or HLA-unrestricted, contribute to this phenomenon. The in vitro GVL effect here described seems to be at least partially separated from GVHR, since no correlation was observed between the emergence of LB-reactive CTLp and the development and/or severity of GVHD. Development of LB-reactive CTL in the patients was independent of the frequency of these cells in the donor. These data suggest that donor-derived CTL activity specifically directed towards leukaemic blasts may develop in patients given allogeneic BMT and contribute to the maintenance of a state of haematological remission.
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PMID:Does the emergence and persistence of donor-derived leukaemia-reactive cytotoxic T lymphocytes protect patients given an allogeneic BMT from recurrence? Results of a preliminary study. 982 70

Both clinical and experimental evidence indicate that T lymphocytes can mediate antileukemic effects in acute myelogenous leukemia (AML). These antileukemic effects can be either nonspecific cytotoxicity (killer cell activity) or reactivity against leukemia-specific antigenic peptides presented by self-HLA molecules. The antigen-specific T cell activation requires recognition of specific peptides together with costimulatory signalling. For most patients the AML blasts express both HLA class I and class II molecules for antigenic presentation, but patients are heterogeneous with regard to: (1) expression of costimulatory binding molecules; (2) expression of receptors/counterreceptors involved in induction of apoptosis; (3) constitutive release of immunomodulatory soluble mediators. This heterogeneity suggests that the ability of AML blasts to initiate an antileukemic T cell response will differ between individual patients. Thus, clinical approaches for immunotherapy in AML have to overcome three major problems. First, the therapy should reduce the patient heterogeneity so that therapeutic effects become more predictable; or alternatively one should define patient subsets which are likely to benefit from immunotherapy. Second, immunotherapy should enhance antileukemic T cell reactivity or blast susceptibility to immune attacks. Third, the therapeutic procedures must be safe and suitable for routine use. All three problems probably have to be solved before immunotherapy can become a routine treatment.
Leukemia 1999 Aug
PMID:Acute myelogenous leukemia blasts as accessory cells during T lymphocyte activation: possible implications for future therapeutic strategies. 1045 Jul 45


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