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

We have studied Ags recognized by HLA class I-restricted CTLs established from tumor site to better understand the molecular basis of tumor immunology. HLA-A24-restricted and tumor-specific CTLs established from T cells infiltrating into lung adenocarcinoma recognized the two antigenic peptides encoded by a cyclophilin B gene, a family of genes for cyclophilins involved in T cell activation. These two cyclophilin B peptides at positions 84-92 and 91-99 induced HLA-A24-restricted CTL activity against tumor cells in PBMCs of leukemia patients, but not in epithelial cancer patients or in healthy donors. In contrast, the modified peptides at position 2 from phenylalanine to tyrosine, which had more than 10 times higher binding affinities to HLA-A24 molecules, could induce HLA-A24-restricted CTL activity against tumor cells in PBMCs from leukemia patients, epithelial cancer patients, or healthy donors. PHA-activated normal T cells were resistant to lysis by the CTL line or by these peptide-induced CTLs. These results indicate that a cyclophilin B gene encodes antigenic epitopes recognized by CTLs at the tumor site, although T cells in peripheral blood (except for those from leukemia patients) are immunologically tolerant to the cyclophilin B. These peptides might be applicable for use in specific immunotherapy of leukemia patients or that of epithelial cancer patients.
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PMID:A cyclophilin B gene encodes antigenic epitopes recognized by HLA-A24-restricted and tumor-specific CTLs. 1052 4

Expression of the human class I MHC loci, HLA-A, -B, and -C, was examined by reverse transcription and competitive PCR with locus-specific primers. This approach allows unambiguous identification of target sequences by analysis of the amplified products. JY and Pala lymphoblastoid B cells express more HLA-A than HLA-B mRNAs and little HLA-C mRNA. Raji Burkitt lymphoma and HeLa carcinoma cells express approximately equal amounts of HLA-A and HLA-C mRNAs but less HLA-B mRNA. Jar trophoblast cells express no HLA class I mRNAs. Surprisingly, K562 leukemia cells express significant amounts of HLA-C mRNA. However, K562 cells contain no detectable HLA-A or -B mRNAs, suggesting that these loci are regulated independently. Furthermore, cultured endothelial cells and smooth muscle cells express low, approximately equal amounts of HLA-A, -B, and -C mRNAs, whereas donor-matched, EBV transformed B cells express much more HLA-B mRNA, suggesting that cell type dependent regulation underlies differential locus expression. Finally, expression of HLA class I molecules on the cell surface correlates with total HLA mRNAs but not with mRNAs encoded by any one locus. Differential expression of these HLA class I loci may contribute to cell-type dependent immune reactions by preferentially presenting distinct peptides to T cells.
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PMID:Differential expression of human major histocompatibility class I loci: HLA-A, -B, and -C. 1071 16

The majority of patients with acute promyelocytic leukemia (APL) possess either a bcr1 or a bcr3 type fusion between PML and RARalpha genes. The junction sequences may possibly be a target for immune response and influence susceptibility to the disease. In this case, HLA class I allele frequencies would be different between bcr1 and bcr3 patients. To test this hypothesis, we typed 102 APL patients for HLA-A, -B and -Cw alleles. The A*1, A*30, B*51, B*41, Cw*0602, and Cw*1701 alleles showed a different distribution between bcr1 and bcr3 patients, but in no case was this statistically significant after correction for the number of comparisons or was confirmed in an independent panel. Moreover, no difference was detected between bcr1 and bcr3 when HLA alleles were grouped according to their peptide binding specificities. Comparing HLA frequencies, clinical features at diagnosis and clinical outcome of the 64 patients homogeneously treated with all-trans retinoic acid and idarubicin (AIDA protocol) we observed a statistically significant association between HLA-B*13 and risk of relapse by univariate and multivariate regression analysis. Should this finding be confirmed in larger future studies, this observation would be of outmost importance in identifying patients at high risk of relapse in which more aggressive consolidation therapies should be used.
Leukemia 2000 Mar
PMID:HLA class I in acute promyelocytic leukemia (APL): possible correlation with clinical outcome. 1118 25

The Philadelphia (Ph) chromosome, resulting from the t(9;22) translocation, is characteristic of chronic myeloid leukemia (CML). As a result of this translocation, two novel chimeric genes are generated and the bcr/abl and abl/bcr fusion proteins expressed. The bcr/abl fusion mRNA is present in all CML patients, whereas the reciprocal abl/bcr fusion mRNA is detectable in about 80% of the Ph+ CML patients. These fusion proteins may undergo enzymatic degradation in the cytosol and give rise to MHC class I restricted peptide epitopes originating from the junctional regions of the translocation products, which thus may serve as novel tumor specific antigens. Previously, other groups have tested peptides corresponding to the junctional region of the bcr/abl protein for their binding capacity to HLA class I molecules and have identified a few candidate epitopes. Peptides originating from the abl/bcr fusion protein have on the other hand so far been neglected, for no apparent reason. We have now extended these studies to include also the reciprocal abl/bcr translocation product by testing a large panel of synthetic peptides corresponding to the junctional regions of both the abl/bcr and the bcr/abl fusion proteins for their ability to stabilize HLA class I molecules. We find that the abl/bcr translocation product may be an even more important source of CML specific peptide antigens and together the junctional sequences of both these proteins contain peptide sequences which bind efficiently to a number of HLA molecules (HLA-A1, -A2, -A3, -A11, -B7, -B27, -B35) and thus may serve as candidate CML specific tumor antigens.
Leukemia 2000 Mar
PMID:Peptides spanning the junctional region of both the abl/bcr and the bcr/abl fusion proteins bind common HLA class I molecules. 1072 Jan 36

CML is characterized by the chromosomal translocation t(9;22) (q34;q11) resulting in the chimeric bcr-abl oncogene that encodes P210 fusion proteins with novel amino acid sequences in the breakpoint region. If these peptides derived from P210 are presented by HLA molecules on the cell membrane of leukemic cells an immunological response may occur. Recent studies using synthetic peptides identical to the bcr-abl fusion region revealed that some peptides are capable of binding to the class I molecules HLA-A2,-A3,-A11 and -B8 and the class II molecules HLA-DR1, -DR2, -DR3, -DR4 and -DR11. Moreover T cell responses have been induced against bcr-abl-derived synthetic peptides bound to some of these HLA molecules. For HLA class I, we have previously shown that individuals expressing HLA-A3 and -B8 have a diminished risk of development of CML. To assess a similar protective effect of class II molecules we performed a large multi-center study. This study compared the frequencies of HLA-DR1, -DR2, -DR3, -DR4 and -DR11 of patients with CML from the database of the EBMT (n = 1462) with unaffected individuals from the registry of Bone Marrow Donors Worldwide (n = 500 596). Patients and controls were matched per country. This analysis yielded significantly lower odds ratios (ORs) of 0.86 (95% CI 0.75-0.98) for HLA-DR3 and of 0.80 (95% CI 0.71-0.89) for HLA-DR4. The OR was 0.91 (95% CI 0.80-1.04) for HLA-DR1, 1.05 (95% CI 0.94-1.18) for HLA-DR2 and 0.87 (95% CI 0.74-1.01) for HLA-DR11. To assess a possible effect of the linkage disequilibrium between HLA-B8 and HLA-DR3 we found that coexpression of HLA-B8 and HLA-DR3 gave an OR of 0.84 (95% CI 0.72-0.98), whereas HLA-DR3 positive/HLA-B8 negative individuals showed an OR of 1.02 (95% CI 0.84-1.24). This means that the protective effect of HLA-DR3 of the development of CML was probably caused by its linkage disequilibrium with HLA-B8. In contrast, as there is no linkage disequilibrium of HLA-DR4 with HLA-A3 or HLA-B8, the results indicate that HLA-DR4 expression itself is associated with a diminished incidence of CML possibly by the presentation of bcr-abl breakpoint peptides in these HLA molecules on the membrane of the leukemic cells.
Leukemia 2000 May
PMID:HLA-DR4 is associated with a diminished risk of the development of chronic myeloid leukemia (CML). Chronic Leukemia Working Party of the European Blood and Marrow Transplant Registry. 1124 94

Although clinical experience and in vitro data provide evidence of an anti-leukemic activity of T cells, there are few examples of recognition of leukemic cells by tumor-specific T cells in vitro. Tumor antigens encoded by the MAGE genes are useful tools to study this recognition. We tested the sensitivity to recognition and lysis by anti-MAGE CTL clones of MAGE-A1 positive cell lines HL60 and K562, after transfection with an HLA-A1 construct, and of fresh leukemic blasts from 10 HLA-A2 patients, after incubation with a peptide encoded by gene MAGE-A3. The presentation of MAGE antigens by leukemic cell lines and fresh leukemic blasts induced TNF secretion and cytotoxicity by MAGE-specific CD8(+) CTL clones. The amount of peptide presented by the leukemic blasts, more than the level of expression of HLA class I, adhesion or costimulatory molecules, was the major limiting factor for recognition. These data indicate that leukemic cells may be targeted by T cells showing specificity for a leukemia antigen.
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PMID:Parameters involved in the recognition of fresh human leukemic blasts by tumor-specific cytolytic T cell clones: a model study. 1099

Human leukocyte antigens (HLA) class I molecules restrict the interaction between cytotoxic T cells and target cells. Abnormalities in HLA class I antigen expression and/or function may provide tumor cells with a mechanism for escaping immune surveillance and resisting T cell-based immunotherapies. The potential for applying T cell-based immunotherapy in the treatment of acute myeloid leukemia (AML) has stimulated interest in analyzing HLA class I antigen expression on leukemic blasts in this disease. Little information is available in the literature. We have analyzed HLA class I antigen expression on bone marrow samples from 25 newly diagnosed AML patients by indirect immunofluorescence staining with monoclonal antibodies. Five of these patients were also studied at relapse. Leukemic blasts were resolved from normal lymphocytes by staining with antiCD45 antibody; CD45 expression is dim on leukemia cells, but bright on lymphocytes. HLA class I antigen expression was higher on leukemic blasts than on autologous lymphocytes in all but one case. Moreover, there was no significant change in HLA class I antigen expression at relapse. These results suggest that abnormalities in HLA class I antigens are infrequent in AML and should not represent a major obstacle to the application of T cell-based immunotherapies in this disease.
Leukemia 2001 Jan
PMID:HLA class I antigen cell surface expression is preserved on acute myeloid leukemia blasts at diagnosis and at relapse. 1124 80

It has been proposed that tumor cells frequently associated with partial or total loss of HLA class Ia expression may abnormally express HLA-G class Ib antigen. Such peculiar HLA class I expression would allow tumor cells to escape not only from CD8+T but also from NK-cell cytotoxicity. We studied the cell surface expression of HLA-G using flow cytometry with two HLA-G specific monoclonal antibodies (87G, 01G). The JEG-3 choriocarcinoma cell line, which constitutively expresses HLA-G antigens was used as a positive control. We did not detect the cell-surface HLA-G antigens in the following 75 tumor cell lines: melanoma (22), neuroblastoma (7), retinoblastoma (1), glioma (2), breast carcinoma (3), ovarian carcinoma (3), cervical carcinoma (1), colon carcinoma (3), bladder carcinoma (2), hepatocarcinoma (1), sarcoma (2) and leukemia cell lines: T-lymphocytes (6), B-lymphocytes (13) and myelo-monocytes (9). We found that some myelomonocytic cell lines express on their surface high affinity FcgammaRI (CD64) that may result in the binding of HLA-G specific mabs to their cell surface even in the absence of HLA-G molecules. Our panel of HLA-G negative tumor cell lines accommodated 62 cell lines for which similar analysis have not been reported and also contained 13 cell lines with total or partial loss of HLA class Ia molecules. Our observation imply that under normal culture conditions the cell surface HLA-G reactive with 87G and 01G mabs is absent in most tumor cell lines of different origin.
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PMID:Expression of the non-classical HLA-G antigen in tumor cell lines is extremely restricted. 1126 57

NKG2D is a recently described activating receptor expressed by both NK cells and CTL. In this study we investigated the role of NKG2D in the natural cytolysis mediated by NK cell clones. The role of NKG2D varied depending on the type of target cells analyzed. Lysis of various tumors appeared to be exclusively natural cytotoxicity receptors (NCR) dependent. In contrast, killing of another group of target cells, including not only the epithelial cell lines HELA and IGROV-1, but also the FO-1 melanoma, the JA3 leukemia, the Daudi Burkitt lymphoma and even normal PHA-induced lymphoblasts, involved both NCR and NKG2D. Notably, NK cell clones expressing low surface densities of NCR (NCR(dull)) could lyse these tumors in an exclusively NKG2D-dependent fashion. Remarkably, not all of these targets expressed MICA/B, thus implying the existence of additional ligands recognized by NKG2D, possibly represented by GPI-linked molecules. Finally, we show that the engagement of different HLA class I-specific inhibitory receptors by either specific antibodies or the appropriate HLA class I ligand led to inhibition of NKG2D-mediated NK cell triggering.
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PMID:Role of NKG2D in tumor cell lysis mediated by human NK cells: cooperation with natural cytotoxicity receptors and capability of recognizing tumors of nonepithelial origin. 1129 32

Allogeneic hematopoietic transplantation relies on T-cell alloreactions for engraftment and the graft-versus-leukemia (GVL) effect. In human leukocyte antigen (HLA) haplotype-mismatched transplants, extensive T-cell depletion of the graft is essential to prevent GVHD. This raises the question of whether mismatched transplants exert any GVL effect and whether it will ever be possible to reduce the intensity of preparative regimens. Because natural killer (NK) cells are negatively regulated by MHC class I-specific inhibitory receptors, mismatched transplants may trigger NK-cell alloreactivity. HLA class I disparities driving NK-cell alloreactions in the GVH direction mediate strong GVL effects, produce higher engraftment rates, and do not cause GVHD. In murine MHC-mismatched transplant models with no donor T-cell reactivity against the recipient, the pre-transplant infusion of donor-vs-recipient alloreactive NK cells conditioned the recipients to bone marrow transplantation without GVHD. NK-cell alloreactivity may be a unique therapeutic tool for tolerance induction and clearance of leukemia in hematopoietic transplantation.
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PMID:Cellular therapy: exploiting NK cell alloreactivity in transplantation. 1160 75


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