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:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Possible immunogenic heterogeneity of the HLA-Bw44 antigen was investigated using cytotoxic T lymphocytes (CTL) generated between donors identical for HLA-A2,3,-B7,w44. Highly discriminatory CTL combinations were identified that defined two subgroups of Bw44, designated 44.1 and 44.2. Out of 47 Bw44-positive donors tested in a population study, 30 were lysed by the CTL defining 44.1, and 19 were lysed by the CTL defining 44.2. All Bw44 cells could be typed as either 44.1 or 44.2, except two Bw44-positive cells that were phenotypically homozygous for the serologically defined Bw44 antigen and were lysed by both CTL. No Bw44-negative donors (zero out of 37) expressed either 44.1 or 44.2, although cold target blocking was required to eliminate a contaminating reactivity of one CTL population on Bw35 and some Bw45 cells. CTL were also raised between responder/stimulator combinations mismatched for Bw44. These CTL lysed all Bw44-positive target cells, indicating a CML antigen shared by all Bw44 cells. But clear discrimination of the 44.1 and 44.2 subgroups was obtained when appropriate cold target blocking cells were added. All donors with 44.2 expressed high levels of serologically detectable Bw44 on their platelets, and all with 44.1 expressed low levels (p less than 0.005). Furthermore, population studies indicate that 44.1 is in positive linkage disequilibrium with HLA-A2 and possibly DR4, whereas 44.2 is in positive linkage disequilibrium with HLA-DR7 and possibly HLA-A23, -A26, and -A29. These data suggest the existence of two genetically and functionally different subgroups of Bw44 antigens.
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PMID:Two subgroups of HLA Bw44 defined by cell-mediated lympholysis that differ in Bw44 expression on platelets and in patterns of genetic linkage disequilibrium. 618 11

The HLA-D/Dr region in man encodes major determinants which stimulate T lymphocytes to proliferation. The genetic organization of this region is apparently complex and is at present largely unknown. One obstacle is the scarcity and quality of available typing reagents. In an attempt to obtain high quality anti-DR sera, a series of active immunizations was performed between highly selected, healthy unrelated donors and recipients. One recipient (AR8) was immunized using cells incompatible for HLA-A2, B40 (w60), Cw3 and D/DRw6 and readily developed anti-A2 and B40 antibodies but no anti-C, CR, or other antibodies. When tested against his HLA genotypically fully identical brother using te cellular MLC, PLT, or CML techniques before immunization, results were mutually negative as expected. Following immunization, however, AR8 was able to mount MLC, PLT, and possibly CML responses against lymphocytes from the brother while the reverse combinations remained negative. When tested in the family the trait(s) thus identified seems to be maternally inherited. These results suggest the existence of minor histocompatibility determinants encoded from regions not closely linked to HLA. The brother of AR8 and the immunizing donor thus seem to share one or more determinants not possessed by AR8.
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PMID:One-way positive cellular reactions between two HLA-A, B, C, D/DR genotypically identical brothers following active allogeneic immunization. 641 87

Leukemia cells from a patient with chronic myelogenous leukemia (CML) in accelerated phase were used to generate CD4+, CD8- T lymphocyte lines from an unrelated normal subject sharing HLA-A2 and DR4 with the patient. In chromium release cytotoxicity assays, lines showed specificity for patient cells and were unreactive against third-party CML and K562 cells. Cytotoxicity was blocked by anti HLA-DR on target cells. Some lines showed preferential cytotoxicity to PHA-induced lymphoblasts and some to CML cells. There was a broad correlation between cytotoxicity to CML cells by 51Cr release and CFU-CM inhibition. However, even weakly cytotoxic lines were inhibitory to CML CFU-GM. This effect was partly mediated by the T cell line supernatant: four of five supernatants tested inhibited the growth of CFU-GM. Antibody neutralization studies demonstrated the presence of gamma interferon (IFN-gamma) and tumor necrosis factor alpha (TNF-alpha) in these supernatants. There was a greater suppression of CML CFU-GM when compared with CFU-GM from normal individuals. One supernatant from a noncytotoxic T cell line stimulated CFU-GM and was demonstrated by antibody neutralization studies to contain interleukin-3 (IL-3) and GM-CSF. These data indicate that alloreacting CD4 cells exert both cytotoxic and cytokine-mediated antileukemia effects which may relate to the graft-vs.-leukemia (GVL) effect in CML following bone marrow transplantation.
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PMID:Cellular and cytokine-mediated effects of CD4-positive lymphocyte lines generated in vitro against chronic myelogenous leukemia. 755 22

Recent developments in the understanding of the process of antigen presentation by major histocompatibility complex (MHC) molecules and their recognition by T-lymphocytes has led investigators to speculate that the hybrid bcr/abl fusion protein P210 present in chronic myeloid leukemia (CML) cells may generate leukemia-specific antigens recognized by T-cells. We used synthetic peptides representing the fusion region of P210 to study MHC class I and class II pathways of antigen recognition in normal subjects and patients with CML. We found that most normal individuals have a low proliferative response to 18mer fusion peptides representing the two alternative splicing variants b2a2 and b3a2, and a T-lymphocyte precursor frequency (HTLPf) characteristic of unprimed responders. No increase in HTLPf was found in CML patients after bone marrow transplantation (BMT), suggesting that peptide recognition does not form part of the graft-versus-leukemia process. In contrast, untransplanted patients with CML had very high HTLPf, suggesting an autologous but immunologically ineffective recognition of leukemia-specific peptides through HLA class II. Preliminary studies using the T2 cell line (which expresses HLA class I only in the presence of peptides binding to HLA-A2) indicate that nonapeptides spanning the breakpoint of the b2a2 and b3a2 variants of P210 do not bind to this particular class I molecule and are therefore unlikely to initiate class I mediated lymphocyte responses.
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PMID:Immunological characterization of the tumor-specific bcr/abl junction of Philadelphia chromosome positive chronic myeloid leukemia. 829 71

Proteinase 3 is present in high concentration in the primary granules of acute and chronic myeloid leukemia blasts, and may represent a potential T-cell target antigen. We screened proteinase 3 against the binding motif of HLA-A2.1. Based on its high predicted binding, a 9-mer peptide, "PR-1," was synthesized and tested for binding to HLA-A2.1 using the T2 cell line. PR-1 at 100 micrograms/mL significantly increased expression of HLA-A2.1, with median channel of fluorescence increasing from 22 to 294. Binding half-life was determined to be 1,460 minutes by I125-labeled beta 2-microglobulin incorporation. HLA-A2.1+ peripheral blood mononuclear cells from a normal donor were used to generate a T-cell line specific for PR-1. The line demonstrated 85% PR-1-specific lysis at an E:T ratio of 50:1, compared with 20% lysis without PR-1, using T2 cells as targets. It also showed 79% specific lysis to fresh chronic myelogenous leukemia blasts, 54% to fresh acute myelogenous leukemia blasts, and only background lysis (< 20%) to HLA-A2.1+ normal allogeneic marrow cells. The amount of lysis of HLA-A2.1+ myeloid cells was proportional to cytoplasmic proteinase 3 expression. Thus, HLA-A2.1-restricted cytotoxic T cells, raised against a peptide contained in proteinase 3, preferentially lysed fresh human leukemic cells.
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PMID:Targeted T-cell therapy for human leukemia: cytotoxic T lymphocytes specific for a peptide derived from proteinase 3 preferentially lyse human myeloid leukemia cells. 883 35

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

We previously showed that a peptide (PR1) derived from the primary granule enzyme proteinase 3 induced peptide specific cytotoxic T lymphocytes (CTL) in a normal HLA-A2.1+ individual. These CTL showed HLA-restricted cytotoxicity to myeloid leukemias (which overexpress proteinase 3). To further investigate their antileukemic potential, we studied the ability of PR1-specific CTL, derived from two HLA-A2.1+ normal individuals, to inhibit colony-forming unit granulocyte-macrophage (CFU-GM) from normal and leukemic individuals. CTL from 20 day PR1 peptide-pulsed lymphocyte cultures showed 89% to 98% HLA-A2.1-restricted colony inhibition of chronic myeloid leukemia targets. Colony formation in normal HLA-A2.1+ bone marrow or HLA-A2.1- CML cells was not inhibited. Sequencing of the exon encoding PR1 showed that colony inhibition was not caused by polymorphic differences in proteinase 3 between effectors and targets. Analysis by flow cytometry showed that proteinase 3 was overexpressed in the leukemia targets compared with normal marrow targets (median channel fluorescence 1,399 v 298, P = .009). These results show that PR1-specific allogeneic T cells preferentially inhibit leukemic CFU-GM based on overexpression of proteinase 3, and that proteinase 3-specific CTL could be used for leukemia-specific adoptive immunotherapy.
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PMID:Cytotoxic T lymphocytes specific for a nonpolymorphic proteinase 3 peptide preferentially inhibit chronic myeloid leukemia colony-forming units. 932 17

Structural analysis of naturally processed peptides bound to the HLA class I and class II molecules of chronic myeloid leukemia (CML) blast cells was performed to characterize the antigen processing and autoantigen repertoire in this hematopoietic malignancy. Self-peptides derived from the carboxy-terminal end of the breakpoint cluster region (bcr) protein, as well as several differentiation stage- and tissue-specific self-antigens characteristic of early stages of myeloid differentiation, such as c-fes, c-pim, granulocyte-macrophage colony-stimulating factor receptor alpha chain, proteinase 3, and cathepsin G, were identified. A common characteristic of several of the high copy-number self-peptides identified in this study is the participation of their parent proteins in signal transduction or myeloid effector function. Because bcr-abl junctional peptides bind to a limited number of major histocompatibility complex (MHC) class I alleles, an effective peptide-based immunotherapy strategy for CML requires identification of further tumor-associated or tissue-specific peptide antigens binding to common MHC alleles such as HLA-A2. The differentiation stage- and tissue-specific MHC-bound peptides found in this study, as well as the naturally processed proteins from which they are derived, may represent autoantigens towards which T-cell responses may potentially be developed for immunotherapy of hematopoietic malignancies such as CML.
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PMID:Naturally processed tissue- and differentiation stage-specific autologous peptides bound by HLA class I and II molecules of chronic myeloid leukemia blasts. 938 12

Twenty to 25% of patients with chronic myelogenous leukemia (CML) treated with interferon-alpha (IFN-A) achieve a complete cytogenetic response (CCR). However, cells bearing rearrangement of BCR/ABL can still be detected many years after achieving a CCR despite the absence of clinical evidence of active disease. It has been suggested that the disease is kept in a dormant state by immune mechanisms. How this is achieved is not known, but it has been speculated that p210BCR/ABL might be presented by malignant cells through HLA molecules, thus making them the target for specific immune cell killing. Because specific peptides will be expressed in association with certain HLA molecules, different HLA phenotypes could be associated with different response rates to IFN-A. The response to IFN-A-based therapies in 239 patients with chronic phase CML was analyzed according to their HLA phenotype. One hundred and ninety-four (81%) achieved complete hematologic response, 142 (59%) had a cytogenetic response which was major (MCR) in 93 patients (39%): complete (CCR) in 71 (30%) and partial (PCR) in 22 (9%). Patients with an HLA-B27 phenotype had the best response rate to IFN-A: 10 of 14 (71%) had an MCR, including eight (57%) with a CCR (P=0.02). Patients with HLA-B35, -A3, and -A31 also showed a trend towards a higher response rate, whereas patients with HLA-B18 had the lowest response rate (MCR 17%). Patients with HLA-B27 and those with HLA-A31 showed a trend for better survival, whereas patients with HLA-A2, -B7, or -B18 had a trend for shorter survival. We conclude that response to IFN-A in patients with CML may be associated with the HLA phenotype. However, a much larger population would be required to determine if the impact of HLA phenotype on survival is independent of other clinical prognostic features. These findings could be relevant for the understanding of immune mechanisms of control of CML and possibly the design of immune therapy for this disease.
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PMID:Association of HLA phenotype and response to interferon-alpha in patients with chronic myelogenous leukemia. 955 1

Human chronic myelogenous leukemia (CML) is characterized by a translocation between chromosomes 9 and 22 that results in a BCR-ABL fusion gene coding for chimeric proteins. The junctional region of the BCR-ABLb3a2 molecule represents a potential leukemia-specific antigen which could be recognized by cytotoxic T lymphocytes (CTL). In fact, we identified a junctional nonapeptide (SSKALQRPV) which binds to HLA-A2.1 molecules. This peptide, as well as those binding to HLA-A3, -A11, and -B8 molecules (previously identified by others), elicits primary CTL responses in vitro from PBLs of both healthy donors and CML patients. Such CTL recognize HLA-matched, BCR-ABL-positive leukemic cells, implying efficient natural processing and presentation of these junctional peptides. Specific CTL were found at high frequency in 5 of 21 CML patients, suggesting that these epitopes are, to some extent, immunogenic in vivo during the course of the disease. These peptides could be useful for the development of specific immunotherapy in CML patients.
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PMID:Cytotoxic T cell response against the chimeric p210 BCR-ABL protein in patients with chronic myelogenous leukemia. 959 85


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