Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0023473 (chronic myeloid leukemia)
 18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We investigated whether minor histocompatibility (mH) antigen-specific cytotoxic T lymphocytes (CTL) can discriminate between leukemic hematopoietic progenitor cells (leukemic-HPC) from AML or CML patients, the HPC from their remission bone marrow (remission-HPC), and normal HPC from their HLA-identical sibling bone marrow donor (donor-HPC). Specific lysis by CD8+ CTL clones was observed not only of the leukemic-HPC but also of the donor-HPC in 3/4 patient/donor combinations expressing mH antigen HA-1, 3/5 combinations expressing mH antigen HA-2, 2/3 combinations expressing mH antigen HA-3, and 2/2 combinations expressing mH antigen HY-A1. In four patient/donor combinations the recognition of the donor-HPC was clearly less than of the leukemic-HPC, indicating differential susceptibility to lysis by these mH CTL clones. In addition, differential recognition of leukemic-HPC and remission-HPC within seven patients was analyzed. In one patient expressing the HA-2 antigen on the leukemic cells the recognition of the remission-HPC was clearly less than of the leukemic-HPC. One CD4+ CTL clone showed specific lysis of the leukemic-HPC from an AML patient and a CML patient as well as of normal remission-HPC and donor-HPC. These results illustrate that in general CD8+ and CD4+ mH antigen specific CTL clones do not differentially recognize leukemic-HPC and normal-HPC. However, differences in susceptibility to lysis of malignant versus normal cells may contribute to a differential GVL effect.
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PMID:Recognition of clonogenic leukemic cells, remission bone marrow and HLA-identical donor bone marrow by CD8+ or CD4+ minor histocompatibility antigen-specific cytotoxic T lymphocytes. 763 82

HLA-identical bone marrow transplantation (BMT) is associated with both graft-versus-host disease (GVHD) and graft-versus-leukemia (GVL) reactivity. Different T-cell subsets from the bone marrow (BM) graft may be responsible for GVHD and GVL reactivity after BMT. In the etiology of GVHD, not only CD8+ but also CD4+ donor T lymphocytes may play an important role. Here we report a patient with chronic myeloid leukemia (CML) who was transplanted with the BM from his HLA-genotypically identical sister. After BMT there was complete engraftment, but the patient died because of acute GVHD grade III-IV in complete remission. Cytotoxic T-lymphocyte (CTL) lines were generated after BMT using the irradiated leukemic cells from the patient as stimulator cells and the donor-originated peripheral blood mononuclear cells, procured from the patient after BMT, as responder cells. The generated CTL lines showed specific lysis of the recipient lymphocytes and leukemic cells in a 51Cr release assay. Two types of CTL clones could be established from these CTL lines, both phenotypically CD4+. Clone type I showed male-specific HLA-DQ5-restricted lysis of the recipient lymphocytes, but not of the circulating relatively mature leukemic cells from the patient. This may be explained by the low HLA-DQ5 expression of the more mature CML cells. Clone type II showed HLA-DR2-restricted minor histocompatibility antigen-specific lysis of the recipient lymphocytes and leukemic cells. Both types of CTL clones showed antigen-specific cell-mediated growth inhibition of the recipient clonogenic leukemic precursor cells. These CD4+ CTL clones produced several activating cytokines including tumor necrosis factor alpha, interferon gamma, granulocyte-macrophage colony-stimulating factor (GM-CSF), and macrophage CSF. Our results illustrate that these CD4+ CTL clones may have induced GVHD directly by cytolysis and indirectly by activating cytokines. Because both types of CTL clones recognized the recipient leukemic progenitor cells, they may also contribute to GVL reactivity after BMT.
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PMID:Generation of CD4+ cytotoxic T-lymphocyte clones from a patient with severe graft-versus-host disease after allogeneic bone marrow transplantation: implications for graft-versus-leukemia reactivity. 767 Jan 18

Donor lymphocyte responses to minor histocompatibility antigen (mHA) differences are involved in allo-responses between HLA matched pairs causing GVHD and graft-versus-leukaemia (GVL). Since some mHA are tissue-restricted, GVHD and GVL responses may be separable. We studied donor lymphocyte responses to patients with CML in a series of 10 HLA-matched sibling and 10 unrelated donor-recipient pairs comparing proliferation to recipient PHA blasts and CML cells and attempting to selectively deplete responses to PHA blasts in vitro. Responses in counts per min (c.p.m) to CML cells and PHA blasts were, respectively, 2809 +/- 2205 (SD) and 7376 +/- 1877 in related and 12,107 +/- 7191 and 26,136 +/- 22,479 in unrelated pairs. Autologous responses to PHA blasts were significantly lower (mean 779 +/- 735) (p < 0.001). Results correlated with clinical outcome: higher responses to recipient cells correlated with transplant-related death (p = 0.02 for CML and p = 0.06 for PHA blasts). Higher responses to CML correlated with GVHD grade > or = II (p = 0.025). Donor lymphocytes exposed to recipient PHA blasts for 5 days and treated with a ricin-conjugated anti-CD25 antibody retained over 75% of their response to CML but < 10% to PHA blasts. Similarly, depletion of response to CML but not to PHA blasts occurred when CML was the primary challenge. These results indicate that distinct populations of donor T cells respond to recipient leukaemic and non-leukaemic cells, and provide the basis for a clinically applicable technique to selectively deplete donor GVHD reacting cells while conserving GVL.
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PMID:Distinct T cell populations distinguish chronic myeloid leukaemia cells from lymphocytes in the same individual: a model for separating GVHD from GVL reactions. 785 26

A substantial proportion of patients undergoing allogeneic bone-marrow transplantation (BMT) develop moderate-to-severe acute graft-versus-host disease (GVHD). Anti-recipient helper (interleukin-2-producing) T-lymphocyte precursors (HTLp) have an important role in the control and amplification of the alloreactive immune response that initiates GVHD. We used a limiting dilution assay to measure the frequency of HTLp in the blood of marrow donors for 25 patients undergoing genotypically HLA-identical BMT for chronic myeloid leukaemia (n = 20), acute myeloid leukaemia (4), or thalassaemia (1). HTLp frequencies in donor blood ranged from 1 in 18 x 10(3) to less than 1 in 500 x 10(3); they were significantly higher (p = 0.02) in patients with grade II-IV acute GVHD than in those with grade 0-1 GVHD. The HTLp assay seems sufficiently sensitive to detect clinically significant minor histocompatibility antigen differences between the donor and recipient. The assay should prove valuable in selecting the best donor/recipient combination and could indicate the need to intensify GVHD prophylaxis when the only available donor has a high HTLp frequency.
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PMID:Frequency of anti-recipient alloreactive helper T-cell precursors in donor blood and graft-versus-host disease after HLA-identical sibling bone-marrow transplantation. 809 98

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 describe the case of a patient with chronic myeloid leukemia who rejected a bone marrow (BM) graft from a sibling donor believed to be HLA identical. Sequencing of the HLA genes showed the mother to be heterozygous for two closely related HLA haplotypes that could not be resolved by serological typing. The donor and the recipient had each inherited a different maternal haplotype resulting in allelic mismatches for the HLA-B35 and the HLA-DR11 genes. T cell cytotoxicity directed towards the donor's B35 allele was detected in the patient, in addition to CTL specificity for an HLA-B7-restricted minor histocompatibility antigen carried by the donor, resulting in three histocompatibility mismatches between the BM donor and the recipient.
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PMID:Mismatches for two major and one minor histocompatibility antigen correlate with a patient's rejection of a bone marrow graft from a serologically HLA-identical sibling. 945 Sep 20

Despite human leukocyte antigen (HLA) identity between donor and recipient, several patients develop acute graft-versus-host disease (aGVHD) after hematopoetic stem cell transplantation (HSCT) because of minor histocompatibility antigen (mHag) incompatibilities. The impact of multiple mHag disparities on the clinical outcome after HSCT still remains to be determined. We studied the genomic polymorphisms of HA-1, CD31, and CD49b and correlated mHag distribution with the occurrence of aGVHD after HSCT from HLA-matched sibling and unrelated donors. All 163 patients examined in our single-center study underwent HSCT for chronic myeloid leukemia in the first chronic phase. HA-1 and CD31 disparities are associated with increased aGVHD incidence in a subgroup of patients who test HLA-B44 supertype positive in univariate analysis. However, in a multivariate analysis, only increased patient age was confirmed as an independent aGVHD risk factor. Our findings indicate that the impact of mHag disparity on aGVHD development in HSCT from HLA-matched sibling and unrelated donors seems to be subordinated to classic aGVHD risk factors.
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PMID:Impact of disparity of minor histocompatibility antigens HA-1, CD31, and CD49b in hematopoietic stem cell transplantation of patients with chronic myeloid leukemia with sibling and unrelated donors. 1508 80

The immune system of females is capable of recognizing and reacting against the male-specific minor histocompatibility antigen (mHA), HY. Thus, cytotoxic T-lymphocytes (CTLs) recognizing this antigen may be useful in eradicating leukemic cells of a male patient if they can be generated in vivo or in vitro from a human leukocyte antigen (HLA)-identical female donor. The HLA-A*0201-restricted HY antigen, FIDSYICQV, is a male-specific mHA. Using HLA-A2/HY peptide tetrameric complexes, we reveal a close association between the emergence of HY peptide-specific CD8(+) T cells in peripheral blood and molecular remission of relapsed BCR/ABL(+) chronic myelogenous leukemia in lymphoid blast crisis in a patient who underwent female-to-male transplantation. Assessment of intracellular cytokine levels identified T cells that produce interferon-gamma in response to the HY peptide during the presence of HY tetramer-positive T cells. These results indicate that transplant with allogeneic HY-specific CTLs has therapeutic potential for relapsed leukemia, and that expansion of such T cells may be involved in the development of a graft-versus-leukemia response against lymphoblastic leukemia cells.
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PMID:Expansion and activation of minor histocompatibility antigen HY-specific T cells associated with graft-versus-leukemia response. 1532 66

Acute lymphoblastic leukaemia (ALL) responds well to chemotherapy and the majority of children and a significant proportion of adults are cured of their disease after primary therapy. However, a number of patients relapse and allogeneic transplantation following conditioning with chemotherapy and radiotherapy offers the possibility of long-term survival in a proportion of these patients. A significant number of patients with ALL develop disease that is refractory to further therapy. The infusion of unmodified donor lymphocytes (DLI) following relapse after allogeneic transplantation has been shown to be curative in patients with chronic myeloid leukaemia (CML). However, in ALL the success rate is much lower. The results of in vitro and limited in vivo studies suggest that it may be possible to manipulate lymphocytes from the transplant donor to produce cytotoxic T-lymphocytes (CTL) with increased effectiveness in killing patients' ALL cells. This may be done in a number of ways. For example, some strategies utilise the patients dendritic cells (DC) to present tumour antigens to donor lymphocytes and convert them into CTL either by pulsing DC taken in remission with ALL cells or lysate, fusing such 'normal' DC with ALL cells or using DC cultured from the patient's ALL cells. Other approaches include exploiting the expression of leukaemia-specific antigens such as the proteinase PR-3 or the zinc finger transcription factor Wilms tumour-1 protein (WT-1) to stimulate CTL responses. Alternatively, immunotherapeutic strategies might exploit differences in minor histocompatibility antigens such as HA-1 and HA-2 between donor and recipient. These are expressed solely on haemopoietic cells making them suitable targets for donor derived anti-leukaemic cells. In vivo studies to date suggest that educated T-cells may have a role to play in the treatment of relapsed and refractory ALL in the future.
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PMID:Immunotherapeutic strategies in acute lymphoblastic leukaemia relapsing after stem cell transplantation. 1627 19

Cytotoxic T lymphocyte (CTL) lines specific for allogeneic antigens were generated by in vitro stimulation of donor-derived peripheral blood mononuclear cells obtained from patients who received human leucocyte antigen (HLA)-matched allogeneic haematopoietic stem cell transplantation (HSCT). One of the allogeneic antigen-specific CD4+ CTL lines, CTL-A, generated from a patient with T cell acute lymphoblastic leukaemia, recognised HLA-DPB1*0501-positive Epstein-Barr virus-immortalised human B cell line (EBV-B cells), phytohaemagglutinin blasts and leukaemia cells, but not interferon-gamma (IFN-gamma) treated HLA-DPB1*0501-positive fibroblasts, indicating that this CD4+ T-cell line recognised a minor histocompatibility antigen (mHa) that is preferentially expressed in haematopoietic cells in an HLA-DPB1*0501-restricted manner. The other CD4+ CTL line, CTL-B, generated from a patient with chronic myeloid leukaemia, recognised mismatched HLA-DQB1*0303 on EBV-B cells and phytohaemagglutinin (PHA) blasts. Interestingly, this CTL line did not recognise IFN-gamma-treated recipient's skin fibroblasts, as HLA-DQ was merely upregulated even after IFN-gamma stimulation in non-haematopoietic cells including fibroblasts, endothelial cells and hepatocytes. These results suggest that these CD4 positive CTLs, specific for mismatch HLA-DQ and mHa that are preferentially expressed on haematopoietic cells, may play an important role in induction of selective graft-versus-leukaemia effect without development of graft-versus-host disease after allogeneic HSCT.
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PMID:Possible involvement of allogeneic antigens recognised by donor-derived CD4 cytotoxic T cells in selective GVL effects after stem cell transplantation of patients with haematological malignancy. 1637 Oct 20


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