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 have investigated the presence of T cells capable of recognizing autologous leukaemia cells in a patient with CML. We demonstrated that these cells were anergic to the leukaemia cells. They were estimated to be present at a frequency of 1:4000 T cells in the peripheral blood. However, following incubation with high dose rIL-2, these effector cells were able to proliferate, secrete TH1 cytokines and lyse target cells upon challenging with fresh autologous leukaemia cells. Both CD4 and CD8 T cells were involved in the proliferative responses. Moreover, the immune response was blocked by monomorphic anti-HLA antibodies, suggesting that the MHC molecules are needed by the T cells for leukaemia cell/antigen recognition. This work therefore indicates a potential reservoir of effector cells in CML patients which may be exploited for the modulation of leukaemia cell growth. It also provides evidence for a distinct T cell population capable of mediating GVL responses.
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PMID:Autologous MHC-dependent leukaemia-reactive T lymphocytes in a patient with chronic myeloid leukaemia. 864 66

Antibodies directed against CD20 (L26, Leu 16, and B1) are frequently used to determine the presence of B lymphocytes. However, recent publications describe the unexpected presence of CD20-positive T cells in the peripheral blood of normal subjects and occasional T-cell neoplasms that express CD20. To determine the presence of CD20-positive T cells in bone marrow, flow cytometric analysis was performed on 34 aspirate specimens (14 normal, 5 acute lymphoblastic lymphoma [ALL], 5 acute myelogenous leukemia [AML], 4 HIV positive, 2 myelodysplastic/myeloproliferative, 2 chronic myelogenous leukemia [CML], 1 chronic lymphocytic lymphoma [CLL], 1 multiple myeloma). A small population of cells coexpressing CD3 (Leu 4) and CD20dim (Leu 16) was identified in 94% of the specimens, representing 0% to 11% (mean 1.77%) of marrow mononuclear cells and 0% to 22.2% (mean 6.54%) of marrow lymphoid cells. There was no correlation between the percentage of CD20-positive T cells and the CD4:CD8 ratio, patient age, gender, or diagnosis. CD20dim positive cells included immature B cells and CD20-positive T cells. Although evaluation of CD20 expression is useful in delineating B-cell processes, caution should be exercised in interpreting its expression on bone marrow T-lymphoid cells. CD20 expression on T cells may be seen in either normal, reactive, or neoplastic processes.
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PMID:CD20 (pan-B cell antigen) expression on bone marrow-derived T cells. 870 37

Serial peripheral blood specimen from eight adult patients after sex-mismatched bone marrow transplantation (BMT) for Chronic Myeloid Leukemia (CML) (N = 3). Ewing sarcoma (N = 1), Acute Myeloid Leukemia (AML) in second remission (N = 1), Acute Lymphoid Leukemia (ALL) (N = 1), of multiple myeloma (N = 2) were analyzed by the simultaneous immunophenotypic (moAbs/ APAAP-staining) and genotypic analysis (for X and Y chromosomes) of interphase cells to characterize mixed chimerism, residual host cells, and leukemic relapse. Although a stable donor chimerism for T cells, myelomonocytic cells, and granulocytes was developed in seven of the eight patients at Days +21 to +28 post BMT, 0.5 to 1% host cells of different lineages remained continuously in five of the eight patients post BMT (> day 100). In two patients, one with common ALL and the other with multiple myeloma and long-term stable mixed chimerism, a tumor cell relapse was detected first in a sample at Day +176 and confirmed at Day +294. These malignant cells were genotypically of host origin and presented phenotypes identical to those at diagnosis. In the three patients with CML, residual host cells were identified as CD13 (Patient 3) of CD13/CD34 (Patient 4) positive and in one case as CD4/CD8 positive (Patient 7). Since no exclusive antigenic marker is available for this discrimination in these CML patients, normal host hematopoiesis can interfere with the identification of residual disease. Therefore, the identification of the bcr-abl transcripts by a two-step reverse transcriptase-polymerase chain reaction (RT-PCR) was included in this analysis. Patient 3 was bcr-abl positive at [Days +21, +28, +35, and +311, but negative at Days +121 and +400; Patient 4 was bcr-abl positive at only Day +166 post BMT. These results are interpreted as signaling a continuing risk of relapse. In Patient 7, the bcr-abl RT-PCR was negative at Days +142, +166, and +237. Thus, the combination of the simultaneous immunophenotypic and genotypic analysis and the bcr-abl detection by RT-PCR clearly improves the discrimination between malignant cells and normal residual host cells.
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PMID:Qualitative assessment of mixed chimerism after allogeneic bone marrow transplantation with regard to leukemic relapse. 893 46

Various clinical observations have implicated T cells in the control of chronic myeloid leukemia (CML). These observations have in recent years been supported by laboratory results indicating the presence of CML-specific T cells in the lymphocyte repertoire of both normal healthy individuals and disease-bearing patients. Both MHC-unrestricted and MHC-restricted immune effector mechanisms are involved. Donor lymphocyte infusion has produced encouraging GvL effects. However, future adoptive immunotherapy may depend on the isolation and generation of leukemia-specific T cells. Although many proteins may potentially act as leukemia antigens in CML for MHC-restricted cytotoxicity, the bcr-abl fusion protein has been most extensively investigated. There is now much evidence to suggest that the bcr-abl junctional peptides are capable of eliciting both CD4 and CD8 responses in normal healthy donors and CML patients. Furthermore, the T-cell lines generated react with autologous or HLA-matched fresh CML cells, suggesting that the bcr-abl fusion protein can be processed in vivo so that the joining segment is bound to HLA molecules in a configuration and concentration similar to those of the immunizing peptide for antigen recognition by the antigen-specific T-cell receptor. These results also indicate that the bcr-abl junctional peptides may be used for immunotherapy of CML. Other strategies available for immunotherapy of CML include immunologically or genetically manipulated donor T-cell infusion, the use of cytokines, adoptive immunotherapy with leukemia-reactive T-cells expanded ex vivo, and immune gene therapy. Novel and rational immunotherapy may therefore play an important adjuvant role in future in the management of patients with CML.
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PMID:Chronic myeloid leukemia as an immunological target. 898 Feb 62

Liver infiltrating lymphocytes (LIL) were isolated from HCV-positive (+) and HCV-negative (-) end-stage livers. Phenotypic analysis and functional studies using proliferative and lymphocytotoxic assays were performed with the isolated LIL. Two CD3+ lymphocyte populations were found in LIL using FITC anti-CD3 monoclonal antibodies (mAb). One was a bright fluorescence intensity population (as in PBL), and the other dim. We calculated the number of FITC-anti-CD3 mAbs bound per lymphocyte on PBL and LIL and found 80,040 +/- 4628 and 39,615 +/- 3932, respectively. Therefore, HCV+ and HCV- patient PBL contained approximately twice the number of CD3 molecules per cell than patient CD3+ LIL. LIL also contained approximately a threefold higher concentration of TCR alpha beta +, CD4-CD8-, and CD56,16 (NK) cells than the patient PBL. Thus, a major subset of LIL is phenotypically similar to mouse NK1.1+ "intermediate" T cells. LIL freshly isolated from HCV+ livers exhibited weak CTL activity against EBV- or Con A-transformed lymphoblast targets infected with vaccinia-HCV recombinant virus (rHCV) or primary hepatocyte cultured cells. However, after in vitro coculture of LIL with rHCV, these cells developed a strong cytotoxicity for the above targets. In contrast, LIL from HCV- livers were not cytotoxic against the same targets. Histochemical studies (in situ) demonstrated that these hepatocytes express CD95, and stains demonstrated apoptosis. The HCV+ hepatocytes also express class I MHC molecules and ICAM-1. The addition of mAb specific for these adhesion molecules inhibited CML activity. Short-term cultured hepatocytes (targets) from HCV+ and HCV- patients produced low levels of cytokines IL-1 beta, IL-2, IL-6, TNF alpha, and IFN-gamma but a high level of IL-8. It is speculated that LIL expressing reduced numbers of CD3 molecules may even function as immune regulators as proposed for intermediate T cells in mice.
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PMID:The immune reactivity role of HCV-induced liver infiltrating lymphocytes in hepatocellular damage. 908 90

Adoptive immunotherapy denotes the transfer of immunocompetent cells for the treatment of leukemia, cancer, or viral disease. It has regained much interest through the success of treating recurrent leukemia after allogeneic bone marrow transplantation with the transfusion of donor lymphocytes. Chimerism and transplantation tolerance toward the donor offer the possibility of adoptive immunotherapy using donor lymphocytes. In animal studies, donor lymphocytes could be transfused into the chimeric animal, if the transfusion was delayed after marrow transplantation. Transfused lymphocytes exhibit a graft-versus-leukemia effect and increase chimerism. Immunity could be transferred and immune reactivity toward new antigens improved. In human patients transfusion of donor lymphocytes was studied in leukemia recurring after marrow transplantation. It was very effective in the treatment of chronic myelogenous leukemia recurring after marrow transplantation. It was also effective in some patients with acute myeloid leukemia, myelodysplastic syndrome and myeloma; in acute lymphoblastic leukemia and lymphoma responses were rare. Responses in solid tumors as breast cancer have been described. Major complications are graft-versus-host disease and myelosuppression. Myelosuppression could be compensated by the transfusion of marrow. Graft-versus-host disease can be modified by the depletion of CD8-positive T cells from the lymphocyte concentrate or by transfusing very low numbers of cells and increasing doses in a stepwise fashion. The role of concomitant treatment with cytokines and activation of T cells by dendritic cells and vaccination remains to be defined.
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PMID:Adoptive immunotherapy with donor lymphocyte transfusions. 916 91

We have identified ten patients with acute myeloid leukemia (AML) and one patient with chronic myeloid leukemia with megakaryocytic crisis who displayed an inv(3)(q21q26). Seven of them had an additional monosomy 7. Most of them had a myelodysplastic syndrome (MDS) preceding AML, normal or increased platelet counts, increased number of megakaryocyte, megakaryocytic dysplasia, and erythroid dysplasia. There was a high incidence of resistance to induction chemotherapy, short remission time, and early relapse. Seven patients were immunologically analyzed. The main immunophenotypes were as follow: CD7+, CD34+, HLA-DR+, CD38+, CD13+, CD33+, CDw65+, CD2-, CD3-, CD4-, CD8-, CD19+, CD20-, CD11b-. Our results suggest that the leukemia with inv(3)(q21q26) represents a new cytogenetic-clinicopathologic subtype, characterized by 1) abnormal megakaryopoiesis and multiple hematopoietic lineage involvement; 2) an antecedent MDS; 3) poor response to conventional chemotherapy; and 4) expression of CD7, CD34, CD38, HLA-DR, CD13, and CD33 antigens. We propose that the malignant transformation in patients with inv(3)(q21q26) occurs in an early stem cell prior to lineage commitment.
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PMID:Chromosomal abnormality inv(3)(q21q26) associated with multilineage hematopoietic progenitor cells in hematopoietic malignancies. 920 72

Twelve patients (9 males and 3 females) with chronic myelogenous leukemia, underwent CD8+ T cell depleted allogeneic bone marrow transplantation with a sex-mismatched donor. To assess chimerism we performed fluorescent in-situ hybridization for the X and Y chromosome at different time points after BMT. Patient median age was 33 years (range, 27-48); median time to transplant was 28 months (range, 5-87). All patients received thiotepa 10 mg/kg; cyclophosphamide 120 mg/kg and 12.0 Gy of fractionated total body irradiation. CD8+ cells were depleted from the normal donor marrow with anti-CD8 murine monoclonal antibodies and immunomagnetic beads. Bone marrow aspirates were studied at <60, 60-140, 140-300, and >300 days post BMT. Hybridization was done on mononuclear cells and a median of 518 cells were counted per slide with a fluorescent microscope. The median percentage of donor cells was 99.04%, 98.21%, 98.15%, and 99.52% at <60, 60-140, 140-300, and >300 days after BMT. Mixed chimerism was a rare occurrence after CD8 depleted allogeneic BMT and occured only at low levels. Inhibition of repopulation by host hematopoietic cells may be associated with the graft-versus-leukemia effect against CML.
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PMID:Analysis of chimerism following allogeneic bone marrow transplantation by fluorescent-in-situ hybridization. 925 Aug 16

Multifocal Kaposi's sarcoma in a patient with chronic myeloid leukemia treated with busulfan, a cytostatic and suppressive drug, is reviewed. After five years of treatment, during which temporary remissions occurred, the patient experienced a relapse of leukemia and a considerable immune deficiency. This was expressed by a decrease in the ratio of CD4/CD8 lymphocytes in the peripheral blood. The relation of Kaposi's sarcoma with leukemia, as well as with the state of immunity in this case, does not evoke any doubts. Verification of oncologic treatment brought about a remission of leukemia, an improvement in the patient's immune state, as well as an inhibition of new foci of the Kaposi's sarcoma in the skin in the course of a few months of follow-up evaluation.
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PMID:Kaposi's sarcoma following long-term immunosuppressive therapy: clinical, histologic, and ultrastructural study. 953 54

Donor lymphocyte infusions (DLI) can induce remissions in patients who have relapsed after allogeneic bone marrow transplantation (BMT). However, DLI frequently also result in significant acute and/or chronic graft-versus-host disease (GVHD). Several clinical and experimental lines of evidence have suggested that CD8(+) T cells play a critical role in the pathogenesis of GVHD. To develop methods to reduce the incidence of GVHD associated with DLI, we administered defined numbers of CD4(+) donor T cells after ex vivo depletion of CD8(+) lymphocytes to 40 patients with relapsed hematologic malignancies after allogeneic BMT. Cohorts of patients received 0.3, 1.0, or 1.5 x 10(8) CD4(+) cells/kg. Overall, 12 of 38 patients (32%) evaluable for toxicity developed acute or chronic GVHD. However, 6 of 27 patients (22%) receiving 0.3 x 10(8) CD4 cells/kg developed GVHD compared with 6 of 11 patients (55%) who received >/=1.0 x 10(8) CD4 cells/kg (P = .07). Treatment-related mortality was low (3%), with 1 death related to infection in the setting of immunosuppression for GVHD. Disease responses after CD4(+) DLI were documented in 15 of 19 patients (79%) with early-phase chronic myelogenous leukemia (CML) relapse, 5 of 6 patients (83%) with relapsed multiple myeloma, and 1 patient with myelodysplasia. For patients with early-phase CML relapse, the Kaplan-Meier probability of achieving complete cytogenetic remission was 87% and the probability of complete molecular response was 78% at 1 year after DLI. The median time to complete cytogenetic response and molecular response in patients with CML was 13 weeks (range, 9 to 30 weeks) and 34 weeks (range, 10 to 56 weeks), respectively. The median time to response in patients with multiple myeloma was 26 weeks (range, 15 to 62 weeks). All patients in this trial who developed GVHD demonstrated tumor regression, but the presence of GVHD was not required for patients to achieve a response, because 48% of responding patients never developed evidence of GVHD. Two patients with CML who did not respond at dose level 1 subsequently achieved complete cytogenetic remission after a second infusion of CD8-depleted cells at dose level 2. In patients with evidence of mixed hematopoietic chimerism who achieved a complete remission after DLI, cytogenetic analysis of marrow cells also demonstrated conversion to complete donor hematopoiesis in all evaluable patients. These studies suggest that relatively low numbers of CD8-depleted donor lymphocytes are effective in inducing complete remissions in patients with stable-phase CML and multiple myeloma who have relapsed after allogeneic BMT. Because of the relatively low risk of toxicity associated with the infusion of defined numbers of CD4(+) donor cells, further studies can be undertaken in the setting of persistent minimal residual disease to prevent relapse after allogeneic BMT.
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PMID:Toxicity and efficacy of defined doses of CD4(+) donor lymphocytes for treatment of relapse after allogeneic bone marrow transplant. 957 3


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