UMLS:C0023473 - FACTA Search

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

Treatment of murine spleen cells with normal guinea pig serum selectively abrogated responsiveness of these cells to the T cell mitogens PHA or Con A, but failed to affect responses to LPS, i.e., a B cell-specific mitogen. Although pretreatment with GPS inhibited the in vitro immune response of mouse splenocytes to SRBC, responses were normal after restoration with T cells only, indicating that B cells had been spared by GPS. Consistent with these results, incubation with GPS resulted in the loss of reactivity of mouse lymphoid cells in MLC as well as CML systems, both of which test for T cell activities. Furthermore, parental spleen cells treated with GPS were no longer capable of inducing a GVH reaction in F1 hybrids. When compared, the effects of GPS and anti-Thy-1.2 antibodies plus C were found to be comparable. These results indicate that GPS can selectively remove a number of T cell functions from heterogeneous murine lymphoid cell suspensions. Since spleen macrophages were insensitive to GPS cytotoxicity, lack of T cell function is not likely to be due to depletion of these accessory cells.
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PMID:Selective removal of T cell function from mouse lymphocyte suspensions by treatment with normal guinea pig serum. 698 3

The mAb A6 was produced by immunization of mice with human PHA-stimulated PBMC. Immunoprecipitation studies and staining of cell lines transfected with individual leukocyte common antigen (LCA) isoforms showed that A6 recognizes a unique epitope strongly expressed on the lower MW isoform (p180) of LCA, but also weakly expressed on the p190 isoform coded by exon B and the p205 coded by exons A and B. The epitope recognized by A6 was carbohydrate-dependent in that it was neuraminidase-sensitive, but trypsin-resistant. A6 strained most TCR-alpha beta+ cells with differential intensities, subdividing them into a bright and dim population, and strongly stained all TCR-gamma delta+ cells. A6 did not stain CD19+ B cells nor CD56+ NK cells. Anti-CD45 mAb such as UCHL1 recognizing CD45RO have been used to define memory T cells. Depletion of PBMC subsets with A6 or UCHL1 mAb dramatically decreased proliferative responses to the recall antigens anti-CD3 mAb and alloantigen and enhanced their responses to PHA. A6, unlike UCHL1, also depleted alloreactive T cells that affect primary and secondary MLC and CML. Thus, A6 was shown to recognize the lower MW isoforms of LCA which are expressed on functional T cell subsets including memory, activated, and alloreactive T cells.
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PMID:A monoclonal antibody (A6) recognizing a unique epitope restricted to CD45RO and RB isoforms of the leukocyte common antigen family identifies functional T cell subsets. 752 74

Allogeneic peripheral blood progenitor cells (PBPCs) were transplanted after immunoselection of CD34+ cells. Two patient groups were studied: group I patients received immunoselected blood CD34+ cells and unmanipulated marrow cells from the same donor. Group II patients were given immunoselected blood and bone marrow (BM) CD34+ cells. One to 6 weeks before bone marrow transplantation (BMT), PBPCs from HLA-identical and MLC- sibling donors were mobilized with granulocyte colony-stimulating factor (G-CSF) (5 micrograms/kg twice daily subcutaneously) for 5 days. Aphereses were performed at days 4 and 5 of G-CSF application. CD34+ cells were separated from the pooled PBPC concentrates by immunoadsorption onto avidin with the biotinylated anti-CD34 monoclonal antibody 12.8 and then stored in liquid nitrogen. BM was procured on the day of transplantation. Patients were conditioned with either busulfan (16 mg/kg) or total body irradiation (12 Gy) followed by cyclophosphamide (120 mg/kg). Cyclosporin A and short methotrexate were used for graft-versus-host disease (GVHD) prophylaxis. After transplantation, all patients received 5 micrograms G-CSF/kg/d from day 1 until greater than 500 neutrophils/microL were reached and 150 U erythropoietin/kg/d from day 7 until erythrocyte transfusion independence for 7 days. Group I consisted of patients with acute myeloid leukemia (AML) (n = 2), chronic myeloid leukemia (CML) (n = 2), and T-gamma-lymphoproliferative syndrome and BM aplasia (n = 1). The patients received a mean of 3.3 x 10(6) CD34+ and 3.7 x 10(5) CD3+ cells/kg body weight of PBPC origin and 4.5 x 10(6) CD34+ and 172 x 10(5) cells/kg body weight of BM origin. Group II consisted of five patients (two AML, two CML, one non-Hodgkin's lymphoma). They received a mean of 3.3 x 10(6) CD34+ and 3.2 x 10(5) CD3+ cells/kg from PBPC and 1.4 x 10(6) CD34+ and 0.6 x 10(5) CD3+ cells from BM. A matched historical control group (n = 12) transplanted with a mean of 5.2 x 10(6) CD34+ and 156 x 10(5) CD3+ cells/kg from BM alone was assembled for comparison. In group I, the median time to neutrophil recovery to > 100, > 500, and > 1,000/microL was 12, 15, and 17 days, respectively. Patients from group II reached these neutrophil levels at days 13, 15 and 17 post BMT. Neutrophil recovery in the control patient group occurred at days 17, 18, and 20 respectively. Group I patients were given platelet transfusions within 18 days and red blood cells within 10 days, whereas for group II patients, these time points were 26 and 17 days, respectively. These same transfusions could be ceased within 38 and 24 days, respectively, in control patients. The addition of about 2% more peripheral blood CD3+ cells (group I patients) did not result in higher grades of acute GVHD (median grade II) as compared with the controls (median grade II). Four of five group II patients showed no signs of acute GVHD. These data suggest that the addition of immunoselected allogeneic CD34+ progenitor cells to BM cells may accelerate hematopoietic recovery.
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PMID:Combined transplantation of allogeneic bone marrow and CD34+ blood cells. 754 59

Cytostatic chemotherapy instead of supralethal total body irradiation (TBI) has been increasingly used as an alternative myeloablative regimen before bone marrow transplantation (BMT). While irreversible azoospermia/amenorrhoea seems to occur less frequently with such conditioning, graft-versus-host disease (GVHD) remains unaffected. Five-year disease-free survival in accelerated chronic granulocytic leukemia (CGL), after BMT with matched sibling grafts has been 0.10-0.30. Mitobronitol, cytosine arabinoside, and cyclophosphamide were used for conditioning. Patients were transplanted with unmanipulated HLA/MLC identical sibling bone marrow. For recovery, a pathogen-low room was available without air filtering and laminar airflow. Seven of eight accelerated-CGL patients were engrafted: full allogeneic reconstitution was detected in four and mixed chimerism in three patients. Five out of the seven engrafted patients survived at least nine months (median = 42 months), two are considered cured (8-9 years survival). The four leukemia-free survivors displayed full allogeneic reconstitution and presented symptoms of chronic GVHD. One patient became a genetically verified father. Acute GVHD and veno-occlusive liver disease (VOLD) were absent in all patients, diffuse interstitial pneumonitis (IP) occurred in one case. Non-supralethal conditioning with mitobronitol/cytarabine/cyclophosphamide in accelerated-CGL allows allogeneic bone marrow reconstitution with survival and cure rates comparable to those achieved with other protocols using TBI or busulphan conditioning. Unlike the latter treatments, however, our protocol leads to fewer transplant-related complications including acute GVHD, IP, VOLD, and azoospermia/amenorrhoea.
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PMID:Non-supralethal mitobronitol/cytarabine/cyclophosphamide conditioning without irradiation before bone marrow transplantation for accelerated chronic granulocytic leukemia: apparent absence of acute graft-versus-host disease. 832 Oct 45

Monoclonal antibodies to CD3 have been shown to activate T cells in vivo and in vitro but have also been shown to render T cells anergic in vitro. In this study G4.18, a mouse IgG3 mAb, was produced that appeared to recognize CD3 by its binding to all peripheral T cells, including a population not recognized by mAb to TCR-alpha/beta that was presumed to be TCR-gamma/delta cells. It precipitated molecules in the 24-26 kd region consistent with the CD3 complex as well as molecules approximately 45 and approximately 49 kd that corresponded to TCR alpha and beta chains and a 92-kd complex. Incubating T cells for 24 hr with saturating concentrations of G4.18 caused modulation of the TCR complex. In vitro, it activated T cells but only if prebound to plastic. In solution it inhibited MLC and CML, but not PHA or Con A activation. In vivo, G4.18 was not toxic even in high doses, and this was thought to be due to the inability of this mAb to activate T cells in vitro because the rat lacks Fc receptors for mouse IgG3. Therapy with G4.18 resulted in transient modulation of TCR/CD3 on T cells and depletion of these cells from blood. G4.18 had no depleting effects by lymph node or spleen cells but caused marked, transient thymic involution. Therapy with G4.18 also induced indefinite survival (> 100 days) of PVG (RTIc) heart grafts but not skin grafts in DA (RTIa) hosts. These hosts with long-surviving cardiac transplants, when grafted from PVG skin, accepted these grafts but rejected third-party skin in first-set. Thus G4.18 was shown to induce long-term specific tolerance to an organ allograft.
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PMID:Induction of long-term specific tolerance to allografts in rats by therapy with an anti-CD3-like monoclonal antibody. 845 60

Two major problems of unrelated donor transplantation have been an increased incidence of GVHD and graft failure. Even with HLA identity by microlymphocytotoxicity assay and non-reactive MLC, URD marrow transplant recipients have a higher incidence of graft rejection and GVHD. The preparative regimen busulfan 16 mg/kg and cyclophosphamide 120 mg/kg (BuCy2) has been shown to be at least as effective in preparation of recipients with CML of HLA-identical sibling grafts as cyclophosphamide and total body irradiation (Cy/TBI). However, concern about a high rejection rate in URD transplants has prevented most centers from using BuCy2 in this setting. From March 1990 to March 1994, 26 patients underwent URD transplantation following preparation with BuCy2. Patients received either standard cyclosporine and methotrexate or cyclosporine and methylprednisolone for GVHD prophylaxis. Two patients died on day 16 and 20 without evidence of hematopoietic engraftment. Of the 24 patients evaluable for engraftment, 23 (96%) had evidence of donor engraftment defined as an ANC > 0.5 x 10(9)/1. No patient who had initial engraftment had late graft failure. Within our study group the risk of graft rejection or graft failure does not appear to be higher than that reported for URD transplants utilizing TBI-containing regimens.
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PMID:Bone marrow engraftment following unrelated donor transplantation utilizing busulfan and cyclophosphamide preparatory chemotherapy. 872 42

A 6-year-old boy with CML in blastic crisis was transplanted with BM and PBSC from his HLA-mismatched MLC-positive mother following CD34-positive selection. Preconditioning for transplant was with thiotepa, cyclophosphamide, rabbit anti-human thymocyte globulin, and TBI followed by infusion of 2.6 x 10(6)/kg of CD34-positive BM and PBSC. Engraftment was confirmed by FISH analysis, and GVHD was not observed. On day 50, he relapsed and died despite three transfusions of donor lymphocytes without GVHD prophylaxis. CD34-positive cell selection for HLA-mismatched transplantation may prevent severe acute GVHD.
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PMID:Allogeneic bone marrow and peripheral stem cell transplantation from a haplo-identical mother and CD34 positive selection for CML. 886 62

We studied the outcome of BMT in 38 consecutive CML patients in CP1 who received transplants depleted of lymphocytes using counterflow centrifugation. In all patients the conditioning regimen was intensified by the addition of anthracyclines. Donors were HLA, MLC-identical siblings. Six patients (16%) died within 6 months. All 37 patients with a follow-up of more than 0.5 months engrafted and only one (3%) suffered from acute GVHD > or = grade 3. Chronic GVHD was evaluable in 33 patients and was extensive in six (18%). The projected 5-year probabilities of hematologic, cytogenetic and molecular relapse were 30% (95% confidence interval (CI), 10-49%), 35% (95% CI, 14-56%), and 34% (95% CI, 13-55%), respectively. The projected 5-year probability of survival was 68% (95% CI, 50-86%). Projected at 5 years, probabilities of leukemia-free survival (LFS) in hematologic, cytogenetic and molecular remission were 55% (95% CI, 37-73%), 51% (95% CI, 32-69%), and 51% (95% CI, 32-70%), respectively. All patients with relapse but one who relapsed in blastic phase were treated with retransplantation (n = 1) or with the infusion of lymphocytes (n = 6). Six patients regained second hematologic remission and five entered second cytogenetic and molecular remission. Including these patients, the probability of survival in first or second hematologic remission at the end of follow-up was 68% (95% CI, 50-86%). The probabilities of survival in first or second cytogenetic and molecular remission at the end of follow-up were both 61% (95% CI, 42-80%). We advocate revaluation of T cell depletion of donor marrow for patients with CML-CP1, especially for those at high risk of developing GVHD.
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PMID:Survival in first or second remission after lymphocyte-depleted transplantation for Philadelphia chromosome-positive CML in first chronic phase. 920 14

From 1986 to June 2000, sixty children suffering from acute and chronic leukemia (n = 42, 33 of which in resistant relapse), genetic diseases (n = 11), aplastic anemia (n = 2, one of which with platelet refractoriness and bleeding), myelodysplasia (n = 5) received an haploidentical bone marrow, mismatched for 2-3 HLA loci. The donor's marrow was treated in vitro with vincristine and methylprednisolone to obtain a functional T depletion (MLC and CTL inhibition, functional blockade of Th1 and Th2). The prevalence of infectious complications and GVHD was similar to that recorded in matched unrelated donor (MUD) transplants. In situations of high risk of rejection (chronic leukemia, genetic diseases) we infused immediately one half of the harvest and then frozen aliquots from the second week. Of the 25 ALL and 8 AML in resistant relapse, 3 survived, disease-free at 14, 8 and 1 years respectively. Of the 3 ALL, transplanted during remission, 1 is surviving at 18 months. Of the 6 CML, 1 had fractionated bone marrow and is surviving at 3 years, and 5 had standard single dose infusion and died of progression of their disease after rejection of the graft (4) or blast crisis after complete engraftment (1). The 2 patients with aplastic anemia, those with myelodysplasia, and 6 of the 10 with genetic disorders died of transplant-related complications or disease progression. 4 patients with osteopetrosis (n = 2), MLD (n = 1), Wiskott Aldrich dis. (n = 1) survive at 8, 2, 5 and 1.5 years respectively. In patients transplanted with fractionated marrow GVHD > 2nd grade occurred in 15%. Only one patient rejected the graft. Compared with MUD transplantation, mismatched BMT whenever performed in patients in good conditions provides similar outcome and widens the donor availability.
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PMID:Haploidentical bone marrow transplantation in leukemia and genetic diseases. 1126 22

The HLA complex is the most polymorphic genetic system in man yet known. The variability of the HLA antigens is given by the presence of many alleles of the HLA genes. Requirements for compatibility of HLA antigens in organ and bone marrow transplantations, and also in the determination of genetic risk factors in autoimmune diseases evoke strong pressure on progress in HLA typing methods, mainly for increasing their sensitivity and resolution. For typing of the HLA antigens there are used cellular, serological, biochemical and DNA methods. For HLA class I typing there following tests are used: cytotoxic test (serological), CML (cellular), 1D--IEF (biochemical), RFLP, SSO, SSP--PCR, and SBT (DNA methods). For HLA class II typing, cytotoxic test (cellular), MLC (serological), RFLP, SSO, SSP--PCR, and SBT (DNA methods) are used. DNA methods represent the modern trend in the area of HLA typing and it will probably replace larger part of other HLA typing techniques. In our article, we describe the principles of methods that are used for HLA typing.
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PMID:[Methods for identification of HLA antigen polymorphisms]. 1197 34

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