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Query: UMLS:C0023473 (
chronic myeloid leukemia
)
18,916
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cytotoxic cells (CTCs) generated from peripheral blood lymphocytes of 5
chronic myeloid leukemia
(
CML
) patients in remission on stimulation with autologous leukemic cells and allogeneic lymphocytes (3-cell assay), were propagated in vitro in interleukin-2 (IL-2)-containing medium and periodic stimulation with autologous leukemic cells, for a period of 4 to 6 months. During this period, the cells were assessed for phenotype and for cytotoxic responses in a 4-h 51Cr release microcytotoxicity assay. The CTCs continued to show specific lysis of autologous leukemic cells and bone marrow (BM) cells. However, the nonspecific lysis of natural killer (NK) targets and the proportion of cells showing NK phenotype (
HNK-1
antigen) increased progressively on cultivation in IL-2-containing medium. Therefore cells showing CD8 phenotype and specific cytotoxic function were segregated by cloning CTCs under the condition of limiting dilution in the presence of allogeneic feeder cells and IL-2-containing medium. Three cytotoxic T cell (CTL) clones expressing CD3+, CD8+, and HLA DR+ phenotypes were obtained from CTCs of 2
CML
patients. These clonoid populations, maintained in IL-2-containing medium and periodic antigenic stimulation with autologous leukemic cells, showed specific lysis of autologous leukemic cells and BM cells even at lower (10:1) effector:target ratios. They did not kill K562 (erythroblastoid leukemic NK target cell line) cells and autologous phytohemagglutinin-induced blasts. These clones apparently functioned in an MHC-restricted manner as they did not lyse allogeneic
CML
cells which would also express a similar set of maturation antigens if sensitization was, as it appeared, against these antigens. Finally, interaction of autologous BM cells with CTL clones reduced the colony forming potential of BM cells only to the extent of 18%-30%. The results therefore indicate that such CTL clones can possibly be used in adoptive immunotherapy as they showed minimal BM toxicity.
...
PMID:Propagation of cytotoxic effectors from chronic myeloid leukemia patients and cloning of cytotoxic T cells. 326 15
Quantitative evaluation of natural killer (NK) cells using the
HNK-1
(Leu-7) and B73.1 monoclonal antibodies (MAbs) was correlated with NK activity in 13 patients with
chronic myelogenous leukemia
(
CML
) and compared to normal donor controls. A consistent observation was the presence of normal absolute numbers of B73.1+ lymphocytes as well as normal to increased absolute numbers of HNK-1+ lymphoid cells in the peripheral blood of chronic-phase
CML
patients. Despite normal to increased numbers of B73.1+ and HNK-1+ lymphoid cells, these patients consistently demonstrated a significant impairment of lymphocyte-mediated NK activity in their peripheral blood. Further experiments demonstrated that chronic-phase
CML
patients, in contrast to normal controls, had significantly increased percentages of HNK-1+, E+ and B73.1+, E+ lymphoid cells and significantly decreased percentages of HNK-1+, E- and B73.1, E- lymphoid cells, which resulted in significant reversals of the HNK-1+, E+ to HNK-1+, E- and B73.1+, E+ to B73.1+, E- lymphoid cell ratios. (HNK-1+ [E+/E-] greater than B73.1+ [E+/E-]). Furthermore, as compared to normals, both FACS-sorted HNK-1+ and B73.1+ lymphoid cells from the E+ fraction of
CML
patients were consistently defective in NK activity, and could not be substantially augmented with alpha-interferon preparations. Although markedly defective in their ability to lyse K-562, HNK-1+ lymphoid cells from the E+ fraction of
CML
patients were not defective in their ability to bind to the NK-sensitive target, K-562. In contrast, NK-defective B73.1+ lymphoid cells were partially defective in their ability to bind to K-562.
...
PMID:Natural killer-cell immunodeficiency in patients with chronic myelogenous leukemia. I. Analysis of the defect using the monoclonal antibodies HNK-1 (LEU-7) and B73.1. 345 69
Defective natural killer (NK) cell populations from patients with
chronic myelogenous leukemia
(
CML
), that reacted with both HNK-1+ and B73.1+ antibodies, were obtained by a fluorescence-activated cell sorter (FACS). These fractions, along with NK fractions from normal donors which reacted with both antibodies, were expanded as bulk cultures or clones by limiting dilution, for 4 weeks in the presence of 10% interleukin 2 (IL 2), human type AB plasma, and irradiated human allogeneic mononuclear cells. Successfully established clones from patients with
CML
, with lytic activity against autologous and more differentiated neoplastic granulocytes, were generated more efficiently from B73.1+ than from HNK-1+ subsets. However, there were no significant differences among the generations of B73.1+ and HNK-1+ clones for both patients and normal donors with lytic activity against NK susceptible K-562 targets. Fresh myeloblast preparations from a blast crisis were found to be more susceptible to lysis by IL 2-proliferative B73.1+ and HNK-1+ clones than were fresh myelocyte preparations from a chronic phase CML patient, which were lytically susceptible to only B73.1+ clones. B73.1+ and HNK-1+ subsets from
CML
patients demonstrated major histocompatibility complex nonrestricted killing, and showed the following predominant phenotypes: B73.1+T3+T8+ or B73.1+T3+T8- from B73.1+ subsets; and
HNK-1
-T3+T8+ (initially HNK-1+) from HNK-1+ subsets. In contrast, B73.1+ and HNK-1+ clones from normal donors showed the following predominant phenotypes: B73.1+T3-T8-; and
HNK-1
-T3-T8- or
HNK-1
-T3-T8+ (initially all HNK-1+). Short-term in vitro IL 2 or interferon treatment of fresh NK defective subsets from
CML
patients resulted in minimal cytotoxic augmentation. In contrast, defective NK cells from
CML
patients, whether HNK-1+ or B73.1+ subsets, proliferated with complete regeneration of cytolytic activity after a 3-4 week exposure to IL 2, but differed in phenotypic profiles as compared to those of normal donors. These observations imply that not only fresh defective NK cells but also the cytotoxically restored clones from
CML
patients are derived from different NK subsets and may represent undifferentiated forms of NK cells that may be arrested at an early stage of development by yet unknown mechanism(s). In vitro substantiation of autologous leukemia cell killing by IL 2-proliferative NK cell clones is encouraging and may allow for new in vivo immunotherapeutic modalities in
CML
patients.
...
PMID:Natural killer (NK) cell immunodeficiency in patients with chronic myelogenous leukemia. II. Successful cloning and amplification of natural killer cells. 349 52
A monoclonal antibody, anti-N901, was produced by fusing NS-1 myeloma cells with spleen cells of a mouse immunized with human
CML
cells. This antibody was reactive with a subpopulation of peripheral blood LGL, including the natural killer cells. Monocytes, granulocytes, B cells, T cells (T3+ cells), erythrocytes, and platelets were nonreactive. The N901-positive cells in the peripheral blood were heterogeneous with respect to expression of other cell surface antigens. The majority of N901+ cells co-expressed T11, Mo1, and
HNK-1
, whereas a smaller percentage expressed T8. Ia, T3, T4, Mo2, or B1 antigens were very uncommon on N901+ cells. The heterogeneity of the N901+ LGL was further investigated by examining the expression of N901 antigen on a series of cloned normal human NK cell lines. N901 antigen was expressed by each of the NK cell lines tested, and by a minority of cloned T cell lines without NK activity. Anti-N901 does not block NK activity and can be used to rapidly purify functional NK cells for further study.
...
PMID:Characterization of an antigen expressed by human natural killer cells. 657 90
