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Query: UMLS:C0023473 (
chronic myeloid leukemia
)
18,916
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Activated natural killer (A-NK) cells, a subset of CD56(dim)CD3- lymphocytes, are obtained from PBMC of normal donors by adherence to plastic and culture in the presence of IL2. In this study we tested the feasibility of generating A-NK cells in patients with Ph+
chronic myeloid leukaemia
(
CML
). Cultures obtained from patients with early chronic phase (
ECP
; n=7) contained a mean (+/-SD) of83 +/- 7% of CD3- cells, and those from patients with advanced chronic phase (ACP; n=7) contained 27+/-33% CD56+CD3- cells. In three patients with leukaemia in a blastic phase (BP) it was only possible to obtain one culture enriched in CD56+CD3- cells (81%). Cellular aggregates of myeloid cells and large granular lymphocytes were observed in early A-NK cell cultures. Paired freshly-adherent and cultured A-NK cells were tested for the presence of BCR/abl mRNA by RT-PCR. The BCR/abl+ cells were detected in all 12 preparations of the freshly adherent A-NK cells tested. In 6/12 the BCR/abl+ cells were no longer detectable by RT-PCR on day 14 of culture. Both proliferation and antileukaemic cytotoxicity were significantly higher (P=0.002 and P=0.029, respectively) in the BCR/abl- cultures than those in the six BCR/abl+ cultures. 5/6 BCR/abl- cultures were highly enriched in A-NK cells on day 14, and 1/6 contained predominantly CD56+CD3+ cells. Only 2/6 BCR/abl + cultures were enriched in A-NK cells on day 14, but they had poor cytotoxicity and a low proliferative index. Myeloid cells (CD33+) were more frequently detected in the BCR/abl+ than BCR/abl- A-NK cell cultures (P=0.028). These observations suggest that: (1) populations of benign A-NK cells can be generated from the peripheral blood of
CML
patients; (2) the ability to generate A-NK cells is impaired in patients with advanced
CML
; and (3) the ability to generate A-NK cells with antileukaemic activity correlates with the disappearance of BCR/abl+ cells from these cultures.
...
PMID:Generation of activated natural killer (A-NK) cells in patients with chronic myelogenous leukaemia and their role in the in vitro disappearance of BCR/abl-positive targets. 863 31
We have previously reported that selection of marrow cells on the basis of the CD34+HLA-DR- phenotype (34+DR-) may result in the recovery of Philadelphia chromosome (Ph)- and BCR/ABL-negative long-term culture-initiating cells (LTC-IC) in selected patients with
chronic myelogenous leukemia
(
CML
). We now present data on 27 early chronic-phase ([
ECP
] studied within 1 year after diagnosis) and 23 advanced-phase ([AP] late chronic phase, ie, studied >1 year from diagnosis, or accelerated phase)
CML
patients. Fluorescence-activated call-sorting (FACS)-selected 34+DR- and 34+DR+ cells were subjected to reverse transcriptase-polymerase chain reaction and fluorescence in situ hybridization. These cells were also cultured in long-term bone marrow culture for 1 to 5 weeks to examine the number of LTC-IC and the presence or absence of the BCR/ABL gene rearrangement in progeny of primitive LTC-IC. The number of 34+DR- cells and LTC-IC present in
ECP
CML
marrow was similar to that in normal (NL) marrow, whereas the numbers were reduced in AP
CML
. Furthermore, 34+DR- cells from more than 80% of
ECP
CML
patients were BCR/ABL mRNA- and Ph-negative and contained only BCR/ABL mRNA- and Ph-negative LTC-IC, whereas 34+DR- cells and LTC-IC from less than 40% of AP
CML
patients were BCR/ABL mRNA- and Ph-negative. In contrast to NL marrow, 34+DR+ cells from
CML
marrow, irrespective of clinical stage, contained large numbers of LTC-IC.
CML
34+DR+ cells and LTC-IC were BCR/ABL mRNA- and Ph-positive. Since these studies suggested that a population of primitive progenitors that are Ph-negative can be selected from steady-state marrow in some
ECP
CML
patients, we determined if similar results could be obtained when large quantities of marrow sufficient for transplantation are processed. We demonstrate that 1 to 3 x 10(5) BCR/ABL mRNA-negative 34+DR- cells/kg recipient body weight, containing only BCR/ABL mRNA-negative LTC-IC, can be obtained from a 2- to 2.5-L marrow collection by sequential COBE Spectra apheresis (COBE BCT, Lakewood, CO), CD34+ enrichment using the CEPRATE SC Cell-Concentrator (CellPro, Bothell, WA), and high-speed FACS. Thus, large-scale selection of a BCR/ABL mRNA- and Ph-negative 34+DR- cell population is possible in a fraction of chronic-phase
CML
patients, in whom these cells could be used to reconstitute the hematopoietic compartment following autologous transplantation.
...
PMID:BCR/ABL-negative primitive progenitors suitable for transplantation can be selected from the marrow of most early-chronic phase but not accelerated-phase chronic myelogenous leukemia patients. 863 48
Human natural killer cells (NK) require accessory cell-derived contact and soluble factors for maximal expansion. However, it is unclear whether increased recruitment of clonogenic NK, increased proliferation on a per cell basis, or a combination of both is responsible for the increased expansion. We show that expansion of both CD56+dim and CD56+bright NK from normal donors is increased in the presence of M2-10B4 accessory cell-soluble factors. In contrast, the addition of M2-10B4 stromal ligands further augments only the expansion of CD56+bright NK. Using single-cell sorting of CD56+bright NK, M2-10B4-soluble and contact factors independently increase both recruitment of clonogenic NK and proliferation on a per cell basis. This well-defined M2-10B4 accessory cell system was used to investigate potential defects in NK from patients with
CML
. Although we have previously shown diminished interleukin-2 (IL-2)-activated NK outgrowth and function from patients with
chronic myelogenous leukemia
(
CML
) as their disease progresses, it has been unclear if this is due to a defect in an accessory cell function or an inherent abnormality of
CML
NK themselves. CD56+/CD3- NK purified by fluorescence-activated cell sorting from 21 patients (7 early chronic phase [
ECP
] patients, 10 late chronic and accelerated phase [LCP/AP], and 4 blast crisis [BC] patients) were studied. The proliferative capacity, clonogenic frequency, and cytotoxic capacity of
CML
NK were compared with NK from normal donors. The absolute number of circulating NK per milliliter of peripheral blood is significantly decreased in patients with
CML
compared with normal donors (normal, 63,700 +/- 6,400;
ECP
, 40,700 +/- 6,700; LCP/AP, 31,900 +/- 6,000; BC, 10,700 +/- 5,200). Additionally, the unique CD56+bright NK subset, analyzed as a percentage of the total circulating NK pool, is significantly reduced in all patients with
CML
(normal, 5.7% +/- 0.8% v
CML
[all stages combined], 2.5% +/- 0.5%, P = .001]. After purification of NK to correct for differences in circulating NK number, resting NK cytotoxicity against K562 tumor targets is significantly reduced in patients with
CML
on or recently on hydroxyurea therapy. However, this reduced cytotoxicity can be corrected by 18 hours of incubation with 1,000 U/mL recombinant IL-2. When plated in limiting dilution on viable M2-10B4, which maximally stimulates NK from normal donors, we show that both NK clonogenic frequency and proliferative capacity are significantly reduced as
CML
progresses, demonstrating an inherent defect in their ability to respond to normal NK stimuli. Although NK cloning efficiency between normal donors and
ECP
CML
patients was the same, significant differences were observed in (1) the absolute number of circulating CD56+/CD3- NK, (2) the absolute number of circulating CD56+bright NK, and (3) proliferation on a per cell basis. Unlike resting NK function, prior cytotoxic therapy alone did not account for these observed abnormalities. These data suggest that, although NK are not derived from the malignant clone, they are inherently affected by their malignant microenvironment.
...
PMID:CD56+bright and CD56+dim natural killer cells in patients with chronic myelogenous leukemia progressively decrease in number, respond less to stimuli that recruit clonogenic natural killer cells, and exhibit decreased proliferation on a per cell basis. 882 49
The aims of this study were (1) to evaluate the effect of intermediate (cyclophosphamide alone) or intensive (mitoxantrone, cytosine arabinoside, cyclophosphamide) priming on the cytogenetic response in mobilized bone marrow (BM) or peripheral blood (PB) progenitors in patients with
chronic myelogenous leukemia
(
CML
), (2) to determine the incidence of cytogenetic remissions after mobilized progenitor transplantation in
CML
, and (3) to determine the effect of in vivo priming on the ability to select Philadelphia chromosome-negative (Ph-negative) CD34(+)HLA-DR- cells from mobilized BM or PB in quantities sufficient for transplantation. Between February 1994 and March 1997, 44 patients were enrolled in three sequential protocols. Although the duration of neutropenia after only cyclophosphamide mobilization was shorter, clinical morbidity for the intermediate and intensive priming protocols was similar. Cytogenetic responses in mobilized PB progenitors were similar after mobilization with either intermediate or intensive chemotherapy. The degree of Ph negativity in the mobilized product correlated with disease stage at the time of mobilization (early chronic phase [
ECP
] > late CP > accelerated phase). Cytogenetic responses after transplantation with mobilized progenitors obtained after the different regimens were similar. The cytogenetic status of the graft predicted the cytogenetic status of marrow obtained 3 weeks after transplantation whereas cytogenetic responses 3, 6, and 12 months after transplantation correlated with the number of BCR/ABL-negative CD34(+)HLA-DR- cells, but not the number of Ph-negative metaphases in the graft. In patients with
ECP
CML
, mobilized PB collections yielded significantly more CD34(+)HLA-DR- cells than from steady state or mobilized BM. CD34(+)HLA-DR- cells were Ph negative and polyclonal (X-chromosome inactivation) in the majority of
ECP
CML
patients, before and after mobilization and irrespective of the mobilization regimen. Because infusion of large numbers of Ph-negative CD34(+)HLA-DR- cells predicted superior outcome after transplantation, approaches in which CD34(+)HLA-DR- cells are selected from mobilized PB may result in longer lasting and clinically significant cytogenetic responses after transplantation.
...
PMID:Comparative analysis of autografting in chronic myelogenous leukemia: effects of priming regimen and marrow or blood origin of stem cells. 1018 8
The majority of patients with
chronic myeloid leukemia
in early chronic phase (CML-ECP) who are treated with imatinib achieve a complete cytogenetic response with a significant reduction in the risk of progression to advanced phases. Recent studies show that therapy of
CML
-
ECP
with nilotinib leads to a faster and deeper response compared to imatinib. However, in vitro data indicates that there is no detectable difference in inhibition of signaling downstream of Bcr-Abl between the two agents, and that neither drug induces apoptosis of
CML
CD34 (+) cells. We use a computational model of hematopoiesis and
CML
combined with serial quantitative data of disease burden under imatinib and nilotinib therapy to explain this apparent disconnect between in vivo and in vitro responses. We show how a subtle difference in the differentiation rate of
CML
cells under therapy with either agent, with marginal impact onto the in vitro studies, translates into a significantly different reproductive fitness of treated cells in vivo, providing a sizeable difference, hence providing an explanation for the superior response observed with nilotinib.
...
PMID:Explaining the in vitro and in vivo differences in leukemia therapy. 2147 67
