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Query: EC:3.4.24.11 (
CD10
)
9,792
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Multiparameter flow cytometry was applied on normal human bone marrow (BM) cells to study the lineage commitment of progenitor cells ie, CD34+ cells. Lineage commitment of the CD34+ cells into the erythroid lineage was assessed by the coexpression of high levels of the CD71 antigen, the myeloid lineage by coexpression of the CD33 antigen and the B-lymphoid lineage by the
CD10
antigen. Three color immunofluorescence experiments showed that all CD34+ BM cells that expressed the CD71, CD33, and
CD10
antigens, concurrently stained brightly with anti-CD38 monoclonal antibodies (MoAbs). In addition, the CD38 antigen was brightly expressed on early T lymphocytes in human thymus, characterized by CD34, CD5, and CD7 expression. Only 1% of the CD34+ cells, 0.01% of nucleated cells in normal BM, did not express the CD38 antigen. The CD34+, CD38- cell population lacked differentiation markers and were homogeneous primitive blast cells by morphology. In contrast the CD34+, CD38 bright cell populations were heterogeneous in morphology and contained myeloblasts and erythroblasts, as well as lymphoblasts. These features are in agreement with properties expected from putative pluripotent hematopoietic stem cells; indeed, the CD34 antigen density decreased concurrently with increasing CD38 antigen density suggesting an upregulation of the CD38 antigen on differentiation of the CD34+ cells. Further evidence for a strong enrichment of early hematopoietic precursors in the CD34+, CD38- cell fraction was obtained from culture experiments in which CD34+ cell fractions with increasing density of the CD38 antigen were sorted singularly and assayed for blast colony formation. On day 14 of incubation, interleukin-3 (IL-3), IL-6, and GM-CSF,
G-CSF
, and erythropoietin (Epo) were added in each well. Twenty-five percent of the single sorted cells that expressed CD34 but lacked CD38 antigen gave rise to primitive colonies 28 to 34 days after cell sorting. The ability to form primitive colonies decreased rapidly with increasing density of the CD38 antigen. During 120 days of culture, up to five sequential generations of colonies were obtained after replating of the first-generation primitive colonies. This study provides direct evidence for the existence of a single class of progenitors with extensive proliferative capacity in human BM and provides an experimental approach for their purification, manipulation, and further characterization.
...
PMID:Sequential generations of hematopoietic colonies derived from single nonlineage-committed CD34+CD38- progenitor cells. 170 33
Initiation of DNA synthesis by recombinant colony-stimulating factors (CSFs) was assessed in normal human marrow blast cells isolated by expression of CD34 antigen (tritiated thymidine incorporation). Continuous exposure to CSF was required. A mild increase in DNA synthesis was initiated by granulocyte CSF (
G-CSF
; greater than or equal to 1 ng/ml), to approximately 1.5 times control levels. A greater increase was initiated by granulocyte-macrophage CSF (GM-CSF), with a threshold of approximately 0.1 ng/ml and a plateau increment 2.5 times control levels. CD34+ cells were stimulated by interleukin 3 (IL-3) over a wide concentration range: two times control at 0.1/ml, three times control at 1 ng/ml, and four times control at 10 ng/ml. Overlap between responding populations was analyzed.
G-CSF
plus GM-CSF induced DNA synthesis greater than GM-CSF alone and supported the growth of much larger granulocyte-monocyte colonies. At saturating IL-3 concentrations, neither
G-CSF
nor GM-CSF induced additional DNA synthesis; at lower concentrations of IL-3, however, GM-CSF recruited additional cells into DNA synthesis. Using
CD10
and CD19 antibodies to separate B-lineage cells, the CD34+ cells responding to CSF were observed to be in the non-B-lineage subset. Therefore 1) the response of CD34+ cell subsets CSFs is IL-3 greater than GM-CSF greater than
G-CSF
, and the IL-3-responsive population is heterogeneous for dose requirement; 2) a CD34+ subpopulation responding to concurrent
G-CSF
and GM-CSF includes increased proliferative potential cells; 3) IL-3-responsive cells include GM-CSF- and
G-CSF
-responsive cells, but cells responding to lower IL-3 concentration do not respond to GM-CSF; and 4) B-cell precursors do not respond to GM-CSF or IL-3 in this assay.
...
PMID:Initiation in DNA synthesis by colony-stimulating factors in subsets of human CD34+ marrow cells. 171
In an attempt to gain some insight into the many factors influencing antibody gene expression in human B cell lines, we have examined in detail the relationship between cell surface phenotype, cytokines, and the growth and antibody-producing capacity of a panel of immortalized human B cell lines. The cell panel comprised lines secreting either high or low titers of antibodies against Rhesus D, hepatitis B surface, and tetanus toxoid antigens. All the transformed cell lines exhibited a cell surface phenotype characteristic of well-differentiated peripheral blood cells strongly expressing CD23 and CD38 while weakly expressing
CD10
and CD21. There was no obvious relationship between the antibody-body-secreting and proliferative capacity of the cell lines and their cell surface phenotype. Antibody secretion by the cells was rarely improved by the addition of a wide range of doses of recombinant IL-2, IL-4, or IL-6. In addition, such treatment frequently inhibited proliferation. Supernatants from some of the cell lines promoted the growth of unrelated cell lines but failed to influence antibody production. Such supernatants contained the highest concentration of IL-1, TNF beta, TGF beta, and soluble CD23. In contrast, the heterohybrid supernatant which inhibited cell growth secreted low levels of these cytokines. None of the cell lines secreted detectable amounts of IL-2, IL-4, INF gamma, or
GCSF
. There was no obvious relationship between cytokine production and antibody secretion. Finally, LPS had a slight but variable effect on antibody secretion but failed to influence cell growth.
...
PMID:Cell surface phenotype, cytokines, and antibody gene expression in immortalized human B cell lines. 210 58
Single- and multicolor flow cytometry were used to define progenitor subsets in normal human bone marrow and peripheral blood, cord blood, and blood following mobilization of CD34+ progenitor cells by cyclophosphamide or cyclophosphamide/etoposide/
G-CSF
treatment. CD34 cells were quantitated and subsets of CD34+ cells were defined by coexpression of CD33, CD13,
CD10
, CD19, CD45RA, and CD71. Myeloid and erythroid progenitors were quantitated by sorting single CD34+ cells into individual wells of 96-well plates containing methylcellulose, IL-3, GM-CSF,
G-CSF
, IL-6, and erythropoietin. Comparative studies of CD34 cells showed that the percentage of CD34+ mononuclear cells was greatest in blood samples from patients following mobilization treatment with cyclophosphamide/etoposide/
G-CSF
averaging 2%. By comparison, the remaining sample groups ranged from 1.68 to 0.15% CD34 cells in this order, bone marrow > cord blood > cyclophosphamide mobilized blood > peripheral blood. Comparison of CD34 cells per milliliter of bone marrow or blood showed a range of 22.4 x 10(4) to 0.65 x 10(4)/ml in the following order, bone marrow > chemotherapy/etoposide/
G-CSF
> cord blood > cyclophosphamide-mobilized blood. Comparative analysis of CD34 subsets from different sources showed significant differences, particularly bone marrow and blood samples. A distinct population of CD34+ CD19+ (Leu 12) CD10+ (
CALLA
) pre-B lymphocyte cells was defined in bone marrow with lower side and forward light scatter characteristics and was variable between donors (29.8 +/- 16.9%, mean +/- 1 SD; range, 3-54%; n = 8). This population was not found to a significant degree in blood and also expressed CD45RA (Leu 18). Coexpression studies of CD45RA and CD71 (transferrin receptor) expression on CD34+ cells defined a CD45RA- CD71+ population containing 89 +/- 6.3% (n = 4) BFU-E and a CD45RA+ CD71+ population that contained all CFU-GM (n = 4). LeuM7 (CD13) stained a larger percentage to a greater intensity than MY7 (CD13). Coexpression of CD45RA (Leu 18) and CD13 (LeuM7) defined a subset of CD13+ CD45RA+ cells enriched for CFU-GM and CFU-M with a cloning efficiency of 31%. Coexpression of CD33 (MY9) and CD13 (MY7) defined a population that was predominantly CFU-GM with a cloning efficiency of 38%. These studies define CD34+ phenotypes containing pure populations of B lymphocyte, granulocyte-macrophage, or erythroid progenitors and demonstrate the utility of multiparameter flow cytometry to define lineage-committed CD34+ cells.
...
PMID:Phenotypic analysis and characterization of CD34+ cells from normal human bone marrow, cord blood, peripheral blood, and mobilized peripheral blood from patients undergoing autologous stem cell transplantation. 750 11
We examined the expression of
CD10
and G-CSF receptor (G-CSFR) on the lymphoid population of mononuclear cells obtained from bone marrow (BM) using two-colour analysis. In the BM of children with ALL in remission, the CD10+ population was significantly increased (20.6 +/- 5.1% compared with that of controls (2.5 +/- 0.5%). More than half (61.3 +/- 2.9%) of the CD10+ cells co-expressed G-CSFR, but not CD13. These results indicate G-CSFR+ B-cell precursors are markedly increased in BM of ALL in remission, suggesting the probable involvement of
G-CSF
in the human early B-cell ontogeny.
...
PMID:Expression of granulocyte colony-stimulating factor receptor on CD10-positive human B-cell precursors. 773 63
The clinical application of recombinant human
G-CSF
in patients with acute myeloid leukemia (AML) has been controversial because it stimulates the in vitro proliferation of leukemic cells. In order to explore the possibility of predicting in vivo leukemic proliferation after
G-CSF
administration to AML patients by using in vitro assays, we investigated the leukemic blasts of 30 AML patients, including 14 patients who received
G-CSF
for severe infection associated with neutropenia following chemotherapy (
G-CSF
group) and 16 patients who did not (control group). Of the 14 patients in the
G-CSF
group, 9 showed an increase of leukemic blasts in the peripheral blood during
G-CSF
administration, while 11 of the 16 control patients developed leukemic resurgence. In the
G-CSF
group, the frequency of leukemic resurgence among patients whose blasts showed dose-dependent proliferation after addition of
G-CSF
to cultures was similar to that among patients whose blasts did not. In addition, there were no significant differences between the
G-CSF
and control groups in [3H]thymidine incorporation by leukemic cells and leukemic colony formation after the addition of
G-CSF
to cultures. The G-CSF receptor affinity of leukemic blasts was significantly higher in the patients with leukemic resurgence (mean dissociation constant [Kd]: 55 pM in the
G-CSF
group and 63 pM in the control group) than in those without it (101 pM and 96 pM, respectively), and the number of
G-CSF
receptors per cell was significantly lower when leukemic resurgence occurred (200 in the
G-CSF
group and 260 in the control group) than when it did not (3400 and 3030, respectively). Immunophenotyping (for CD2, CD7,
CD10
, CD13, CD19, CD33, CD34, CD71, HLA-DR, glycophorin A and the G-CSF receptor) revealed no significant differences between blasts from the patients with and without leukemic resurgence in the
G-CSF
group. Thus, we conclude that the in vivo leukemic resurgence during
G-CSF
administration after chemotherapy for AML was not correlated with the in vitro responsiveness of leukemic blasts to this cytokine or with blast phenotyping data. Leukemic resurgence is likely to occur in patients whose leukemic blasts have fewer numbers of
G-CSF
receptors with a high affinity irrespective of whether patients receive
G-CSF
.
...
PMID:Granulocyte colony-stimulating factor in acute myeloid leukemia. 859 Aug 66
An allogeneic sex-mismatched BMT which was performed in a male patient with BCR-ABL-positive ALL in second hematological and central nervous system relapse resulted in a CR for 12 months. After BMT, the patient was closely monitored with reverse transcription (RT)-PCR. One month before a third relapse RT-PCR became positive. During relapse
G-CSF
was administered. It specifically stimulated the donor-derived myelopoiesis and led to the stabilization of the disease for 8 months. Fluorescence in situ hybridization analyses of individual cell populations revealed that during the whole course of
G-CSF
administration granulocytes, CD4+, CD8+ and CD34+/
CD10
- cells were of female (donor) origin and only the CD34+/CD10+ cells which represented the leukemic blasts, were of male (host) origin.
...
PMID:G-CSF stimulation of donor myelopoiesis prolongs survival of relapsed BCR-ABL-positive acute lymphoblastic leukemia after allogeneic marrow transplantation. 887 36
To define an optimal regimen for mobilizing blood-derived progenitor cells from healthy donors for allogeneic transplantation, we have studied the early and lineage-committed CD34+ subsets in the leukapheresis products after mobilization with
G-CSF
(10 micrograms/kg/d), GM-CSF (10 micrograms/kg/d), and the combination of
G-CSF
and GM-CSF (G/GM, 5 micrograms/kg/d of each). We used three color and five dimensional flow cytometry with a panel of monoclonal antibodies against CD3, CD7,
CD10
, CD11b, CD15, CD33, CD34, CD38, CD45, CD61, and CD71. As reference, we also analyzed CD34+ subsets in samples from umbilical cord blood (UCB) and from adult bone marrow (BM). The level of total CD34+ cells was 0.04 +/- 0.03% (mean +/- SD) in peripheral blood at baseline, and reached a maximum on day 5 or day 6 of administration of growth factors. The percentages of CD34+ cells in the leukapheresis products were 1.06 +/- 0.37% (mean +/- SD) with
G-CSF
mobilization, 0.35 +/- 0.24% with GM-CSF, and 0.92 +/- 0.61% with the combination of both. Among the CD34+ subsets, the percentage of cells that were CD34+/CD38- was highest in UCB (7.18 +/- 5.58%) and lowest in
G-CSF
mobilized peripheral blood (0.80 +/- 0.22%), whereas GM-CSF or G/GM mobilized products gave rise to intermediate levels (4.43 +/- 3.40%, 3.61 +/- 2.42%, respectively). The differences between G/GM and
G-CSF
, between UCB and
G-CSF
, or between UCB and BM are significant. The absolute numbers of CD34+/CD38- and CD34+/CD38-/HLA-DR+ subsets are also significantly higher in the G/GM mobilized products than in
G-CSF
products. The cloning efficiency of G/GM mobilized CD34+ cells was 2 times higher than that of
G-CSF
mobilized CD34+ cells, albeit the difference was statistically marginal. The profile of CD34+ subsets mobilized by the combination of G/GM approaches that found in UCB. Our data illustrate that different growth factors and regimens can preferentially mobilize different CD34+ subsets from normal donors, and that the combination of
G-CSF
and GM-CSF might be an optimal regimen.
...
PMID:Pluripotent and lineage-committed CD34+ subsets in leukapheresis products mobilized by G-CSF, GM-CSF vs. a combination of both. 895 Feb 28
In a series of 12 patients (mean age: 3 years at diagnosis) receiving chemotherapy for acute lymphoblastic leukemia, bone marrow examinations performed during hematopoietic recovery following treatment-induced agranulocytosis or completion of maintenance treatment showed at least 15% of non malignant immature cells which were sometimes hardly distinguishable from leukemic cells. No comparable data was observed in patients treated with
G-CSF
. The cytological features of these cells as well as their immunophenotyping were defined. Results showed that the majority of cells expressed HLA-DR, CD19,
CD10
and cytoplasmic IgM but not the CD34 markers. This predominant and homogeneous pre-B cell population which likely represents the expansion of a minor population detectable in normal bone marrow is phenotypically indistinguishable from leukemic cells. The pattern of IgH gene rearrangements studied by PCR amplification of the CDRIII region showed that these cells were polyclonal. Except in one patient, minimal residual disease was not detected using probes specific for IgH or TCR gene rearrangement of the malignant clone. In children during the hematopoietic recovery after chemotherapy, immature marrow cells in great numbers, even with an highly homogeneous immunophenotype identical to the malignant clone's, are not sufficient for the diagnosis of relapse.
...
PMID:Expansion of polyclonal B-cell precursors in bone marrow from children treated for acute lymphoblastic leukemia. 926 91
Phenotypic changes in neutrophil granulocytes (NG) after
G-CSF
have been scarcely studied. Using flow cytometry, we analyzed the changes of CD11b, CD14, CD33, CD71, HLA-DR,
CD10
, CD16 and CD15 on NG after
G-CSF
treatment in 6 patients with ALL receiving intensification chemotherapy and in 10 control subjects. After
G-CSF
we found: expression of HLA-DR, a higher expression of CD11b, CD71 and CD14, a decrease in
CD10
positivity, and fluoresence Intesity in CD15 and CD16. After administration of
G-CSF
, the NG of patients with ALL express an immature phenotype as well as markers of proliferation.
...
PMID:Phenotypic changes in neutrophil granulocytes after G-CSF administration in patients with acute lymphoblastic leukemia under chemotherapy. 967 35
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