Gene/Protein
Disease
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Drug
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Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
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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)
Four-color flow cytometry was used with a cocktail of antibodies to identify and isolate CD34+ hematopoietic progenitors from normal human peripheral blood (PB) and bone marrow (BM). Mature cells that did not contain colony forming cells were resolved from immature cells using antibodies for T lymphocytes (CD3), B lymphocytes (CD20), monocytes (CD14), and granulocytes (CD11b). Immature cells were subdivided based on the expression of antigens found on hematopoietic progenitors (CD34, HLA-DR, CD33, CD19, CD45, CD71,
CD10
, and CD7). CD34+ cells were present in the circulation in about one-tenth the concentration of BM (0.2% v 1.8%) and had a different spectrum of antigen expression. A higher proportion of PB-CD34+ cells expressed the CD33 myeloid antigen (84% v 43%) and expressed higher levels of the pan leukocyte antigen CD45 than BM-CD34+ cells. Only a small fraction of PB-CD34+ cells expressed CD71 (transferrin receptors) (17%) while 94% of BM-CD34+ expressed CD71+. The proportion of PB-CD34+ cells expressing the B-cell antigens CD19 (10%) and
CD10
(3%) was not significantly different from BM-CD34+ cells (14% and 17%, respectively). Few CD34+ cells in BM (2.7%) or PB (7%) expressed the
T-cell antigen CD7
. CD34+ cells were found to be predominantly HLA-DR+, with a wide range of intensity. These studies show that CD34+ cells and their subsets can be identified in normal PB and that the relative frequency of these cells and their subpopulations differs in PB versus BM.
...
PMID:Identification and comparison of CD34-positive cells and their subpopulations from normal peripheral blood and bone marrow using multicolor flow cytometry. 171 May 12
Eighteen cases of small noncleaved cell lymphoma (SNCL) were studied with a large panel of monoclonal antibodies applied to tissue frozen sections and compared with 18 cases of immunoglobulin-expressing diffuse large cell lymphoma (DLCL). Immunoglobulin expression was seen in all cases of SNCL, with a predominance of cases showing lambda light chain restriction. Expression of mu and delta heavy chains was common, but gamma and alpha chain expression was uncommon. In the cases of SNCL T015, B1, B2, 41H, BA-1, BA-2, Ia,
CALLA
, and OKT10 were generally expressed, and a large percentage of cells expressed Ki-67. Only rare expression of T05, Leu-8, and
Leu-9
was seen, and in no case was reactivity with anti-Tac antibodies observed. In contrast, the immunoglobulin-expressing DLCLs showed the typical predominance of cases of kappa light chain restriction, a lower proportion of cases with mu or delta expression, and a higher proportion of cases with gamma expression. A lower incidence of Leu-8, T05, and Tac expression and a higher incidence of BA-1,
CALLA
, Ki-67 and OKT10 were seen in the SNCLs as compared with the DLCLs. It is concluded that immunologic studies may be of considerable aid in the differential diagnosis of SNCL and DLCL.
...
PMID:Small noncleaved cell lymphoma: an immunophenotypic study of 18 cases and comparison with large cell lymphoma. 369 8
It has been proposed that the
CD7 molecule
is the first antigen expressed on the membrane of cells committed to the T-cell lineage during human fetal T-cell ontogeny. To further identify the pre-T cell subpopulation that migrates to the thymus early in ontogeny, we analyzed the phenotypic and functional characteristics of the fetal liver populations separated on the basis of CD7 expression. Three populations expressing different levels of CD7 were observed: CD7bright, CD7dull, and CD7-. A CD7bright population depleted of mature T, B, and myeloid cells (lineage negative, lin-) and mostly composed of CD56+ CD34- natural killer cells did not mature into T cells in a fetal thymic organ culture (FTOC) assay and was devoid of myeloid progenitors in a clonal colony-forming cell assay. In contrast, the CD7-/dull CD34+ lin- populations were capable of differentiating into phenotypically mature T cells after injection into FTOC and contained early myeloid progenitors. Here we phenotypically compared the fetal liver CD7 populations with the most immature fetal thymic subset that differentiated in the FTOC assay, namely the triple negative (TN, CD3-CD4-CD8-) thymocytes. Fetal TN lin- expressed high levels of CD34 marker and were further subdivided by their expression of CD1 antigen, because CD1- TN thymocytes express higher levels of CD34 antigen compared with CD1+ TN cells. CD1- lin -TN thymocytes are characterized by expressing high levels of CD2, CD7, and CD34 markers and dull levels of CD5,
CD10
, and CD28 molecules. We could not find fetal liver pre-T cells with a phenotype equivalent to that of TN thymocytes. Our data show that CD7 does not necessarily identify T-cell precursors during fetal T-cell development and strongly support the hypothesis that the acquisition of early T-cell markers as CD2, CD28, and CD5 molecules on the cell surface of T-cell progenitors takes place intrathymically.
...
PMID:Phenotypic and functional analysis of T-cell precursors in the human fetal liver and thymus: CD7 expression in the early stages of T- and myeloid-cell development. 769 84
