EC:3.4.24.11 - FACTA Search

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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)

The expression of TCR-associated molecules was examined in human fetal and postnatal tissues. From gestational wk 7 onward in the fetal liver, putative prothymocytes have been identified with cytoplasmic CD3 positivity (cCD3+). These immature cells are TdT- and do not express membrane CD3 (mCD3-) or TCR beta identified by beta F1, but show CD7 and CD45 positivity without CD1, CD2, CD5, CD4, CD8, CD10, and class II Ag. Their high proliferative activity is indicated by greater than 85% Ki67 positivity. After the 10th wk, beta F1+, mCD3+ cells also appear in the liver and these are mostly Ki67- but no TCR gamma delta-bearing cells can be identified at such an early stage of extrathymic development. In the mCD3- TdT-fetal thymus (10 1/2 to 18th wk) cCD3+, mCD3- CD1-blasts proliferate (Ki67+) and lack TCR-beta or TCR-gamma delta. The TdT-, CD1+ cortical thymocytes develop into TCR-beta + and WT31-positive (TCR-alpha beta +) cells. Subsequently TdT-positive thymocytes become detectable around 19 to 20 wk, and in such glands the peak of proliferative activity is seen among TdT+, cCD3+ cells which appear to acquire, in a regular sequence, cytoplasmic beta F1 (TCR-beta), mCD3, and TCR-alpha beta (WT31 positivity) together with the loss of TdT and Ki67 positivity. A newly described transitional population of cells is TdT-, beta F1+ but exhibits no detectable WT31 positivity. These cells correspond to the CD1+, mCD3+ thymocytes and are probably the targets of thymic selection. The cells of the TCR-gamma delta lineage, detected by mAb TCR-delta-1 and delta TCS1, are rare (0.02 to 0.5%) among thymocytes from gestational wk 10 1/2 onward through the whole span of thymic development, but these cells include a proportion (18 to 59%) of cells expressing CD1 Ag, suggesting that these TCR-gamma delta cells differentiate in the thymus. Among the CD1+, TCR-gamma delta + thymocytes, no TdT positivity can be detected.
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PMID:The expression of T cell receptor-associated proteins during T cell ontogeny in man. 278 27

Peripheral blood mononuclear cells were quantified for the subsets of CD4, CD8, and CD19 lymphocytes by using CD45RA (2H4), CD29(4B4), CD57, CD5, CD10, Leu8, HLA-DR, and TCR gamma delta-1 monoclonal antibodies and dual color immunofluorescence. A comparative analysis of lymphocyte subpopulations was made among 52 HIV-infected and 50 age-matched control children and 30 HIV-seropositive and 27 negative control adults. A significant decrease in the CD4+CD45RA+ "naive" cells was much more marked in HIV-infected children than in HIV-infected adults. A significant percentage increase in the CD4+CD29+ "memory" cells was observed in HIV-infected children but not in infected adults; however, the absolute numbers were usually decreased in all age groups. The mean percentage and absolute numbers of CD4+CD7+ and CD4+Leu8+ cells were decreased in HIV-infected children, although usually not significantly. The CD3+TCR gamma delta-1+ did not show any change in the infected children tested. The mean percentage and absolute number of the CD8+HLA-DR+ cells increased significantly in HIV-infected persons of all ages. The CD8+CD57+ cells were increased in percentage and absolute number in HIV-infected children ages 1-4 and 4-8 years. In the adults, no change was noted in either the percentage or absolute number of CD19+CD5+ B cells, a finding similar to that noted in HIV-infected children above 1 year of age. Although adults showed a significant decrease in both percentage and numbers of CD5- B cells, an increase was noted in the 7- to 12-month-old HIV-infected children. The CD19+CD10+ cells showed a slight but significant decrease in the youngest age group and a significant increase in the older age groups of HIV-infected children. These findings indicate that several lymphocyte subpopulations are altered differentially during HIV infection in children of varying ages and in adults.
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PMID:Subpopulations of T and B cells in perinatally HIV-infected and noninfected age-matched children compared with those in adults. 751 Oct 82

Extensive immunohistochemical analyses of the hyperplastic human palatine tonsil disclosed variegated B cell phenotypes on the lymphoid cells among the crypt epithelium. The reticular epithelial network was evident by cytokeratin immunostaining. The reticular epithelium near the crypt lumen was positive for lysozyme. Secretory component was negative, while HLA-DR was frequently expressed. Intramucosal small lymphocytes, densely distributed in the luminal side, consisted mainly of B cells expressing CD19, CD20, CD21, CD22, CD45R, CD74, DBB42, HLA-DR, HLA-DQ, bcl-2 protein and surface IgM. Some B cells revealed mantle zone phenotypes (surface IgD+, CD5+, CD24+, DBA44+, CD10-, DNA7-). Cells of germinocyte phenotype (CD10+, DNA7+) were sparsely seen. A good number of intramucosal lymphoid cells were further labeled for CD11b, a phenotype of so-called B-1 cells. Plasma cells were clustered within the basal half. IgG was their major immunoglobulin class, followed by IgA, IgM and IgD classes. A smaller number of T cells (CD2+, CD3+, CD5+, CD45RO+, TCR alpha beta+) were identified among the epithelium. CD4+ cells predominated over CD8+ cells. TCR gamma delta+ cells were rare. Macrophages (CD68+), dendritic histiocytes (S-100 protein+, CD1+), and natural killer cells (CD16+ or CD57+) were also dispersed. Another unique feature of this lymphoepithelial complex was the existence of HLA-DR- intramucosal intramucosal microvasculature, where lymphocyte recirculation was suggested. Proliferating cell nuclear antigen was detected commonly in the epithelial cells but rarely in the lymphoid cells. Possible lymphoepithelial interactions and morphologic similarities to the thymic medulla are discussed.
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PMID:Reticular crypt epithelium and intra-epithelial lymphoid cells in the hyperplastic human palatine tonsil: an immunohistochemical analysis. 770 42

Two adult patients with acute mixed lineage leukemia (AMLL) having combined Philadelphia chromosome (Ph1) positivity and monosomy 7 are presented. The phenotypes of leukemic blasts from both cases were almost same (early B-lymphoid lineage and myeloid lineage); CD10+, CD13+, CD19+. HLA-DR+, and dual-color analysis showed simultaneous expression of CD10 (CD19) and CD13 antigens in individual blasts (biphenotypic) in both cases. On molecular analysis, the leukemic blasts showed rearrangement in the first intron of the BCR gene with breakpoint just outside of 3' end of m-BCR-2 (bcr 3) in case 1, and in the M-BCR in case 2. Immunoglobulin heavy chain gene (IgH) rearrangement was noted in both cases, but rearrangement of the T-cell receptor beta-chain gene (TCR beta) was detected only in case 1. Clinically, both cases achieved complete remission by the combination chemotherapy consisting of L-asparaginase, doxorubicin, vincristine, and prednisolone (L-AdVP). In remission, all these molecular abnormalities disappeared in both patients. These results suggest that the Ph1-positive and monosomy 7 AMLL in adults is de novo acute leukemia with both early B-lymphoid and myeloid phenotypes and may arise from malignant transformation of pluripotent stem cell, and expresses a heterogenous rearrangement pattern of the BCR gene.
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PMID:Philadelphia-chromosome-positive, monosomy 7 biphenotypic acute mixed lineage leukemia in adults: a pluripotent stem cell disorder. 790 55

To date no hematopoietic progenitors of dendritic Langerhans' cells (DLC), which represent an highly efficient class of antigen presenting cells, have been identified or the cytokines they elaborate have been defined. Here we describe an acute leukemia patient whose blasts (90-96% in peripheral blood and bone marrow) had a phenotype consistent with putative progenitors of DLC. The patient was treated with ara-C and VP-16 but did not achieve remission. The blasts had lobulated nuclei, no cytoplasmic vacuolation or Auer rods and were weakly positive for acid phosphatase and non-specific esterase and negative for PAS, granzyme A, dipeptidyl aminopeptidase IV, ATPase/ADPase and lysozyme production. The blasts were positive for CD1a, CD4, CD16, CD35, HLADR, HLADQ, CD11b, CD11c, CD14, CD33, CD34, CD11a, CD71, CD19, CD25, IL-2R beta and negative for CD2, CD7, CD8, CD10, CD22, CD56, CD57, surface or cytoplasmic CD3, TCR delta and TCR beta, HTLV-1p19 and P-glycoprotein. On liquid culture with or without 5 x 10(-9) M 12-O-tetradecanoylphorbol-13-acetate (TPA) for 3 days, the blasts formed aggregates of proliferating and elongating cells on the wall of the flasks with a decline in CD34, numerous dendritic processes appeared on the cells and there was strong positivity for ATPase/ADPase, but no other changes in phenotype. No macrophages were observed, indicating derivation from separate DLCs. Cytogenetic analysis showed chromosomal abnormalities and electron microscopy showed Birbeck granules. Southern blotting of DNA showed rearrangement of one allele for both JH and TCR beta but no HTLV-1 related sequences. Culture supernatants from blasts cultured with or without TPA showed the production of large amounts of IL-8, IL-6, TNF-alpha, MIP-1 alpha, IL-10 and interferon gamma and modest amounts of IL-1 alpha, GM-CSF and stem cell factor. The presence not only of CD1a, HLADR, HLADQ and many other characteristics including Birbeck granules, but also differentiation along the lines of DLC with appearance of dendritic processes on the cells and expression of ATPase/ADPase activity, indicate that the leukemic blasts in our patient represented a leukemic counterpart of normal progenitors of DLC and the leukemia a new entity which could possibly be classified as AML-M8. Lastly, many pro-inflammatory cytokines produced by DLC could contribute to inflammation and IL-10 to immunosuppression.
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PMID:Phenotype, genotype and cytokine production in acute leukemia involving progenitors of dendritic Langerhans' cells. 791 55

Cytogenetic patterns in correlation with cytologic, biomolecular and clinical findings were studied in 45 adult patients with AML expressing at least one of the following lymphoid associated markers (LM): CD2, CD7, CD10, CD19, CD22, TdT. Four cytogenetic groups were recognized: group I, including 8 patients with 11q23 rearrangements; group II including 5 patients with the Ph chromosome; group III, with 19 patients and aberrations of the "myeloid type" including 4 cases with aberrations of chromosome 13, 3 cases with 1q and 7q anomalies, 2 cases with trisomy 11q; group IV, including 13 patients with normal karyotype. Patients showing extensive lineage infidelity were encountered more frequently in cytogenetic groups I and II than in groups III and IV. Two of 4 cases with aberrations of chromosome 13 showed two or more lymphoid features either at immunophenotyping or at biomolecular analysis of the configuration of lg and TCR genes. Patients with 11q23 rearrangements and with the Ph chromosome were generally young, presented with high WBC count and had low complete remission rate. Survival in Ph chromosome positive patients was uniformly short. We conclude that, although there is no cytogenetic anomaly specific for AML with LM, chromosome findings may be clinically relevant in AML with LM. A morphologic, immunologic and cytogenetic classification of AML with LM may constitute a working basis for future studies aimed at a better definition of clinicopathological features and optimal treatment strategy for these leukemias.
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PMID:Clinical review on features and cytogenetic patterns in adult acute myeloid leukemia with lymphoid markers. 834 65

A new B-cell line (VL51) with cytoplasmic villi was established from a female patient with splenic lymphoma with circulating villous lymphocytes (SLVL). The patient exhibited a clinical picture characteristic of SLVL, including massive enlargement of the spleen. Tartrate-resistant acid phosphatase (TRAP)-negative villous lymphocytes were seen in the peripheral blood, bone marrow (BM) and both red and white pulps of the spleen. Monoclonality of the VL51 cell line was confirmed by clonal genotype abnormalities in the immunoglobulin heavy chain (IgH) gene and the T-cell receptor beta (TCR beta) gene. Evidence for commitment of phenotype of the VL51 cell line to the B lineage was also shown by the immunophenotype, including expression of CD10, CD19, CD20 and surface immunoglobins. The VL51 cells were positive for Epstein-Barr virus nuclear antigen (EBNA). The VL51 cell line is the first SLVL cell line to be established, and it is expected to be useful in clarifying the leukemogenesis of SLVL.
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PMID:Establishment and characterization of a villous lymphoma cell line from splenic B-cell lymphoma. 855 98

We examined a 63-year-old female, who was referred to our hospital for a thorough examination of abnormal findings on the X-ray which were first detected in May, 1992, and suggested a tumor. After hospital admission, a bracheobronchial lymph node biopsy was performed, and the results suggested a pseudo-lymphoma. However, because the possibility of a malignant tumor was not completely negated and the patient, as well as her family, hoped to receive surgical treatment, we performed the tumor resection. The tumor had a clear border. S6 was 3 x 3.5 x 4 cm, S8 was 2 x 2.5 x 3 cm, and evaluation according to the tumor node metastasis (TNM) classification was T1 N0 M0, i.e., Stage I. In addition to an ordinary histopathological examination, an immunohistochemical examination was conducted for CD19+, CD20+, CD22+, IgD-, CD5-, CD10-. Overall, the tumor was diagnosed as a MALT lymphoma. Investigated IgH, TCR beta, bcl-1 and bcl-2 genes did not show reconstitution. Because it is difficult to differentiate a malignant lymphoma, primarily developed in the lung, from a MALT lymphoma on a morphological examination of a tissue specimen, immunohistochemical and genetic examinations are helpful for making a diagnosis.
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PMID:[A case of mucosa associated lymphoid tissue (MALT) lymphoma]. 893 47

A 16-year-old boy was operated upon for synovial sarcoma of the right thigh and underwent chemotherapy consisted of adriamycin (320 mg), cisplatin (780 mg), etoposide (4,200 mg) and ifosfamide (30,000 mg). He developed secondary leukemia 18 months after the chemotherapy. Acute lymphoblastic leukemia (L3) was initially diagnosed because of poor staining of alpha-naphtyl butylate esterase and induction chemotherapy with the LVP regimen (L-asparaginase 5,000 U/m2 day 8-21, vincristine 1.5 mg/ m2 day 1, 6, 11, 16, 21, 26, prednisolone 40 mg/m2 day 1-28) was performed. After the therapy was initiated, the leukemia was finally diagnosed as acute momocytic leukemia (M5a) because of the following data; blasts were positive for CD33 and HLA-DR and negative for CD10, CD19 and CD20; serum lysozyme was 104.0 micrograms/ml; re-evaluation revealed that blasts were strongly positive for alpha naphtyl butyrate esterase in a small part of the slides; 95% of the bone marrow cells showed t (9; 11) chromosomal aberration; gene rearrangement was positive for MLL and negative for JH, JK and TCR C beta 1. Nevertheless, complete remission was obtained after 1 course of LVP therapy. He received bone marrow transplantation from an unrelated volunteer donor after 3 courses of consolidation therapy. He has remained in complete remission for 16 months.
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PMID:[Complete remission achieved by L-asparaginase, vincristine and prednisolone (LVP) therapy in secondary leukemia (M5a type) with an MLL gene rearrangement]. 905 68

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.
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PMID:Expansion of polyclonal B-cell precursors in bone marrow from children treated for acute lymphoblastic leukemia. 926 91

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