UMLS:C0019829 - FACTA Search

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Query: UMLS:C0019829 (Hodgkin's disease)
30,247 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We analyzed the rearrangement of T-cell receptor (TcR) delta chain gene in 196 cases of hematological malignancies. This rearranged band (s) was observed in 15% of the total cases investigated. All T-ALL patients and cell lines, except for P30/Okubo, had a new band (s) or deletion of J delta 1 gene locus, indicating the gamma delta T-cell type or the alpha beta T-cell type. In the other T-cell malignancies, the delta rearranged band (s) was recognized in 5% of T-cell lymphomas, 20% of AILD but not in ATL, Hodgkin's disease, T-CLL. Inappropriate delta rearrangement was frequently recognized in 63% of B-ALL and 50% of CML-BC but none or few (5% less) in B-CLL, B-lymphoma and AML. Southern blotting, using J delta 1 and V delta gene probes or Pst I enzyme digestion, indicated that the inappropriate delta rearranged band in B-ALL and CML-BC is V delta 2D or DD without a J delta locus. The rearranged band (s) involved J delta locus, was mostly recognized in 5/6 cases of CD7 (+) stem cell leukemia. Therefore, the TcR delta gene is useful in evaluating clonality for the most immature T-cell neoplasms, not showing rearrangement of the other TcR genes. Moreover, this delta gene may be a useful tool for distinguishing T-lineage from the other lineages, using the characteristic rearrangement pattern (V delta 2D as a inappropriate pattern, or (D) DJ and V (D) DJ as the T-lineage pattern (s)).
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PMID:[Analysis of T-cell receptor delta chain gene in hematological malignancies]. 132 69

We have investigated the frequency of p53 mutations in B- and T-cell human lymphoid malignancies, including acute lymphoblastic leukemia, the major subtypes of non-Hodgkin lymphoma, and chronic lymphocytic leukemia. p53 exons 5-9 were studied by using genomic DNA from 197 primary tumors and 27 cell lines by single-strand conformation polymorphism analysis and by direct sequencing of PCR-amplified fragments. Mutations were found associated with (i) Burkitt lymphoma (9/27 biopsies; 17/27 cell lines) and its leukemic counterpart L3-type B-cell acute lymphoblastic leukemia (5/9), both of which also carry activated c-myc oncogenes, and (ii) B-cell chronic lymphocytic leukemia (6/40) and, in particular, its stage of progression known as Richter's transformation (3/7). Mutations were not found at any significant frequency in other types of non-Hodgkin lymphoma or acute lymphoblastic leukemia. In many cases, only the mutated allele was detectable, implying loss of the normal allele. These results suggest that (i) significant differences in the frequency of p53 mutations are present among subtypes of neoplasms derived from the same tissue; (ii) p53 may play a role in tumor progression in B-cell chronic lymphocytic leukemia; (iii) the presence of both p53 loss/inactivation and c-myc oncogene activation may be important in the pathogenesis of Burkitt lymphoma and its leukemic form L3-type B-cell acute lymphoblastic leukemia.
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PMID:p53 mutations in human lymphoid malignancies: association with Burkitt lymphoma and chronic lymphocytic leukemia. 205 20

Lymphocyte adhesion to high endothelial venules, a central step during extravasation into lymphoid tissues, involves an 85 to 95-kD class of lymphocyte surface glycoproteins, which fall in the cluster of CD44 antigens. In this paper we describe the expression of this homing receptor glycoprotein during lymphoid development. CD44 expression was examined on a large panel of non-Hodgkin's lymphomas (n = 234) and lymphoid leukemias (n = 44). These tumors, which are the malignant counterparts of normal lymphoid cells "frozen" at a certain stage of maturation/activation, are thought to represent a complete spectrum of lymphoid development from stem cell to mature, activated T and B lymphocyte. It was found that CD44 exhibits a trimodal distribution on developing lymphocytes of both the T and B lineage: the CD44 antigen is expressed at relatively high levels during early stages of lymphoid differentiation, i.e., on prothymocytes and immature precursor B cells (null acute lymphoblastic leukemia (ALL) and common ALL). Subsequently, at the stage of the immature/common thymocyte, the pre-B cell and early B cell (pre-B-ALL and B-ALL), the CD44 antigen is temporarily lost from the cell surface to be reacquired during further T and B cell maturation. At the activated (germinal center) B cell stage. CD44 is heterogeneously expressed. This distribution pattern of the CD44 molecule closely matches the recirculatory versus sessile nature of lymphoid cells at consecutive phases of their development, and thus apparently reflects its homing receptor function. In addition, the relatively high expression of the CD44 antigen in the earliest phases of T and B cell development suggests that the molecule may also be involved in the migration of bone marrow derived lymphoid precursors to their site of maturation.
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PMID:Expression of a human homing receptor (CD44) in lymphoid malignancies and related stages of lymphoid development. 220 31

The non-Hodgkin's lymphomas are a clinically, morphologically, and immunologically heterogeneous group of diseases. Why lymphoma cells are unresponsive to normal regulatory growth controls and how they differ from normal lymphocytes are not well understood. In order to address these questions we have raised monoclonal antibodies to neoplastic B-cells. Two of these, LM-26 and LM-155, show a high degree of specificity for B-cell lymphomas. When tested by fluorescence activated cell sorter analysis, LM-26 reacted with 80% (18 of 23) of B-cell lymphomas freshly explanted from patients and LM-155 reacted with 20% (5 of 23). The antigenic determinant detected by LM-26 was also found to be present on four of seven neoplastic large cell B-lymphoma lines. LM-155 detected a determinant present on all seven of these lines. For neither monoclonal antibody was there any association between antibody reactivity and the morphological subtype of lymphoma examined or the type of cell surface immunoglobulin expressed. LM-155 reacted with one case of B-cell acute lymphoblastic leukemia. Neither antibody reacted with normal B-cell blasts, normal peripheral blood mononuclear or marrow cells, T-cell leukemias or lymphomas, or chronic lymphocytic leukemia cells. Lymphocytes from reactive lymphoid hyperplasias involving lymph nodes, spleen, peripheral blood, and lung were also negative for LM-26 and LM-155 binding or showed only a small percentage of cells positive (4-8%). Both monoclonals were unreactive with non-B-lymphoid neoplastic cell lines, nine of ten Epstein-Barr virus transformed B-cell lines, and cells freshly explanted from patients with cancers of diverse cellular origins. Fluorescence activated cell sorter analysis of the expression of the antigens defined by LM-26 and LM-155 on lymphoma cells and normal B-cell blasts suggests that they are not normal differentiation antigens associated with lymphocyte activation or proliferation. The highly restricted expression of detectable levels of antigens reactive with monoclonal antibodies LM-26 and LM-155 on non-Hodgkin's lymphoma cells suggests a possible relation to their neoplastic properties. From a practical viewpoint these monoclonals may prove useful in the diagnosis, classification, detection of residual disease, and treatment of the non-Hodgkin's lymphomas.
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PMID:Two monoclonal antibodies defining unique antigenic determinants on human B-lymphoma cells. 241 42

Clinical, hematological, and cytogenetic data of 32 patients with loss of part of the short arm of chromosome 9 (9p-) are reviewed. There were 20 acute lymphoblastic leukemia (ALL), seven non-Hodgkin lymphoma (NHL), three acute myeloid leukemia, one refractory anemia with excess blasts in transformation, and one chronic myeloid leukemia (CML) in blast crisis. The cytogenetic findings were heterogeneous: 13 cases of del(9)(p21), among them four as sole karyotypic change; five cases of del(9)(p12), three of them as sole karyotypic change; four patients with i(9q), three with unbalanced translocations involving 9p12; and seven with unbalanced translocations involving 9p21. In addition, 10 patients showed known specific translocations for determined subgroups of ALL, NHL, and CML. The immunological phenotypes in the 20 ALL patients were common ALL (35%), pre-B-ALL (35%), B-ALL (5%), T-ALL (15%), and null ALL (10%). Three NHL were of T cell origin and the others of B cell origin. No specific association between the karyotypic change, immunophenotype, and clinical presentation could be ascertained for patients with ALL, acute myeloid leukemia, CML in blast crisis, and B-NHL. In T-NHL, three children with deletion of 9p, T immunoblastic lymphoma originating from common thymocyte and presenting with a mediastinal mass and pleural effusion may constitute a definite subgroup with good prognosis. All other cases had a poor outcome. Previously suggested association of 9p- with T-ALL and "lymphomatous features" was not confirmed.
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PMID:Abnormalities of the short arm of chromosome 9 with partial loss of material in hematological disorders. 331 44

Two cases of Burkitt cell leukaemia (ALL3) occurring 60 and 51 months respectively after treatment of Hodgkin's disease (HD) are described. Clinical, cytological, immunological and cytogenetic features in these patients were comparable with those of the 6 previously published cases and with de novo ALL3. The prognosis of these secondary ALL3 is uniformly poor: our 2 patients died 2 and 14 days after the start of combination chemotherapy, and all the other cases survived less than 60 days after diagnosis. The significance of ALL3 occurring after HD is discussed: the association is probably not fortuitous, and its pathogenic mechanisms probably differ from those intervening in secondary myeloid leukaemias.
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PMID:[Acute lymphoblastic leukemia, Burkitt-cell type, after Hodgkin's disease. Study of 2 cases]. 333 Jun 7

Surface marker and gene rearrangement data have supported various hypotheses about the origin of the malignant cell in Hodgkin's disease. Cytogenetic data about this disorder, however, are very scanty. To determine if any chromosomal abnormalities that could add further information to this controversial point are present, we studied tumor samples from 49 patients. Abnormal metaphases were obtained in 18 cases. The most common breakpoints were in 11q23, 14q32, 6q11-21, and 8q22-24. These are common breakpoints in lymphoma and raise the possibility that the malignant cell in Hodgkin's disease may be derived from a lymphocyte. The 11q23 breakpoint is also seen in t(4;11) and t(9;11), which is typical of a type of childhood B-cell acute lymphoblastic leukemia characterized by the presence of aberrant myeloid and monocytic markers. Myeloid and monocytic markers are common in Reed-Sternberg cells.
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PMID:Cytogenetic features of Hodgkin's disease suggest possible origin from a lymphocyte. 337 Mar 10

The characterization of malignant lymphomas with immunological methods (immunophenotyping) is gaining increasing importance in clinical hematology. Immunophenotyping is not only a basis of modern classifications of non-Hodgkin's lymphomas (e.g. the Kiel classification), it can also be helpful in the differentiation of lymphomas from epithelial or mesenchymal tumors. The immunological identification of subgroups of acute lymphocytic leukemia (c-ALL, T-ALL and B-ALL) bears significant meaning for differential therapy. Other applications of immunophenotyping of malignant lymphomas in the near future will be the demonstration of receptors for certain lymphokines (e.g. for therapy with interleukin-2 or tumor-necrosis-factor), the detection of specific cell surface antigens (for immunotherapy with monoclonal antibodies) and the demonstration of immunological markers for resistance to cytotoxic drugs. A general application of immunophenotyping of malignant lymphomas in clinical hematology will depend on a better standardization of the immunological reagents, a simplification of logistic problems and a significant reduction of the costs.
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PMID:[Clinical relevance of immune phenotyping of malignant lymphomas]. 352 Apr 19

We have classified 200 cases of lymphoid leukemia and non-Hodgkin lymphoma (LL and L) typed with as many monoclonal antibodies as possible for each case in the WHO Leukemia and Lymphoma categorisation modified according to the today knowledge of normal cell differentiation. We have found that the lymphoid acute leukemias correspond respectively to normal differentiation steps: the [microblastic] to the polyvalent stem cell TdT+, Ia+, B4- or to the lymphoid progenitor TdT+, Ia+, B4-; the [prolymphoblastic T] to the prothymocyte TdT+, OKT11+, OKT10+, 9+, 6-, 4-, 8-; the [prolymphoblastic non T] to the B precursor B4+, B1+, J5+, C mu-, sIg-; the [T-macrolymphoblastic] to the OKT6+ thymocyte; the [B-macrolymphoblastic] to the large pre-B C mu+; the [prolymphocytic T] to the OKT6-, 3+, 4+ and 8+ thymocyte; the [prolymphocytic B] to the small pre-B C mu+; the Burkitt's leukemia to a pre-B cell transformed into a lymphoblastoid cell sIg mu. The B-CLL is constituted of sIg mu+, gamma-, Ia+, B4+, B1+, FC+ virgin lymphocytes and the T-cell either of OKT3+, 4+ or of 8+ peripheral T-lymphocyte, the mantle zone B- lymphoma is constituted of sIg mu+, FC- primary lymphocytes. The B-centro-follicular lymphomas are made of sIg mu+, delta+, gamma+ either small cell cleaved, or large cell. The Burkitt's and non-endemic Burkitt's lymphomas are made of transformed cells into sIg mu+ lymphoblastoid B-cells. We have described a non-blastic, non-Burkitt's, non-follicular, medium cell lymphoma sIg+. The B-immunoblastic lymphoma is sIg mu+, delta-, gamma+, FC+.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lymphoid leukemia and non-Hodgkin's lymphoma type continuum, superimposed to lymphocyte differentiation step continuum. A proposition for a revised W. H. O. lympiioid leukemia-lymphoma categorisation. 386 94

Malignant lymphomas and leukemias are related to maturation stages of distinct subpopulations of hematopoietic or lymphoid cells as defined by immunocytological methods. We first describe various monoclonal antibodies, and the methodology employed in our investigations and report on recent developments in the standardization of these reagents (part 1). The maturation sequence of normal lymphoid cells and their precursors in the bone marrow, thymus and the peripheral lymphoid organs are discussed in part 2. Typical immunomorphological findings in Non Hodgkin Lymphomas (NHL) are summarized in respect to lymphocytic NHL (CLL, lymphoplasmocytoid NHL, hairy cell and prolymphocytic leukemia, some lymphomas of peripheral T-lymphocytes), to NHL of follicular center cells (centroblastic-centrocytic, centrocytic NHL), to "large cell" NHL (centroblastic, immunoblastic NHL, large cell NHL derived from T-lymphocytes or "lymphomas" of macrophage origin) and to lymphoblastic NHL (derived from T-lymphocytes, pre-B lymphocytes and Burkitt-type). Findings in multiple myeloma are also summarized in part 3. Immunocytological features of the normal Myelo-, Mono-, Erythro- and Thrombopoieses are discussed in part 4. The reactivity of some monoclonal antibodies with precursor cells of these cells (CFU-GM, BFU-e and CFU-e, CFU-M) are also described. Finally we summarized the immune phenotype of acute leukemias (part 5) in respect to acute lymphoid leukemias (cALL, T-ALL, O-ALL, B-ALL), to acute non lymphoid leukemias (M1-M6 type according to the FAB-Classification) and to blastic stages of chronic leukemias.
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PMID:[Immunocytologic diagnosis of leukemia and lymphoma: monoclonal antibodies in the differential diagnosis of hematologic neoplasms]. 391 83

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