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Query: UNIPROT:Q06643 (
non-Hodgkin's lymphoma
)
11,307
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This study reports six
non-Hodgkin's lymphoma
cases that we called histiocyte-rich B-cell lymphoma (BCL) because of the prominent reactive histiocytic infiltrate obscuring the malignant B-cell population. The involved lymph nodes are characterized by a mixed nodular and diffuse infiltrate and occasionally feature prominent sinuses. The infiltrate is composed of reactive lymphocytes and numerous histiocytes obscuring a tumor population composed of variably sized scattered cells with irregular or multilobar vesicular nuclei. Immunostaining of paraffin sections for the B-cell marker recognized by L26 helps in the identification of these neoplastic cells. The clonal nature and further evidence of the B-cell lineage of this condition is shown by immunoglobulin gene rearrangements detected in three cases. The six cases of histiocyte-rich BCL are remarkably similar clinically: all presented with stage IVB disease with splenomegaly and follow an aggressive clinical course. Except for these features, our series show striking similarities to paragranuloma lymphocyte-predominant Hodgkin's disease, including male preponderance (all patients are male), age distribution (mean age, 41 years), propensity to progress to a diffuse, large B-cell lymphoma (two cases), as well as morphology of the neoplastic B-cell population and expression of Hodgkin's cell markers (Leu-M1 positivity after
neuraminidase
digestion in three cases, Leu-M1 positivity without
neuraminidase
digestion in one case, and additional epithelial membrane antigen [EMA] positivity in two cases). Both morphologically and clinically, the present series can be differentiated from other types of infiltrate-rich BCL, such as T-cell-rich BCL. Although additional cases will have to be recognized, histiocyte-rich B-cell lymphoma most likely represents a distinct clinicopathological entity. We speculate that it develops from a subset of B cells that also gives rise to the lymphocytic-histiocytic (L/H) cell, the Hodgkin's cell variant of lymphocyte-predominant Hodgkin's disease, paragranuloma subtype.
...
PMID:Histiocyte-rich B-cell lymphoma. A distinct clinicopathologic entity possibly related to lymphocyte predominant Hodgkin's disease, paragranuloma subtype. 172 95
A murine monoclonal antibody has been produced which identifies a novel human leucocyte differentiation antigen. The antibody, designated WM-66, of IgM subclass, was cytolytic with human complement. WM-66 was shown to react with virtually all normal T and B lymphocytes from peripheral blood and lymphoid tissues, as well as blood monocytes and approximately 40% of bone marrow mononuclear cells. The antibody also bound to the majority of cases of chronic B-cell malignancies, including chronic lymphatic leukaemia and
non-Hodgkin's lymphoma
, but not to cases of acute leukaemia or to the majority of leukaemic and lymphoblastoid cell lines. WM-66 also reacted with epithelium of bronchus and salivary gland ducts. A single band of relative molecular mass 65,000 Daltons was immunoprecipitated from membrane extracts of normal lymphocytes and the B-cell line Daudi. Treatment of a number of WM-66-negative B-cell lines with
neuraminidase
resulted in WM-66 binding, indicating that the antigen exists in a covert form masked by sialic acid residues on a wider spectrum of cell types than was initially apparent. The reactivity pattern of WM-66 indicates that it recognises a previously undescribed surface membrane molecule with broad non-lineage-specific distribution on leucocytes. This has recently been confirmed at the Fourth International Workshop on Human Leucocyte Differentiation Antigens. Although the biological function of the molecule recognised by WM-66 is unknown, the lytic properties of the antibody suggest a possible in vivo therapeutic role as an immunosuppressant or for treatment of lymphoid malignancy.
...
PMID:A novel human leucocyte surface membrane antigen defined by murine monoclonal antibody. 224 85
The majority of lymphoid cells from a patient with
non-Hodgkin's lymphoma
with leukemic transformation were demonstrated to carry receptors for both sheep erythrocytes and complements by the combined rosette assay using
neuraminidase
-treated sheep erythrocytes and complement-coated zymosan beads. Most of them were considered morphologically lymphoblasts and were positive for acid phosphatase staining. Terminal deoxynucleotidyl transferase activity was not detected in these cells. Lymphoid cells from this patient did not respond to the stimulation with phytohemagglutinin-P, concanavalin-A, and pokeweed mitogen (PWM). When these cells were cultured with PWM for 7 days, no plasma cell was generated. Although only a few plasma cells were generated in the PWM-stimulated culture of normal purified B cells alone, the addition of the patient's cells to purified normal B cells resulted in a markedly enhanced generation of plasma cells in response to PWM, as was the case with normal T cells. But leukemic cells either from a patient with T-cell leukemia not having complement receptors or from a patient with null-cell leukemia showed no enhancing ability in B-cell differentiation. In addition, the culture supernates of the patient's cells obtained after 24-hr PWM stimulation had an ability to promote B-cell differentiation comparable in activity to those from the PWM-stimulated normal T cells.
...
PMID:Humoral helper activity for B-cell differentiation released from non-Hodgkin's lymphoma cells having both SRBC and complement receptors in the pokeweed mitogen system. 697 66
Using rosetting tests with untreated mouse erythrocytes (M) and pronase-treated M (pro M), four human B cell subsets can be identified. Three of these, possessing the phenotypes BM+ pro M+, BM- pro M+ or BM- pro M-, constitute 17%, 61% and 22% of normal blood B cells respectively. The fourth subset, BM+ pro M-, does not occur in normal tissues but was found in the pre-B-cell line of Raji cells, indicating that this phenotype may be a marker for early B cells. Some differences in the proportion of each subset were found in cord blood, lymph nodes and tonsils. Surface-immunoglobulin-positive (SIg+) and -negative (SIg-) non-T cells were present in each subset. M and pro-M rosetting tests were applied to cells from blood of 27 cases of chronic lymphocytic leukaemia (CLL) and to cells from involved nodes, spleen or marrow in five cases of
non-Hodgkin's lymphoma
(
NHL
). In 15 cases of CLL, there was considerable increase in the BM+ pro M+ subset (BM+ pro M+ type CLL); in seven cases, there was a predominance of BM- pro M+ cells and in another four cases, BM- pro M- cells predominated. All five cases of
NHL
were greatly enriched in BM- pro M- cells. There was no obvious correlation between rosetting and other surface markers but BM- pro M- clones in CLL or
NHL
always stained brightly with FITC-anti-Ig. This was not found in BM+ pro M+ or BM- pro M+ clones. Rosette formation of
neuraminidase
-treated B cells with M identifies the same subset as B-pro-M rosetting in normals and CLL. Evidence is presented that two types of receptors are involved in M and pro-M rosetting, designated R1 and R2, binding to corresponding M ligands L1 and L2. M rosetting is due to R1-L1 binding while R2-L2 binding mediates B-pro-M rosetting. Shifts between subsets within the same clone in some cases of CLL suggest that the subsets are distinct maturational stage of B-cell development rather than families of B cells of different lineage. The following B-cell maturation sequence is proposed: R1+ R2- lead to R1+ R2+ leads to R1- R2+ leads to R1- R2-.
...
PMID:Two maturation-associated mouse erythrocyte receptors of human B cells. I. Identification of four human B-cell subsets. 697 83
