UNIPROT:Q06643 - FACTA Search

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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)

Both immunophenotypic overlaps between Hodgkin's disease (HD) and non-Hodgkin's lymphoma (NHL), and evolution of one into the other have been reported. However, the underlying assumption that the antigenic expression of Reed-Sternberg (RS) cells is consistent in the same patient has not been evaluated. Such an evaluation was undertaken by immunophenotyping paraffin-embedded lymphoid tissue biopsies with HD from 56 patients in whom multiple specimens were obtained, either simultaneously from different sites or at different times. The panel of antibodies we used included: CD3 polyclonal antiserum, DAKO-M1 (CD15), L26 (CD20), BerH2 (CD30), MT1 (CD43), DAKO-LCA (CD45RB), UCHL1 (CD45R0), LN2 (CD74), and DAKO-EMA. The phenotype of RS cells was identical in simultaneous biopsies in only 11 of 39 patients (28%) and remained constant in consecutive biopsies in only 4 of 21 patients (19%). Major differences (relative to cell lineage specific antigens) were observed in 10 of 39 patients with simultaneous biopsies and in 10 of 21 patients over time; they mainly involved expression of T-cell antigens. Minor differences (relative to any other antigen) were observed in 22 of 39 patients with simultaneous biopsies and in 15 of 21 patients over time; these mainly involved CD15 or CD74. This striking variability of the immunophenotype of RS cells in the same patient may be due to aberrant marker expression, as a result of the neoplastic state, and/or to modulation of antigenic expression in relation to the host environment. This inconsistency suggests caution when interpreting the relationship between HD and NHL by paraffin immunophenotyping alone.
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PMID:Inconsistency of the immunophenotype of Reed-Sternberg cells in simultaneous and consecutive specimens from the same patients. A paraffin section evaluation in 56 patients. 135 42

Primary mediastinal nonlymphoblastic non-Hodgkin's lymphoma (NLNHL) has distinct clinical, histologic (diffuse large-cell morphology, often with sclerosis and clear cytoplasm), and immunohistochemical features (predominantly B-cell lineage, usually immunoglobulin-negative), which suggest origin from a unique B-cell population. The thymus has a resident population of B cells with a unique immunophenotype, and can be involved by primary mediastinal NLNHL, in some cases selectively. Fifteen cases of NLNHL involving the thymus were studied by paraffin-section immunohistochemistry using antibodies to formalin-resistant epitopes of B cells (4KB5 [CD45RA] and L26 [CD20]) and T cells (L60 [CD43] and UCHL1 [CD45RO]). All were diffuse large-cell or immunoblastic lymphomas with sclerosis, and were also similar to primary mediastinal NLNHL in clinical features. Neoplastic cells stained with L26 in all but one case, which stained with 4KB5 and an antibody to a leukocyte-common antigen (PD7/26 [CD45RB]), and were uniformly nonreactive with L60 (with one exception) and UCHL1. Intermingled small lymphocytes were uniformly L26-negative and positive for T-cell markers, even in one case with atypia suggesting a lymphoma of mixed morphology. These findings demonstrate that primary thymic and primary mediastinal NLNHL are similar B-lineage neoplasms, and support previous suggestions that both may originate in thymic B cells.
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PMID:Primary large-cell lymphoma of the thymus: a diffuse B-cell neoplasm presenting as primary mediastinal lymphoma. 224 39

Diffuse large B cell lymphomas (DLBLs) represent a heterogeneous collection of aggressive non-Hodgkin's lymphomas that can arise either de novo or as a result of transformation from chronic lymphocytic leukemia, small lymphocytic lymphoma, follicular lymphomas, or lymphomas of mucosa-associated lymphoid tissue. A small percentage of DLBLs express the CD5 antigen. The majority of these cases have evolved from a pre-existing low grade non-Hodgkin's lymphoma (Richter's syndrome). However, we identified and characterized nine CD5-positive DLBLs in which the patients did not have a previous history or concomitant evidence of chronic lymphocytic leukemia, small lymphocytic lymphoma, follicular lymphoma, or mucosa-associated lymphoid tissue-associated non-Hodgkin's lymphoma, suggesting that they arose de novo. All nine cases expressed CD20 and monotypic immunoglobulin, all eight cases examined expressed CD19, CD22 and CD43, eight of the nine cases expressed HLA-DR, and two of eight cases expressed CD11c. None of the cases expressed CD3, CD10, CD11b, CD21, CD23 or CD30. CD5 expression by these cells was found to be identical to that of CD5-positive B cell chronic lymphocytic leukemia by quantitative polymerase chain reaction analysis of CD5 mRNA. These nine de novo CD5-positive DLBLs exhibited clonal immunoglobulin heavy and light chain gene rearrangements but lacked integration of the Epstein-Barr virus genome and structural alterations of the bcl-1, bcl-2, c-myc, H-ras, K-ras, and N-ras proto-oncogenes and the p53 tumor suppressor gene. However, bcl-6 proto-oncogene rearrangement, which is involved in chromosome band 3q27 aberrations, was found in four cases (44.4%). This is comparable with the frequency of bcl-6 gene rearrangement in CD5-negative DLBL. In contrast, bcl-6 gene rearrangement was absent in six cases of DLBL associated with Richter's syndrome. These findings suggest that de novo CD5-positive DLBLs are genotypically similar to CD5-negative DLBLs and may be pathogenetically distinct from the DLBLs associated with Richter's syndrome.
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PMID:De novo CD5-positive and Richter's syndrome-associated diffuse large B cell lymphomas are genotypically distinct. 754 11

In an attempt to correlate the morphologic and immunophenotypic findings in extramedullary myeloid cell tumors (EMT), we studied 28 cases with a large panel of antibodies using paraffin section immunohistochemistry. A previous or concurrent diagnosis of acute myelogenous leukemia or chronic myelogenous leukemia was made in 25 cases. Six EMT were morphologically classified as well differentiated (WD-EMT), 17 as poorly differentiated (PD-EMT), and five as blastic EMT. The WD-EMT were easily recognized morphologically and displayed a relatively mature myeloid phenotype, with elastase, CD15, and CD68 positivity in all cases. On the other hand, the five blastic-EMT displayed no morphologic evidence of myeloid derivation, were completely negative for CD15, and were weakly positive for elastase in only one case. The PD-EMT, with a morphologic appearance that resembles large cell non-Hodgkin's lymphoma, variably expressed CD15 and elastase. CD68 and lysozyme were present in the majority of PD-EMT, with some variability, but were negative in most blastic-EMT. CD45 (LCA) was detected in 75% of all EMT and CD34 was positive in 36%; neither antigen was significantly associated with a specific morphology. CD30 reactivity was not evident in any case, but slight positive staining was seen with CD20 (L26) in one WD-EMT. CD43 (Leu 22) was the only antibody that was positive in 100% of cases; staining was always intense and widespread. Antimyeloperoxidase (MPO) was positive in all cases but two, both with a blastic morphology. We conclude that (a) an immunohistochemical panel including CD20, CD43, CD68, and MPO can successfully identify the vast majority (96%) of EMT in paraffin sections, and (b) there is an association between morphology and phenotype in these lesions.
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PMID:Extramedullary myeloid cell tumors. An immunohistochemical and morphologic study of 28 cases. 837 41

The incidence of non-Hodgkin's lymphoma of the nasal region is much higher in Peru than in the United States and is similar to the incidence of sinonasal lymphomas in Asian countries. To characterize these lymphomas, we evaluated the clinical, morphologic, and immunohistochemical features of 14 cases and also analyzed the cases for Epstein-Barr virus (EBV) RNA using a sensitive and specific in situ hybridization method. Morphologically, the cases consisted of nine large cell immunoblastic lymphomas, one diffuse mixed cell lymphoma, one diffuse small cleaved lymphoma, one small noncleaved lymphoma, and two cases unclassifiable in the Working Formulation. Eleven cases demonstrated evidence of T lineage, two were of B lineage and one of indeterminate immunophenotype. In 13 of the lymphoma cases including all of the T-cell lymphomas, EBV RNA was detected in a high percentage of cells. Double-labeling immunohistochemical and in situ hybridization studies identified CD43 positivity in the cells labeling for EBV RNA. Much smaller amounts of EBV RNA were detectable in six of eight control benign nasopharyngeal biopsy specimens, and two were completely negative. These findings are similar to the prevalence of EBV-positive T-cell lymphomas in Asian countries and differ from the findings of the more common EBV-negative B-cell nasal lymphomas in the United States. These findings suggest that EBV plays a role in the development of nasal T-cell lymphomas and that the incidence of EBV infection may explain the reported "East-West" difference in the incidence of nasal T-cell lymphomas.
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PMID:Nasal lymphomas in Peru. High incidence of T-cell immunophenotype and Epstein-Barr virus infection. 821 68

We report a patient with acute myeloid leukemia (AML) presenting with generalized lymphadenopathy, clinically stimulating aggressive non-Hodgkin's lymphoma. This patient presented with anemia and bulky lymphadenopathy in the oropharyngeal (Waldeyer's ring), submandibular, supraclavicular and inguinal nodal regions. Lymph node biopsy was initially suggestive of a T-cell lymphoblastic lymphoma, based on morphologic features together with positive immunohistochemical staining for CD7 and CD43 (Leu 22). Definitive diagnosis of AML was established when a more detailed immunophenotypic analysis showed expression of the myeloid markers CD13 and CD33, and by the demonstration of rare Auer rods and positive peroxidase staining in bone marrow blast cells. Although this is a rare presentation, AML must always be considered in the clinical and pathologic differential diagnosis of aggressive non-Hodgkin's lymphoma.
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PMID:Acute myelogenous leukemia presenting with bulky lymphadenopathy. Case report and literature review. 863 42

An increased prevalence of intermediate- and high-grade B-cell non-Hodgkin's lymphoma (NHL) is a major manifestation of the disease spectrum associated with human immunodeficiency virus (HIV) infection. Rarely, lymphoproliferations are of T-cell, null cell, or mixed-lineage phenotypes. We describe an unusual B-cell NHL that presented as a left alar ulcer in a man with acquired immunodeficiency syndrome (AIDS) and rectal carcinoma. Biopsy of the lesion and a draining cervical lymph node showed atypical dermal lymphoid infiltration with effacement of nodal architecture and involvement of adjacent skeletal muscle by a diffuse infiltrate of large and small lymphocytes. On paraffin section immunochemistry, the large lymphoid cells expressed CD45 and CD45RO, but not CD43 or CD20. The small background cells were positive for CD3, CD43, and CD45RO. These overall results were consistent with a diagnosis of a T-cell process. Gene rearrangement studies, however, demonstrated a clonal B-cell population indicative of B-cell NHL. The clinical course was marked by rapid shrinkage of tumor with chemotherapy followed by profound wasting and death. Anomalous coexpression or lack of expression of T- and B-cell markers may be seen in AIDS-related NHL. Reliance on paraffin section immunohistology may provide misleading information, and caution is recommended in assigning a specific lineage to such lymphoproliferations without additional immunologic or genotypic analyses. Whether our case represents a distinct clinicopathologic entity or is simply a peculiar manifestation of HIV-related B-cell NHL remains uncertain.
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PMID:AIDS-associated B-cell non-Hodgkin's lymphoma masquerading as a cutaneous T-cell neoplasm: an aberrant immunophenotype requiring comprehensive analysis for lineage resolution. 905 57

Anaplastic large cell lymphoma (ALCL) is an uncommon non-Hodgkin's lymphoma in the general population as well as in HIV-infected patients. Ordinarily, ALCL expresses T-cell phenotype, but lymphoproliferative disorders derived from T cells rarely occur in acquired immunodeficiency syndrome (AIDS). We describe a white male homosexual with AIDS who had bilateral pleural effusions. Examination of the pleural fluid revealed ALCL positive for Ki-1 (CD30), LCA (CD45), UCHL-1 (CD45RO), CD43, CD3, and epithelial membrane antigen. The lymphoma was negative for the B-cell marker L26 (CD20) and for Leu-M1 (CD15). The T-cell origin was also confirmed by the monoclonal rearrangement of the T-cell receptor beta chain gene. A review of other cases of ALCL in HIV-positive individuals shows variability in clinical presentation and biologic behavior of this lymphoma type. It also points to the potential contribution of gene rearrangement studies for recognition of phenotype. In addition, the role of determination of the presence of t(2;5) and the corresponding gene product is discussed.
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PMID:Anaplastic large cell lymphoma of T-cell phenotype in acquired immunodeficiency syndrome. 916 83

Inflammatory malignant fibrous histiocytoma (IMFH), consisting of large, atypical histiocyte-like cells set amidst an inflammatory backdrop of eosinophils, neutrophils, lymphocytes, and xanthoma cells, can be difficult to distinguish from Hodgkin's disease and non-Hodgkin's lymphoma, particularly of the Ki-1 anaplastic large-cell type in small biopsy specimens. This problem is becoming more prevalent with the use of needle biopsies guided by computed tomography for definitive diagnosis. For this reason, we studied the expression of a battery of leukocyte markers in IMFH to evaluate whether they could serve as an independently reliable means of distinguishing amongst the three neoplasms. Eight examples of histologically typical IMFH were stained with a number of leukocyte markers that included CD30 (BerH2), CD15 (leuM1), CD45/ CD45RB (2B11,PD7/26/16), CD43 (leu 22), CD45RO (A6), CD20 (L26), and CD68 (KPI). The large anaplastic tumor cells within IMFH consistently lacked CD30, CD15, CD45/CD45RB, CD43, CD45RO, and CD20. In one case, the anaplastic cells expressed CD68. Benign histiocytes within IMFH expressed CD68 and displayed variable expression of CD15, CD45/CD45RB, and CD43. The reactive lymphocytes consisted mostly of scattered small T cells with a few B cells, mainly within lymphoid aggregates. We conclude that the immunophenotypic profile of the anaplastic cells in IMFH (lack of CD15, CD30, CD43, CD45/CD45RB, CD45RO, CD20) differs from most cases of Hodgkin's disease (ICD30+, CD15+/-) and from Ki-1 anaplastic large cell lymphoma (CD30+, CD45/CD45RB+/-, CD43+/-, CD45RO+/-, CD20-/+). Immunohistochemistry is an important diagnostic adjunct, provided care is taken to exclude benign histiocytes and inflammatory cells from consideration.
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PMID:Inflammatory malignant fibrous histiocytoma: distinction from Hodgkin's disease and non-Hodgkin's lymphoma by a panel of leukocyte markers. 916 Mar 7

Mantle cell lymphomas comprise 2 to 8% of non-Hodgkin's lymphoma in the United States. They occur in older adults with a distinct male predominance, who present with generalized lymphadenopathy, and often have disseminated disease at the time of diagnosis. Pathologically, mantle cell lymphomas are characterized by a proliferation of small lymphocytes, with irregular nuclei, clumped chromatin, and sparse cytoplasm that can grow in nodular or diffuse patterns in lymph nodes, that localize to the splenic white pulp and that produce interstitial, paratrabecular, and intertrabecular lymphoid aggregates in the bone marrow. Phenotypically, mantle cell lymphomas are B cell neoplasms that express pan B cell lineage antigens, CD5 and CD43, and that are negative for CD10 and CD23. On a genetic level, many cases of mantle cell lymphomas have the t(11;14)(q13;q32) that causes overexpression of cyclin-D1, a protein that can be demonstrated by immunohistochemistry in many examples of mantle cell lymphoma and that can be exploited diagnostically to distinguish mantle cell lymphomas from other low-grade B cell lymphoproliferative disorders. The differential diagnosis of mantle cell lymphoma includes small B cell lymphoma, lymphoplasmacytic lymphoma, nodal, extranodal, and splenic marginal zone lymphomas, and follicular small cleaved cell lymphoma. In most instances, these disorders can be separated from one another by morphology, distinctive immunophenotypic profiles, and genetic features.
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PMID:Mantle cell lymphoma. 1009 79

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