Leukaemic presentation of small cell variant anaplastic large cell lymphoma: report of four cases

Bayle, C; Charpentier, Agnès; Duchayne, Éliane; Manel, Anne‐Marie; Pagès, Marie-Pierre; Robert, Alain; Lamant, Laurence; Dastugue, Nicole; Bertrand, Yves; Dijoud, Frédérique; Émile, Jean-François; Machover, D.; Brugières, Laurence; Delsol, Georges

doi:10.1046/j.1365-2141.1999.01238.x

Cited by 83 publications

(56 citation statements)

References 35 publications

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“…This evidence suggests at least the staining for CD30 and p80 in the small cells in the lymph node was only weakly positive. Furthermore, negative staining of small cells in peripheral blood for CD30 in the present case was consistent with the observation reported by Bayle et al [12]. In this study, we found that p80 was not detected in small cells in peripheral blood.…”

Section: Discussionsupporting

confidence: 82%

“…However, lymphoma cells (independently of cell size) in peripheral blood were unexpectedly nonreactive with the same antibodies. What is intriguing is that previous reports [12,13] showed that, in contrast to the positive nuclear and cytoplasmic staining of ALK (detected by ALK1 antibody) in large cells of the lymph node, the staining in small cells was weak and restricted to the nucleus. In those studies, the same tendency was observed in the staining for CD30 of small cells of the lymph node.…”

Section: Discussionmentioning

confidence: 45%

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CD30 and the NPM‐ALK fusion protein (p80) are differentially expressed between peripheral blood and bone marrow in primary small cell variant of anaplastic large cell lymphoma

et al. 2002

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The t(2;5)(p23;q35) translocation results in the formation of a unique chimeric NPM-ALK protein (p80). Expression of this protein is considered to be one of the clinical features of anaplastic large cell lymphoma (ALCL). Recently recognized as one clinical subtype of ALCL, the small cell variant is prone to have a leukemic presentation. Although the small cell variant has been recognized as a subtype of ALCL, the clinical properties of this subtype, especially the immunophenotype of lymphoma cells in peripheral blood, have not yet been fully described. This report shows that neither CD30 nor p80 is detected by immunostaining in the predominant small cell malignant clone and also in large lymphoma cells in peripheral blood, while large cells and occasionally observed small cells in bone marrow were found to be positive for CD30 and p80. Our ®ndings suggest that differential expression of CD30 and p80 between peripheral blood and bone marrow lymphoma cells is a property of the small cell variant of ALCL. Am.

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Section: Discussionsupporting

confidence: 82%

Section: Discussionmentioning

confidence: 45%

CD30 and the NPM‐ALK fusion protein (p80) are differentially expressed between peripheral blood and bone marrow in primary small cell variant of anaplastic large cell lymphoma

et al. 2002

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“…228,230,236,237 There is no reason, however, to think of this as a different disease, although spread of the disease to the peripheral blood and bone marrow may be more likely in cases of this sort. 248,249 ALK-positive lymphomas usually express T-cell markers and/or cytotoxic granule proteins, CD30, and epithelial membrane antigen and c-Myc. 219,222,228,230,250 Unlike ALK-negative cases, ALKpositive ALCLs are consistently BCL2 negative.…”

Section: The (2;5)(p23;q35) Translocation and Its Variantsmentioning

confidence: 99%

Proteins encoded by genes involved in chromosomal alterations in lymphoma and leukemia: clinical value of their detection by immunocytochemistry

Falini

Mason

2002

Blood

176

147

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IntroductionTranslocations, deletions, and other nonrandom chromosomal abnormalities 1,2 play a central role in the pathogenesis of many human hematologic malignant diseases. A growing number of studies are revealing the ways in which these chromosomal alterations affect specific genes, such as those encoding nuclear transcription factors. However, any gene implicated in the neoplastic process can act only through the protein it encodes. Many of the consequences of chromosomal changes with respect to abnormal protein expression have been inferred indirectly by analysis of messenger RNA (mRNA) transcription, but it is clear that protein and mRNA levels do not always correlate. For example, germinalcenter B cells appear to contain BCL-2 message but little protein, 3,4 and the same is true for TAL-1 in erythroid cells. 5 Many examples of the opposite combination (high protein and little or no message) also exist, such as BCL-2 in mature lymphocytes 6,7 and elastase in mature myeloid cells. 8 Antibody-based detection of the protein is therefore required, but this frequently cannot be done because of a lack of suitable reagents. Consequently, we are often ignorant not only about patterns of expression of oncogenic proteins in hematologic neoplasms but also about possible abnormalities in the distribution and subcellular localization of these proteins.Most of the currently recognized genetic alterations in human leukemias and lymphomas result in either activation of a quiescent gene or creation of a hybrid gene encoding a chimeric protein. Table 1 summarizes the genetic abnormalities that have been studied using antibodies specific for the protein products of genes involved in such rearrangements. We here review the immunocytochemical studies that have been done with these antibodies and assess, for each protein, whether abnormalities demonstrable by immunocytochemistry are of clinical value in determining diagnosis or predicting prognosis. Immunocytochemical findings that are of value are discussed below, whereas those for which no clear clinical applications have been observed are described briefly in Table 2. Genes activated by chromosomal changesThe CCND1 (BCL-1) gene and its protein product (cyclin D1) CCND1 (BCL-1) gene. The (11;14)(q13;q32) translocation, 9 an anomaly often found in mantle cell (centrocytic) lymphoma 10,11 and occasionally in other B-cell neoplasms, notably myeloma, 12,13 From For personal use only. on May 12, 2018. by guest www.bloodjournal.org From juxtaposes the CCND1 (BCL-1) locus encoding cyclin D1 on chromosome 11 to an immunoglobulin-enhancer sequence on chromosome 14. 9 The CCND1 gene is transcriptionally silent in normal lymphohemopoietic tissues 14,15 ; thus, expression of the protein may promote neoplastic cell proliferation by perpetuating the transition from G 1 to S. 16 Antibodies to cyclin D1. Several antibodies recognizing cyclin D1 have been described (Table 3), [14][15][16][17][18] but hematopathologists know that immunocytochemical detection of cyclin D1 in routinely processe...

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“…Presentation of ALCL in a leukemic phase, either at presentation or at relapse, has rarely been reported, mostly as case reports [9,10]. Two small series of four and three pediatric patients with ALK+ ALCL with a leukemic phase were reported by Bayle et al [13] and Onciu et al [8], respectively. In the most recent series [8], a review of the literature showed only 12 total reported cases, nine of which were pediatric patients.…”

Section: Discussionmentioning

confidence: 99%

Pediatric ALK+ anaplastic large cell lymphoma with t(3;8)(q26.2;q24) translocation and c‐myc rearrangement terminating in a leukemic phase

et al. 2006

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Pediatric ALK-positive anaplastic large cell lymphoma (ALK+ ALCL) is usually associated with a favorable prognosis. ALK+ ALCL associated with a leukemic phase is uncommon, but has been associated with an aggressive clinical course and unfavorable prognosis. Overexpression of c-myc has been shown to be a consistent finding in ALK+, but not ALK-negative ALCL (ALKÀ ALCL), and the c-myc gene is considered a downstream target of deregulated ALK signaling. We describe a pediatric ALK+ ALCL with a leukemic phase at relapse. Similar to other rare cases described in the literature, it followed an aggressive clinical course despite multiple regimens of chemotherapy and bone marrow transplantation. Lymphoma cells showed aberrant ALK expression and c-myc overexpression. In addition to the characteristic t(2;5)(p23;q35) translocation, a t(3;8)(q26.2;q24) translocation was also present, and c-myc

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Leukaemic presentation of small cell variant anaplastic large cell lymphoma: report of four cases

Cited by 83 publications

References 35 publications

CD30 and the NPM‐ALK fusion protein (p80) are differentially expressed between peripheral blood and bone marrow in primary small cell variant of anaplastic large cell lymphoma

CD30 and the NPM‐ALK fusion protein (p80) are differentially expressed between peripheral blood and bone marrow in primary small cell variant of anaplastic large cell lymphoma

Proteins encoded by genes involved in chromosomal alterations in lymphoma and leukemia: clinical value of their detection by immunocytochemistry

Pediatric ALK+ anaplastic large cell lymphoma with t(3;8)(q26.2;q24) translocation and c‐myc rearrangement terminating in a leukemic phase

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