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Query: UNIPROT:P15088 (mast cell)
 14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The REAL Classification of lymphomas, proposed in 1994, represents a new paradigm in lymphoma classification, consisting of a list of biologic entities defined by clinicopathologic and immunogenetic features. The non-Hodgkin's lymphomas comprise precursor lymphoblastic and mature cell neoplasms of B, T or putative natural killer cell lineage. An individual entity can exhibit a range of morphologic appearances and a range of clinical behavior. The categories in Hodgkin's lymphomas are identical to the widely used Rye classification except for the additional of a new category termed 'lymphocyte-rich classical Hodgkin's lymphoma'. The REAL classification has been validated by a major multi-institutional study involving 1378 cases (The Non-Hodgkin's Lymphoma Classification Project), showing that it is both reproducible and clinically relevant. The new World Health Organization classification of hematopoietic and lymphoid tumors, to be published in 2001, is a joint project of the Society for Hematopathology and European Association of Hematopathologists, under the auspices of the World Health Organization. This classification includes not only lymphoid neoplasms, but also myeloid, histiocytic and mast cell neoplasms. The lymphoma component of the classification is merely an update of the REAL classification, with minor changes necessitated by new information that has become available since its proposal. A conceptual grouping of the non-Hodgkin's lymphomas into four categories (indolent, aggressive, highly aggressive, and localized indolent) is also presented in this review. The next major impetus influencing the approach to lymphoma classification will no doubt be molecular genetics, in particular DNA microarrays, which will yield an enormous amount of new data that will aid in the understanding of lymphomas.
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PMID:The new World Health Organization classification of lymphomas: the past, the present and the future. 1175 90

Although systemic mastocytosis (SM) is a well-defined hematologic neoplasm, it is sometimes difficult to discriminate between SM and a reactive mast cell (MC) hyperplasia. We describe a patient with aplastic anemia who was treated with recombinant stem cell factor (SCF). In response to SCF, the patient showed transient hematologic improvement and developed a marked increase in MC as well as a transient increase in serum tryptase. Histologic and immunohistochemical examination revealed a huge increase in MC in the bone marrow with focal infiltrates similar to SM. However, most of the SM-criteria were not met: First, MC showed normal cytomorphological characteristics without significant atypias (no cytoplasmic extensions, no oval nuclei, no hypogranulated cytoplasm). Furthermore, bone marrow MC were CD2- and CD25-negative and did not exhibit the C-KIT 2468 A-->T mutation (Asp-816-Val). After discontinuation of SCF the MC hyperplasia resolved confirming its reactive nature. Based on our case and similar cases mimicking mastocytosis, it seems of importance to apply recently established SM criteria in order to discriminate between reactive MC hyperplasia and true mastocytosis with certainty.
Leuk Lymphoma 2002 Mar
PMID:Stem cell factor-induced bone marrow mast cell hyperplasia mimicking systemic mastocytosis (SM): histopathologic and morphologic evaluation with special reference to recently established SM-criteria. 1200 61

The principles of the new WHO classification of haematopoietic and lymphoid tumours are based on those defined in the Revised European American classification of Lymphoid neoplasms (REAL), published by the International Lymphoma Study Group (ILSG) in 1994. Thus, the new WHO classification may be considered an updated version of the REAL classification rather than of the old WHO classification published in 1976. Disease entities are defined on the basis of morphological, phenotypic, genotypic, and clinical data. The relative impact of these characteristics varies among different diseases and there is "no gold standard". Thus, the strict hierarchy among diagnostic criteria, headed by morphology and followed by immunohistochemistry and genetics, has been discontinued. The WHO classification not only encompasses lymphoid tumours but extends to myeloid, mast cell and histiocytic/dendritic cell malignancies. Neoplasms are primarily stratified according to their tumour cell lineage. For each neoplasm a cell of origin is postulated. The classification of lymphoid malignancies recognises three major categories, B-cell neoplasms, T-/NK-cell neoplasms, and Hodgkin lymphomas. B-cell and T-cell lymphomas are further divided into precursor neoplasms and mature neoplasms, the latter being subdivided according to their clinical manifestation into disseminated/leukaemic, extranodal and nodal malignancies. In contrast to previous classifications, the neoplasms are grouped neither according to their histological grade (Kiel classification) nor according to their clinical aggressiveness (International Working Formulation). However, the histological grade is considered a prognostic factor which enters into the description of each disease entity. Hodgkin's disease, now more appropriately termed Hodgkin lymphoma, comprises nodular lymphocyte-predominant Hodgkin lymphoma and classical Hodgkin lymphomas of nodular sclerosis, mixed cellularity, lymphocyte-depleted and lymphocyte-rich subtype. For practical purposes this minireview disregards the description of myeloid, macrophage/histiocytic, dendritic cell and mast cell disorders. Furthermore, the present paper is restricted to those lymphoid tumours that are not already identically described in the REAL classification, in order to focus on what is really new in the WHO classification.
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PMID:Who is WHO and what was REAL? 1258 44

Despite maturation arrest, blast cells in acute myeloid leukemia (AML) are often capable of expressing lineage-restricted (granulomonocytic or myelomastocytic) differentiation antigens. Tryptases are lineage-associated serine proteases primarily expressed in mast cells, and less abundantly in blood basophils. We have recently shown that myeloblasts in a group of patients with AML (approximately 40%) produce significant amounts of tryptase(s). In these patients, serum tryptase levels are elevated (> 15 ng/ml) and reflect the total burden of leukemic cells. In most cases, myeloblasts express alpha-tryptase mRNA in excess over beta-tryptase mRNA, and secrete the respective protein (= pro-alpha-tryptase) in a constitutive manner. It was also found that these AML blasts frequentlyco-express tryptase with additional mast cell lineage- and/or basophil-related differentiation antigens including KIT (CD117), histamine, and 2D7. We hypothesize that tryptase-positive AMLs arise from a leukemic progenitor that exhibits a limited potential to differentiate into mast cells and/or basophils.
Leuk Lymphoma 2002 Dec
PMID:Tryptase a novel biochemical marker of acute myeloid leukemia. 1261 10

Mastocytosis comprises a heterogeneous group of hematological disorders which are morphologically defined by proliferation and accumulation of tissue mast cells in one or more organs. Clinical manifestations of mastocytosis range from disseminated maculopapular skin lesions (= urticaria pigmentosa [UP]) that may spontaneously regress to highly aggressive neoplasms like mast cell leukemia or mast cell sarcoma. Recently, it could be shown that systemic mastocytosis (SM) is a clonal disorder often exhibiting mutations of c-kit, a protooncogene encoding the tyrosine kinase receptor for stem cell factor (SCF). Mutations of c-kit are considered to play a key role in the pathogenesis of mastocytosis. Therefore, we investigated the unique case of a 36 year-old male patient with indolent systemic mastocytosis (ISM) evolving from UP (cutaneous mastocytosis) by means of histology, immunophenotyping and molecular biology. At the time of initial diagnosis the bone marrow showed only a mild diffuse increase in mast cells but compact infiltrates were missing. The serum tryptase levels were normal. Five years later, however, the bone marrow histology displayed patchycompact mast cell infiltrates, which now allowed to establish the diagnosis of an ISM. The serum tryptase levels at this time were markedly elevated. At both time points, mast cells were analyzed by immunohistochemistry using anti-tryptase antibody AA1, by flow cytometry using antibodies against CD2 and CD25, and nested polymerase chain reaction (PCR) on laser-microdissected, single pooled mast cells. Immunohistochemistry revealed strong tryptase-positivity of mast cells in both cutaneous and bone marrow infiltrates. Flow cytometry yielded an aberrant expression of CD2 and CD25 on bone marrow mast cells. However, repeated thorough PCR analysis failed to unveil c-kit mutation in atypical mast cells of skin and bone marrow samples of both dates. These findings clearly show that ISM can evolve from UP. Moreover, our study provides further evidence that the c-kit mutation Asp-816-Val is not invariably present in ISM.
Leuk Lymphoma 2003 Feb
PMID:Evolution of urticaria pigmentosa into indolent systemic mastocytosis: abnormal immunophenotype of mast cells without evidence of c-kit mutation ASP-816-VAL. 1268 51

Immunophenotyping has become an essential tool for diagnosis of hematological malignancies. By contrast, for diagnosis of Waldenstrom's macroglobulinemia (WM) immunophenotyping is used only occasionally. From 150 patients with a IgM monoclonal gammopathy we have selected 60 cases with (1) morphological lymphoplasmocytoid bone marrow (BM) infiltration (>20%); (2) IgM paraprotein (>10g/L); and (3) absence of features of other lymphoma types. Immunophenotypic analysis was based on the use of the triple or quadruple monoclonal antibody (MoAb) combinations. To increase the sensitivity of the analysis of antigen expression, selected CD19(+)CD20(+) B cells were targeted. We have also explored the antigenic characteristics of both the plasma cell (PC) and mast cell (MC) compartments present in the BM from 15 WM patients. Clonal WM lymphocytes were characterized by the constant expression of pan-B markers (CD19, CD20, CD22, CD24) together with sIg, predominantly kappa (5:1, kappa:lambda ratio). A high proportion of cases (75%) were positive for FMC7 and CD25, but in contrast to hairy cell leukemia (HCL), these lymphocytes were always negative for CD103 and CD11c. CD10 antigen was also absent in all WM patients and less than one fifth of patients were positive for CD5 and CD23, while CD27, CD45RA, and BCL-2 were present in most malignant cells. In two cases, the coexistence of two different clones of B lymphocytes was identified, and in eight additional cases, intraclonal phenotypic heterogeneity was observed. As far as PCs are concerned, in most patients (85%) the number of PCs was within the normal range (median, 0.36%). The antigenic profile of these PCs differed from that observed in normal and myelomatous PC (CD38(++)CD19(++/-)CD56(-)CD45(++)CD20(+)). In three cases, PCs showed aberrant expression for CD5, CD22, or FMC7. Finally, the number of mast cells was significantly higher (0.058 +/- 0.13) as compared to normal BM (0.019 +/- 0.02) (P <.01), although they were immunophenotypically normal (CD117(+)CD2(-)CD25(-)).
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PMID:Immunophenotypic analysis of Waldenstrom's macroglobulinemia. 1272 Jan 34

The diagnosis, staging, and treatment of tumors in veterinary as well as human oncology have traditionally incorporated elements of anatomic extent of neoplasia through various clinical and pathologic methods. These clinicopathological methods have been the basis for the development of the tumor, node, and metastasis and grading systems, which have translated into clinically significant advances over the last 20 to 30 years. Unfortunately, there continues to be significant limitations to this system when prognostication and therapeutic decisions need to be made specific to a patient. For example, completely resected and cleanly staged phenotypically identical grade II mast cell tumors in dogs can have opposing clinical outcomes. In addition, dogs or cats with identical stage and grade lymphoma can have significantly divergent responses to the same multi-agent chemotherapy protocol. Numerous nonanatomic neoplastic molecular prognostic factors have been recently identified and have the potential to improve on the presently available tumor, node, and metastasis- and grading-based systems. To date in human oncology, single nonanatomic factors have only occasionally translated into efficient and independent prognostic factors, which speaks to the heterogeneity of cancer. Therefore, the use of panels of factors have been encouraged that will allow for the development of a molecular prognostic index, which can then be used in concert with presently available systems. This review will summarize how to best utilize presently available tumor, node, and metastasis- and grading-based systems, and incorporate newly available molecular prognostic factors.
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PMID:Clinical techniques in small animal molecular oncology. 1283 Oct 67

HL is a malignant lymphoma characterized by a small number of malignant HRS cells among a major population of infiltrating reactive cells, e.g., lymphocytes and eosinophils. We previously reported that mast cells are present in HL-affected lymph nodes and therein are the predominant CD30L-expressing cells. The CD30L expressed on mast cells is functionally active and can provide stimulatory signals to HRS cells. Thus, mast cells constitute an important portion of the infiltrating reactive cells that contribute to tumor progression in HL. Control of the recruitment of this previously unrecognized cell and its interactions with tumor cells are essentially unknown. To elucidate if mast cells might be specifically attracted to the tumor area by chemokines produced by HRS cells, we investigated chemokine expression in HL cell lines and in vivo. By RNase protection assay, mRNA expression of several chemokines could be detected in the cell lines. Despite the heterogeneous expression profile exhibited by the cell lines, 4 of 5 expressed CCL5 (RANTES) mRNA. RT-PCR and immunohistochemistry confirmed expression of CCL5 in vivo. Furthermore, secreted CCL5 was detected in conditioned media from 3 of the cell lines. In a migration assay, we found that CCL5 present in conditioned medium could induce mast cell migration. Taken together, our results suggest that CCL5 produced by HRS cells is one mechanism by which mast cells can be attracted into the tumor tissue in HL.
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PMID:Expression of CCL5/RANTES by Hodgkin and Reed-Sternberg cells and its possible role in the recruitment of mast cells into lymphomatous tissue. 1294 94

The new WHO classification is based on the principles of REAL classification of lymphoma and expands to myeloid, mast cell and histiocytic/dendritic neoplasms. The distinct diseases are defined according to a combination of morphology, immunophenotype, genetic features, and clinical syndromes, and the cell origin is postulated. Lymphatic leukemia is included in lymphoma. The lymphoid malignancies are grouped into B cell lymphoma, T/NK cell lymphoma and Hodgkin lymphoma, and the myeloid neoplasm are grouped into 4 categories; chronic myeloproliferative diseases(chronic myelogeneous leukemia, polycythemia vera, chronic idiopathic myelofibrosis, essential thrombocythemia etc.), myelodysplastic/myeloproliferative diseases (chronic myelomonocytic leukemia, juvenile myelomonocytic leukemia etc.), myelodysplastic diseases(perfactory anemia, refractory anemia with ringed sideroblasts etc.) and acute myeloid leukemia.
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PMID:[Malignant lymphoma and leukemia concepts in new WHO classification]. 1367 44

In the vast majority of patients with systemic mastocytosis (SM), the bone marrow is the primary extracutaneous site of disease. In addition to bone marrow involvement, other visceral organs such as the spleen, liver or the gastrointestinal tract, may also be affected. However, isolated involvement of a single extramedullary organ is rarely seen in SM. We report on two patients with SM with splenic involvement, lack of 'diagnostic' mast cell (MC) infiltrates in the bone marrow, and absence of skin lesions. In one patient, a myelodysplastic syndrome was diagnosed prior to the detection of SM. Both patients presented with massive splenomegaly and multifocal MC infiltrates in splenic tissues. These MCs also expressed CD25 as well as the C-KIT mutation D816V. In consecutive examinations, the mutation was also detected in the bone marrow in both patients suggesting diffuse infiltration with neoplastic cells. In summary, our data show that the spleen can be a primary site of disease in rare cases of SM. Mastocytosis should therefore be considered as a (rare) differential diagnosis in patients with splenomegaly of unknown etiology.
Leuk Lymphoma 2004 Apr
PMID:Splenic mastocytosis: report of two cases and detection of the transforming somatic C-KIT mutation D816V. 1516 Sep 46


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