Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023467 (acute myeloid leukemia)
35,200 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To date, the diagnosis of mast cell disease (MCD) relied on routine plus histochemical stains. Its differential diagnosis, however, includes a variety of other hematopoietic and particularly B-cell lymphoid neoplasms that are best identified in paraffin sections using immunostains. To determine the paraffin-section immunoreactivity of MCD, 20 specimens from 14 patients with MCD and 1 bone marrow sample (from a patient with probable MCD) that showed equivocal metachromasia, were stained with antitryptase, CD68 (KP-1), CD20 (L26), antilysozyme, and antimyeloperoxidase antibodies. Ten hairy cell leukemias (HCLs), six lymphomas of parafollicular and/or monocytoid B-cell (MBCLs) and low-grade mucosa-associated lymphoid tissue (MALT) types, six granulocytic sarcomas, and five acute myeloid leukemias with monocytic differentiation (M4 and M5 types) were also stained. Tryptase positivity was identified in all of the MCD cases. The staining was moderate to strong in 20 of the 21 specimens, including the probable MCD case. No other neoplasms tested were tryptase positive. CD68 showed similar to even stronger staining in all of the specimens of MCD, HCL, granulocytic sarcoma, and acute myeloid leukemia (M4 and M5 types) tested and in five of the six MBCL and/or MALT-type lymphomas. Weak-to-moderate lysozyme staining seemed to be present in at least 7 of the MCD specimens, whereas there was a lack of staining for myeloperoxidase in 12 specimens, and 7 specimens were nonevaluable (1 case was not tested). Myeloperoxidase was identified in all of the granulocytic sarcomas and acute myeloid leukemias (M4 and M5 types) but not in any HCLs, MBCLs, or low-grade lymphomas of MALT type. CD20 was negative in all of the MCD and myelomonocytic neoplasms but positive in all of the HCLs, MBCLs, and low-grade B-cell lymphomas of MALT type. MCD, therefore, has a characteristic tryptase-positive, CD68-positive, and CD20-negative phenotype in paraffin sections. This distinguishes MCD from the hematopoietic and/or lymphoid disorders that it most closely resembles.
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PMID:Immunohistochemical characterization of mast cell disease in paraffin sections using tryptase, CD68, myeloperoxidase, lysozyme, and CD20 antibodies. 890 35

Four patients with systemic mastocytosis, two men and two women, are presented. Three of them (patients 1, 2, and 4) developed portal hypertension and ascites without histological evidence of cirrhosis in liver biopsy. The remaining patient (patient 3) had severe bone lesions with multiple vertebral fractures. None of the patients had skin or lymph node involvement. Two patients (patients 1 and 2) died 12 and 9 months after diagnosis with acute nonlymphocytic leukemia and overt mastocytic leukemia, respectively, while the other two (patients 3 and 4) are alive 58 and 14 months after diagnosis. Treatment with hydroxyurea or cytosine arabinoside had not any beneficial effect in two patients, while a substantial amelioration of back pain had been obtained by local irradiation and recombinant human interferon-alpha-2b administration in one patient (patient 3). All patients had laboratory findings compatible with autoimmune cholangitis. We concluded that systemic mastocytosis is a rare cause of noncirrhotic portal hypertension often simulating autoimmune cholangitis and leading to the erroneous diagnosis of liver cirrhosis. Diagnosis is based on the presence of mast cells in Giemsa-stained liver histological sections, and it may be confirmed by immunohistochemical detection of tryptase in the cytoplasm of these abnormally proliferating cells.
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PMID:Systemic mastocytosis: a rare cause of noncirrhotic portal hypertension simulating autoimmune cholangitis--report of four cases. 944 86

A subset of patients with systemic mastocytosis (SM) develop acute myeloid leukaemia (AML). However, little is known about the biology of such leukaemias and their relationship to the mast cell (MC) lineage. We report on two female patients who suffered from SM and AML. According to FAB criteria, the leukaemias were classified as AML-M4 (patient 1) and AML-MO (patient 2). The coexistence of the two distinct neoplasms (AML and SM) was demonstrable by immunostaining of serial bone marrow (BM) sections with monoclonal antibodies (mAb). In particular, the MC infiltrates were found to react with mAb against MC-tryptase and MC growth factor receptor c-kit (CD117), but not with mAb to CD15 or CD34. In contrast, the AML blasts were immunoreactive for CD15 (patient 1) or CD34 (patient 2), but did not express tryptase. The c-kit point mutation Asp-->Val at codon 816, considered to play a role in the transformation of MC progenitors, was detected in patient 1 in a BM cell fraction containing 4% MC. However, no c-kit mutation was found in pure AML blasts (<1% MC). These findings argue against an evolution of the AML clone from neoplastic MC or MC-committed progenitors.
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PMID:Systemic mastocytosis associated with acute myeloid leukaemia: report of two cases and detection of the c-kit mutation Asp-816 to Val. 985 25

Patients with systemic mast cell (MC) disease, but not those with cutaneous mastocytosis, are at a high risk (10-30%) to develop life-threatening myelogenous malignancies. In a significant proportion of cases, myeloid leukemias occur. Using conventional criteria, such leukemias resemble acute myeloid leukemia (AML), chronic myeloid leukemia (CML), or myelomonocytic leukemia (CMML). Mast cell leukemia (MCL) may also occur. Myeloid leukemias (AML, CML, CMML) can develop in indolent or aggressive mastocytosis (skin lesions present or absent) with a variable prephase of MC disease. By contrast, MCL (typically without skin lesions) often develops on a "de novo" basis, and, if at all recognized, a prephase resembling (malignant) mastocytosis, is short. MCL differs from myeloid leukemias (AML, CML, CMML) by morphologic and phenotypic cellular characteristics. In fact, MCL are strongly tryptase-positive, c-kit-positive, myeloperoxidase (MPO) -negative neoplasms with variable metachromasia and chloroacetate esterase expression, whereas an MPO-positive, tryptase-negative phenotype supports the diagnosis of a myeloid non-MC lineage disease. Thus, MCL, but also myeloid non-MC lineage leukemias can develop in patients with (systemic) mastocytosis. Little is known, however, about the pathophysiologic basis of co-evolution. In the present article, the concomitant occurrence of mastocytosis and leukemia is discussed in the light of the literature and of concepts proposed to explain the biologic basis of this phenomenon.
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PMID:Clinical and biologic diversity of leukemias occurring in patients with mastocytosis. 1104 8

Although mast cells (MC) appear to be myeloid cells, MC lineage involvement in myelogenous malignancies has been described only rarely. Based on clonal evolution, biology of afflicted cells, and disease criteria, three major groups of patients have been recognized: The first meets criteria for both diagnoses 'systemic mastocytosis' and 'associated hematologic clonal non-mast cell lineage disease (AHNMD)'. In such patients, myeloproliferative (MPS) or myelodysplastic syndromes (MDS), or acute myeloid leukemia (AML) is diagnosed apart from mastocytosis. In a second group of patients, large numbers of very immature MC-lineage cells (metachromatically granulated blast-like cells) are detectable, but the criteria to diagnose mastocytosis are not met. These patients have advanced myeloid neoplasms (MDS or MPS with blast cell increase, or AML) and variably suffer from mediator-related symptoms (flush, GI-tract ulcer, diarrhoea, coagulopathy). In some cases, the disease mimics mast cell- or basophilic leukemia. In contrast to basophilic leukemia, however, the metachromatic cells are strongly KIT+ and tryptase+. In contrast to true mast cell leukemia (MCL), MC do not form multifocal dense infiltrates in the bone marrow. Also, MC lack CD2 and CD25, and the C-KIT mutation Asp-816-Val. We propose the term 'myelomastocytic leukemia' or 'myelodysplastic mast cell syndrome' for these cases. In a third group of patients, myeloid neoplasms (MDS, MPS, AML) show constitutive expression of MC-associated antigens (tryptase, histamine) or mastocytosis-related gene defects (mutated C-KIT) without significant increase in metachromatic cells or criteria of mastocytosis. Whether these neoplasms display aberrant gene expression (or gene defects) or represent 'pre-pre-mast cell leukemias', remains unknown.
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PMID:Myelomastocytic overlap syndromes: biology, criteria, and relationship to mastocytosis. 1137 85

alpha- and beta-tryptase genes encode serine proteases that are abundantly expressed by mast cells. Under physiologic conditions other myeloid cells are virtually tryptase negative. However, tryptases are also expressed in several myeloid leukemia cell lines. In this study, serum total tryptase levels were determined in 150 patients with acute leukemias (de novo acute myeloid leukemia [AML], n = 108; secondary AML, n = 25; acute lymphoid leukemia [ALL], n = 17) by fluoroenzyme immunoassay. In healthy subjects (n = 30), tryptase levels ranged between 2.0 and 12.6 ng/mL. Elevated tryptase levels (> 15) were detected in 42 (39%) of 108 patients with de novo AML and in 11 (44%) of 25 patients with secondary AML. No elevated tryptase levels were found in patients with ALL. In de novo AML, elevated tryptase levels were frequently detected in patients with French-American-British classification M0 (6 of 9), M2 (9 of 14), M3 (4 of 6), and M4eo (7 of 7), and less frequently in M1 (7 of 20), M4 (6 of 26), M5 (2 of 18), M6 (0 of 5), or M7 (1 of 3). The highest tryptase levels were found in M4eo. Immunohistochemical staining of bone marrow sections with anti-tryptase antibody as well as immunoelectron microscopy revealed tryptase expression in the cytoplasm of myeloblasts. As assessed by Northern blotting and reverse transcriptase-polymerase chain reaction, AML cells expressed alpha-tryptase messenger RNA (mRNA) but little or no beta-tryptase mRNA. In AML patients with elevated serum tryptase before chemotherapy, who entered complete remission, tryptase levels returned to normal or near normal values. Blast cell persistence or regrowth was associated with a persistently elevated level or recurrent increase of tryptase. Together, tryptase is expressed in myeloblasts in a group of AML and may serve as a useful disease-related marker.
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PMID:Expression of mast cell tryptase by myeloblasts in a group of patients with acute myeloid leukemia. 1156 8

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.
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PMID:Tryptase a novel biochemical marker of acute myeloid leukemia. 1261 10

Approximately 20% of patients with systemic mastocytosis (SM) have an associated haematological, clonal, non-mast cell lineage disease, and most exhibit an associated myelogenous neoplasm. This report describes a 48 year old man with acute myeloid leukaemia (AML) and a type t(8;21) cytogenetic abnormality. Associated bone marrow mastocytosis (a defined subtype of SM) was only detected after successful polychemotherapy in the state of bone marrow aplasia, and persisted after complete remission of AML. The diagnosis of mastocytosis was based on the demonstration of a multifocal dense mastocytic infiltrate. The atypical mast cells showed prominent spindling and an aberrant immunophenotype, with coexpression of tryptase, chymase, KIT, and CD25-which is expressed only on neoplastic (not normal) mast cells. In addition, the transforming somatic mutation D816V of the c-kit gene was detected. Re-examination of the pretherapeutic (initial) bone marrow revealed a slight diffuse increase in partially spindle shaped mast cells also exhibiting an abnormal immunophenotype, with CD25 expression, although compact mastocytic infiltrates were not detected. Because the D816V mutation was detected in the initial bone marrow specimen, strict application of three minor diagnostic criteria (spindling, CD25, D816V) enabled a diagnosis of SM-AML to be confirmed retrospectively in the initial bone marrow tissue.
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PMID:Acute myeloid leukaemia with t(8;21) associated with "occult" mastocytosis. Report of an unusual case and review of the literature. 1499 Jun 11

In order to investigate the role of tryptase in angiogenesis of acute leukemia (AL), the expressions of tryptase and vascular endothelial growth factor (VEGF) in leukemic cells from 61 patients with AL were examined by using immunocytochemical method, and the correlation between tryptase and VEGF was analyzed. The results showed that tryptase positive expression was found in 15 out of 51 patients with acute myeloid leukemia (AML) (M(1) 1/3, M(2) 7/15, M(3) 5/20, M(5) 2/8). Tryptase positive expression was 29.4% in AML. However, none of 10 patients with acute lymphocytic leukemia (ALL) showed tryptase expression. There were no correlations between the amounts of cells with tryptase expression and patient age, WBC count, numbers of blood or marrow myeloblasts and neutrophil POX. VEGF expression was revealed in 41 patients with AML (80.4%) and only 3 with ALL (30%). Significant correlation has been found between the expression of tryptase and that of VEGF in AML-M(2) (r = 0.65, P < 0.05). It is concluded that tryptase appears to be a myeloid-specific marker in AML and may be involved in the angiogenesis of AML-M(2).
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PMID:[Tryptase relation to VEGF in acute leukemia]. 1627 44

A number of autocrine and paracrine growth regulators are considered to be involved in the survival and proliferation of blast cells in acute myeloid leukemia (AML). We have recently shown that blast cells in a group of patients with AML produce and secrete the mitogenic enzyme tryptase. In the present study, we examined functional effects of tryptase in the context of AML. As assessed by 3H-thymidine uptake experiments, tryptase-containing serum from patients with AML as well as heparin-complexed recombinant tryptase were found to promote the proliferation of cultured bone marrow- and lung fibroblasts in a dose-dependent manner. A neutralizing antibody against human beta-tryptase was found to diminish these growth-stimulatory effects of serum-tryptase in all patients examined. Tryptase also induced the expression of mRNA for GM-CSF and SCF, two cytokines known to promote growth of AML cells, in cultured bone marrow fibroblasts. Neither recombinant tryptase nor tryptase-rich serum of AML patients, showed an effect on the growth of leukemic blast cells irrespective of the FAB category or expression of protease-activated receptor (PAR)-2, a putative molecular target of tryptase. Together, tryptase is secreted from AML blasts as a biologically active molecule that may exhibit paracrine rather than autocrine effects in AML.
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PMID:Evaluation of biologic activity of tryptase secreted from blast cells in acute myeloid leukemia. 1675 62


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