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: EC:1.11.1.7 (peroxidase)
65,474 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Occupational exposure to benzene, a major industrial chemical, has been associated with various blood dyscrasias and increased incidence of acute myelogenous leukemia in humans. It is established that benzene requires metabolism to induce its effects. Benzene exposure in humans and animals has also been shown to result in structural and numerical chromosomal aberrations in lymphocytes and bone marrow cells, indicating that benzene is genotoxic. In this review we have attempted to compile the available evidence on the role of increased free radical activity in benzene-induced myelotoxic and leukemogenic effects. Benzene administration to rodents has been associated with increased lipid peroxidation in liver, plasma, and bone marrow, as shown by an increase in the formation of thiobarbituric-acid reactive products that absorb at 535 nm. Benzene administration to rodents also results in increased prostaglandin levels indicating increased arachidonic acid peroxidation. Other evidence includes the fact that bone marrow cells and their microsomal fractions isolated from rodents following benzene-treatment have a higher capacity to form oxygen free radicals. The bone marrow contains several peroxidases, the most prevalent of which is myeloperoxidase. The peroxidatic metabolism of the benzene metabolites, phenol and hydroquinone, results in arachidonic acid peroxidation and oxygen activation to superoxide radicals, respectively. These metabolites, upon co-administration also produce a myelotoxicity similar to that observed with benzene. Recently, we have found that exposure of human promyelocytic leukemia (HL-60) cells (a cell line rich in myeloperoxidase), to the benzene metabolites, hydroquinone and 1,2,4-benzenetriol results in increased steady-state levels of 8-hydroxydeoxyguanosine a marker of oxidative DNA damage. Peroxidatic metabolism of benzene's phenolic metabolites may therefore be responsible for the increased free radical activity and toxicity produced by benzene in bone marrow. We thus hypothesize that free radicals contribute, at least in part, to the toxic and leukemogenic effects of benzene.
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PMID:Potential role of free radicals in benzene-induced myelotoxicity and leukemia. 176 8

Sixty one cases of acute promyelocytic leukemia (M3) were diagnosed between Jan., 1985 and Dec., 1988. Morphologically 46 cases (75.4%) were characterised as typical M3 and 15 cases (24.6%) as M3 variant. Typical M3 cases had higher number of hypergranular promyelocytes and Auer rods (P less than 0.001). The cytochemical stains of myeloperoxidase, Sudan Block and Black and chloroacetate esterase were strongly positive in M3 typical and mild to moderately positive in M3 variant cases. Alpha-naphthyl acetate esterase positivity with fluoride inhibition was seen only in M3 variant cases (80%). The clinical and haematological parameters including marrow blast count were not significantly different in the two groups. This study has shown that M3 variant cases more frequently express heteregenous cytochemical patterns and myelodysplastic changes.
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PMID:Correlation between morphological and cytochemical heterogeneity of acute promyelocytic leukemia (APL) and its association with myelodysplasia. 209 May 69

Northern blot analysis of four typical cases of acute promyelocytic leukemia showed that one of the cell population examined was characterized by a very high level of expression of the myeloperoxidase (MPO) gene. Western blot analysis confirms that the protein content of the cells corresponded to the levels of the MPO mRNA. Southern blot studies of the DNA of this cell population ruled out the presence of any genome amplification or rearrangement. Chromosome hybridization studies in situ confirmed that the MPO gene was translocated on the long arm of chromosome 15. The observation that a typical genomic pattern may or may not be associated with the MPO overexpression leads us to believe that so far it is impossible to reach any conclusion about the significance of the translocation in the genesis of MPO overexpression.
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PMID:Overexpression of the MPO gene occurring in a case of APL without unusual genotypic characteristics. 217 59

Acute promyelocytic leukemia (APL) accounts for approximately 10% of cases of acute myeloid leukemia (AML). Distinctive features of this disorder at the time of diagnosis include leukopenia coexisting with a marrow replaced with granulated dysplastic promyelocytes, disseminated intravascular coagulopathy, lack of Ia (HLA-DR) antigen expression, and translocation between the long arms of chromosomes 15 and 17 (t[15;17]). Heparin is widely but not universally used to interfere with the coagulopathy during the initial phases of treatment. Serial bone marrow examinations during the induction period demonstrate the achievement of remission despite the persistence of malignant-appearing promyelocytes. Patients with APL are generally younger than those with other subtypes of AML, have a 70% to 80% likelihood of entering remission, and are thought to have a more favorable prognosis than other individuals with AML. Remission may be achieved with a conventional anthracycline-cytarabine combination, anthracycline alone, or, apparently, all-trans retinoic acid. Genes potentially important in myeloid differentiation such as granulocyte colony-stimulating factor (G-CSF) and myeloperoxidase are located close to the breakpoint in the t(15;17) but have not been conclusively shown to be rearranged in the translocation. A better understanding of the unique aspects of APL may well shed light on the pathogenetic processes of AML.
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PMID:The unique aspects of acute promyelocytic leukemia. 223 Aug 79

Cytochemical investigation of leukemic promyelocytes from 25 cases of acute promyelocytic leukemia (M3) disclosed two major cellular differentiation categories: (1) the pure neutrophilic (N) type (16 cases) with strong myeloperoxidase (MPO) and naphthol-ASD chloroacetate esterase (Es-chl), but lacking the monocytic enzyme NaF-sensitive alpha-naphthyl butyrate esterase (Es-b), and (2) the mixed neutrophilic/monocytoid (N/M) type (seven cases) with strong Es-b as well as strong MPO, all cases exhibiting Es-dual (Es-b + Es-chl) positive cells. Two more cases with unusual phenotypes were noted: one with intense lysozyme activity but without Es-b and the other with toluidine blue-methachromasia and negative MPO. Promyelocytes from the control group, consisting of nine cases of t(8;21) M2 AML and ten cases with normal bone marrow, lacked such cytochemical heterogeneity. HL-60, an M3 cell line that can be induced to differentiate toward monocytic lineage in vitro, was almost negative for Es-b in the uninduced condition. Cytogenetically, eight cases of N type and five of N/M type had the t(15;17) abnormality. Thus at least two differentiation patterns were observed in M3 leukemia with fidelity (N type) and infidelity (N/M type) for normal granulocytic differentiation. In this series, there was no statistically significant difference in clinical features (remission rate and survival) between the two types. Our study suggests that the development of M3 leukemia is not exclusively restricted to the neutrophilic pathway, but more heterogeneously related to myelomonocytic differentiation.
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PMID:Cytochemistry of acute promyelocytic leukemia (M3): leukemic promyelocytes exhibit heterogeneous patterns in cellular differentiation. 241 66

The leukemic promyelocytes in 37 cases of acute promyelocytic leukemia (APML; FAB, M3) were examined for their cytochemical property. Thirty-two cases (86%) showed strong myeloperoxidase (MPO), chloroacetate esterase (Es-chl) and Sudan black B (SBB) positivity, suggesting a pure neutrophilic differentiation of the leukemic cells. However, in 5 out of 37 cases, a strong, diffuse alpha-naphthyl acetate esterase (Es-a) positivity, which was sensitive to sodium fluoride treatment was observed in addition to strong MPO, Es-chl and SBB positivity. This suggested monocytic differentiation of a proportion of APML cases. In 31 cases, surface marker studies were carried out with the help of a panel of monoclonal antibodies consisting of two panmyeloid antibodies (GM 58/8 and 1G10), one anti-HLA-DR antibody (7.2) and one 'myeloid' antibody (5F1) with restricted reactivity with monocytes (CD14). The purpose of including the monoclonal antibodies 5F1 and 7.2 was to determine if a correlation could be established between strong Es-a positivity and reactivity of the leukemic promyelocytes with 5F1 and 7.2 in individual cases. All the 5 cases with 'monocytoid' cytochemistry were unreactive with 5F1, and only one case in this group showed 15% 7.2-positive cells. The lack of immunophenotypic support for the monocytic cytochemistry of the 5 cases of APML suggests that the monocytic phenotype of leukemic promyelocytes is both aberrant and incomplete. Since normal promyelocytes are purely neutrophilic, this could be a manifestation of an 'intralineage infidelity' in APML, similar to that observed in other types of acute leukemia. The clinical significance of 'monocytic' phenotype of APML is not clear; cases with monocytic differentiation did not show different clinical and hematological features when compared to the more common, pure neutrophilic variety.
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PMID:Cytochemical and immunophenotypic heterogeneity in acute promyelocytic leukemia. 246 98

A case of acute leukemia with atypical malignant cells is reported. The clinical picture and coagulation studies were consistent with a disseminated intravascular coagulation syndrome. Morphologically, the leukemic cells from the peripheral blood and bone marrow showed azurophilic granules. More than 80% of cells were hypergranulated, resembling the macrogranular type of promyelocytes. Ultrastructural studies and the pattern of endogenous peroxidase were consistent with the microgranular type of promyelocytes in about 20% of the leukemic cells. Auer bodies were present in both types of atypical promyelocytes. Cytochemically, the whole malignant population exhibited intense peroxidase activity. Studies with monoclonal antibodies showed that about 45% of the proliferating cells expressed T-cell markers T3, T4, T8 and T11, but the cells were not reactive with OKM1 monoclonal antibodies. The chemotherapy for acute promyelocytic leukemia was inefficient, and the prompt disappearance of the blood abnormalities was observed only when chemotherapy for acute lymphoblastic leukemia was started. Therefore, it seems that in some cases of leukemia with hybrid types of malignant cells the morphological features determine the clinical picture, while the patient's response to the therapy is conditioned mainly by the cell surface phenotype.
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PMID:Acute promyelocytic leukemia with T-cell markers and particular response to treatment. Report of a case. 249 88

The existence of two distinct subtypes of acute promyelocytic leukemia was confirmed and characterized based on morphologic features of leukemic cells in a series of 63 patients studied by the Cancer and Leukemia Group B (CALGB). Seventeen patients (27%) had microgranular leukemic cells (M3V), and 46 patients (73%) had hypergranular leukemic cells (M3). These patient cohorts were studied for other laboratory and clinical features. Leukemic cells from M3V patients stained less frequently than leukemic cells from M3 patients for myeloperoxidase (median, 93% vs. 99%; P = .006), periodic acid-Schiff (median, 57% vs. 92%; P = .0001), ASD-chloroacetate esterase (median, 45% vs. 87%; P less than .0001), and alpha-naphthyl acetate esterase (0% vs. 37%; P = .0003). Patients with M3V had a higher platelet count (median, 50 vs. 30 x 10(9)/L; P = .01) and tended to have a higher leukocyte count (median, 7.4 vs. 2.2 x 10(9)/L; P = .06) than M3 patients. The patients with M3V morphology were more likely to be nonwhite (29% vs. 7%; P = .03), female (71% vs. 37%; P = .02), and to be infected at the time of presentation (71% vs. 35%; P = .02). No differences in the frequency of the t(15;17) karyotype or the immunophenotypic expression of the leukemic cells were noted in the two morphologic subtypes of acute promyelocytic leukemia. Fewer patients with M3V tended to enter complete remission (65% vs. 80%; P = .20), but no significant differences were found in the duration of complete remission (P = .81; 1 year rate, 50% vs. 85%), or probability of survival (P = .67; 1 year rate, 49% vs. 68%).
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PMID:Morphologic and cytochemical characteristics of acute promyelocytic leukemia. 230 83

Since myeloperoxidase (MPO) is considered to be a critical marker of differentiating acute myelogenous leukemia (AML) from acute lymphocytic leukemia (ALL), the analysis of MPO gene expression may provide further insight into the leukemia classification and the lineage fidelity of leukemia cells. By Northern blot hybridization using full-length MPO cDNA as a probe, approximately 66% of AML cells (3/4 M1 cases, 2/4 M2 cases, 15/15 M3 cases, 11/15 M4 cases, and 2/12 M5 cases) were found to express MPO mRNAs, whereas none of 18 ALL cases did. MPO mRNA was detectable when AML cells contained at least 10% peroxidase-positive cells. APL (M3) cells expressed high levels of mRNA in accordance with heavy staining for peroxidase.
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PMID:Myeloperoxidase gene expression in acute leukemias. 256 Aug 87

Six cases of microgranular variant acute promyelocytic leukemia (M3v) were studied by use of a multiparameter approach including morphology, cytochemistry, flow cytochemistry, flow cytometry, cytogenetics, and gene rearrangement. Three of six cases demonstrated both myeloid and monocytoid associated surface markers by flow cytometry. One of six cases had strong alpha-naphthyl-butyrate esterase (alpha-NBE) activity in addition to myeloperoxidase activity. There was no correlation between percentage of positive monocytoid surface markers and intensity of cytoplasmic alpha-NBE activity. Four of six cases also had a T-cell-associated surface antigen. Further studies indicated that the T-cell markers appeared to be on the promyelocytes and that the T-B receptor gene was not rearranged. Similarly, cytogenetics studies indicated only one clonal abnormality t(15q+; 17q-). Whether these cases represent true "lineage infidelity" remains to be answered. Future important studies are needed on normal hematopoietic progenitor cells at early stages of development and childhood to study lineage-specific characteristics and to determine whether co-expression normally exists during early development.
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PMID:Microgranular promyelocytic leukemia: a multiparameter examination. 278 34


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