UNIPROT:P15088 - FACTA Search

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

Using the technique of differential cDNA library screening, we have molecularly cloned a gene that is highly expressed in an undifferentiated myeloid multipotent and growth factor-dependent stem cell line (FDCP-Mix) and that downregulates as these cells are induced to differentiate along monocytic, granulocytic, and erythroid cell lineages. Sequence analysis of this gene has shown homology with a previously cloned gene, cytotoxic cell protease 1 (CCP1 or Granzyme 'B'), that has been shown to be expressed only in thymocytes, activated T cells, a mast cell line, and peritoneal exudate leukocytes. In situ hybridization, Northern blot analysis, and nuclear run-off assay has confirmed that expression of CCP1 is restricted to the phenotypically primitive multipotent undifferentiated. FDCP-Mix cells that are undergoing self-renewal in the presence of growth factors such as interleukin-3.
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PMID:Expression and downregulation of cytotoxic cell protease 1 or Granzyme 'B' transcripts during myeloid differentiation of interleukin-3-dependent murine stem cell lines. 128 90

Irradiated mice reconstituted with bone marrow cells infected with a retrovirus carrying the bcr-abl oncogene of human chronic myeloid leukemia are subject to a range of neoplastic hematopoietic diseases, both myeloid and lymphoid. Comparison of DBA/2 and C57BL/6 mice has revealed a marked strain difference in susceptibility to the various tumor types. The present study, performed with BALB/c mice, indicates that the kinetics and nature of the induced disease can be modulated by the infection procedure, as well as the genetic background, and that retroviral regulatory sequences may influence the outcome. A distinctive clonal myeloproliferative disorder, somewhat akin to chronic myeloid leukemia but with prominent erythroid and mast cell components, as well as granulocytic excess, was characterized.
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PMID:Hematologic disease induced in BALB/c mice by a bcr-abl retrovirus is influenced by the infection conditions. 131 70

The de novo megakaryocytic leukemia fulfilling the FAB criteria is still an uncommonly recognized variant of acute leukemia. Many studies have shown that the megakaryocytic leukemic events may occur at a pluripotent stem cell level and clinical observations reveal that the megakaryocytic leukemias are diverse entities. The immunophenotyping using monoclonal antibodies against platelet specific surface antigens and the ultrastructural detection of platelet peroxidase reaction do not provide sufficiently useful information to determine whether a megakaryocytic leukemia is chronic, acute, therapy-responsive or therapy-unresponsive. More sophisticated techniques are required to further characterize megakaryocytic leukemic cells. In this review, we emphasize that megakaryocytic leukemic cells can be categorized into two groups; one with the PF4 mRNA, and the other without it, and that the expression of PF4 mRNA in the blasts could be a useful marker for the identification of mature megakaryoblasts. It seems that the patients with blasts expressing PF4 mRNA will have a longer survival and a better response to chemotherapy than those without PF4. We further discuss the fact that the detection of mRNAs of the IL-6 receptor, PDGF A- and B-chains, and TGF beta 1 in megakaryocytic leukemic cells will be useful to clarify the mechanisms involved in the proliferation of megakaryocytic leukemic cells and fibroblasts in the bone marrow. Furthermore, we reviewed data showing that megakaryocytic erythroid, and mast cell lineages share the nuclear transcription factor known as GF-1 (NF-E1 or Erf-1). We suggest that characterization of megakaryocytic leukemia should be performed using monoclonal antibodies against erythroid, megakaryocytic and mast cell lineages.
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PMID:Megakaryocytic leukemia and platelet factor 4. 133 50

Phenylalanine methylester (PME), a lysosomotropic compound can be used to deplete monocytes and myeloid cells from peripheral blood and bone marrow (BM). The potential of PME for purging leukemic cells from BM was investigated using U937 and HL-60 cell lines as models. Optimal purging conditions for U937 cells were determined using an MTT assay (3-4, 5-dimethylthiazol-2, 5-diphenyl tetrazolium biomide; Sigma). Elimination of U937 cells was time-, temperature-, and dose-dependent. PME activity was optimal at 37 degrees C for 45 minutes. Depletion of U937 was > 2.8 logs for 50 mmol/L PME. Compared with another purging agent, 100 micrograms/mL 4-hydroperoxycyclophosphamide had activity comparable to 40 mmol/L PME. HL-60 cells were even more sensitive to PME than U937 cells. To support observations made with the MTT assay, clonogenic assays were performed. PME, 50 mmol/L at 37 degrees C resulted in total depletion (> 5 logs) of U937 colonies. Progressive depletion of normal progenitor cells occurred when BM was incubated with PME at concentrations from 5 to 100 mmol/L. At 37 degrees C, 50 mmol/L PME reduced colony-forming units-granulocyte-macrophage and burst-forming units-erythroid (BFU-E) recovery by 98%. Recombinant human mast cell factor augmented BFU-E after PME treatment but had no effect on HL-60 or U937. These studies suggest that PME deserves further study as an agent for ex vivo marrow purging.
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PMID:Potential of phenylalanine methylester as a bone marrow purging agent. 138 2

GATA-1, a transcription factor of the 'zinc-finger' family, is required for the development of mature erythroid cells and is also highly expressed in the megakaryocytic and mast cell lineages. The helix-loop-helix gene SCL (or TAL) is expressed in the same three hematopoietic lineages as GATA-1. To explore the role of GATA-1 and SCL in hematopoietic differentiation, we introduced a new expression vector bearing each gene into the early myeloid cell line 416B, which could originally differentiate in vivo along the megakaryocytic and granulocytic lineages. Enforced expression of SCL at high levels did not provoke differentiation, but GATA-1 induced the appearance of megakaryocytes as assessed by morphology, the presence of acetylcholinesterase and a polyploid DNA content. Although GATA-1 is thought to stimulate its own transcription in erythrocytes, expression of the endogenous gene was not increased in the megakaryocytic lines; hence GATA-1 may not be autoregulatory in this lineage. Megakaryocytic differentiation was accompanied by a marked decrease in the myeloid surface marker Mac-1. The absence of mast cell or erythroid differentiation suggests that GATA-1 may not be sufficient to provoke maturation along these lineages or that these pathways are impeded in 416B cells. These results demonstrate that a member of the GATA gene family can act as an important regulator of megakaryocytic differentiation.
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PMID:GATA-1 but not SCL induces megakaryocytic differentiation in an early myeloid line. 138 17

The helix-loop-helix (HLH) proteins are a family of transcription factors that include proteins critical to differentiation and development in species ranging from plants to mammals. Five members of this family (MYC, SCL, TAL-2, LYL-1 and E2A) are implicated in oncogenic events in human lymphoid tumors because of their consistent involvement in chromosomal translocations. Although activated in T cell leukemias, expression of SCL and LYL-1 is low or undetectable in normal T cell populations. SCL is expressed in erythroid, megakaryocyte and mast cell populations (the same cell lineages as GATA-1, a zinc-finger transcription factor). In addition, both SCL and GATA-1 undergo coordinate modulation during chemically induced erythroid differentiation of mouse erythroleukemia cells and are down-modulated during myeloid differentiation of human K562 cells, thus implying a role for SCL in erythroid differentiation events. However, in contrast to GATA-1, SCL is expressed in the developing brain. Studies of the function of SCL suggest it is also important in proliferation and self-renewal events in erythroid cells.
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PMID:SCL and related hemopoietic helix-loop-helix transcription factors. 145 13

The chimeric bcr-abl gene formed by the Philadelphia translocation is thought to initiate chronic myeloid leukemia. Engraftment of mice with bone marrow cells infected with a bcr-abl retrovirus has been shown to elicit multiple hematopoietic disorders, including a clonal but nontransplantable hyperproliferation of erythroid and/or mast cells. Culture of spleen and bone marrow cells from such mice usually yielded mast cell lines, even when erythroid disease dominated the primary animal. The mast cells, which carried the same proviral insert as the primary disease, generally grew slowly and were neither transplantable nor clonogenic in agar until they had been cultured for several months. Unexpectedly, several bcr-abl-induced lines switched in vitro from mast cell to megakaryocytic and/or erythroid character, and one became myeloid. The dramatic phenotypic shifts seem likely to involve changes occurring within progenitor cells maintaining the clone, rather than mutation of mature mast cells. The variant lines exhibited substantial spontaneous differentiation, despite being readily transplantable and therefore fully transformed. The production of hematopoietic growth factors by the mast cell lines and their phenotypic variants may implicate an autocrine loop in their evolution. These novel bcr-abl cell lines should aid in the study of genetic events in the progression from chronic to acute leukemia and facilitate analysis of hematopoietic lineage commitment.
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PMID:bcr-abl-Induced cell lines can switch from mast cell to erythroid or myeloid differentiation in vitro. 153 51

The SCL gene encodes a putative transcription factor with a basic helix-loop-helix (B-HLH) motif and is known to be predominantly expressed in erythroid cells. Here we also demonstrate expression of SCL mRNA in normal mast cells, mast cell lines and megakaryocytic cell lines. SCL is therefore expressed in the same three lineages as GATA-1, a well-recognized hemopoietic transcription factor. SCL and GATA-1 mRNA were also co-expressed in interleukin 3-dependent primitive myeloid lines. In murine erythroleukemia (MEL) cells SCL and GATA-1 underwent coordinated biphasic modulation during hexamethylene bisacetamide (HMBA)-induced erythroid differentiation. The kinetics of SCL and GATA-1 mRNA expression was inversely correlated with changes in ID, a negative regulator of B-HLH proteins, and was distinct from changes in MYC, MYB and erythropoietin receptor transcripts. During myeloid differentiation of K562 cells, SCL and GATA-1 mRNA levels also underwent biphasic modulation. Thus SCL and GATA-1 are coordinately expressed in multiple hemopoietic lineages and coordinately regulated during induced erythroid and myeloid differentiation. In nonhemopoietic tissues SCL was only detected in adult and developing brain where GATA-1 is reportedly not expressed. In day 14.5 embryos analysed by in situ hybridization, SCL transcripts were detected in post-mitotic neurons in the metencephalon and roof of the mesencephalon. This suggests a previously unexpected role for SCL in neural differentiation.
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PMID:SCL is coexpressed with GATA-1 in hemopoietic cells but is also expressed in developing brain. 156 64

Murine interleukin 9 (mIL-9) is a novel T-cell-derived lymphokine previously described as a T-cell growth factor (P40/TCGFIII) and as a mast cell growth-enhancing activity (MEA). In the present study we examined the potency of recombinant (r)mIL-9 to exhibit hemopoietic growth factor activity in the human system. In semisolid cultures of normal human bone marrow-derived mononuclear cells, rmIL-9 alone at a concentration range from 25 to 200 U/ml did not reveal any colony-stimulating activity on human granulocyte-macrophage colony-forming cells (GM-CFC), erythroid colony-forming units (CFU-E), and erythroid burst-forming units (BFU-E). Furthermore, we did not observe synergistic effects of rmIL-9 on the number, size, and morphological composition of human granulocyte-macrophage colonies in cultures stimulated with giant cell tumor-conditioned medium. However, a synergistic effect of rmIL-9 in the human erythropoietic culture system was clearly demonstrated in the presence of recombinant human erythropoietin (rhEpo). Recombinant murine IL-9 at a concentration of 200 U/ml enhanced the number of BFU-E-derived day-14 colonies about 3.6-fold as compared to control cultures stimulated with Epo alone. The formation of CFU-E-derived day-7 colonies was not significantly altered under the same conditions. Our results demonstrate that in the presence of rhEpo, rmIL-9 is synergistically active in human bone marrow cultures as an erythroid burst-promoting factor. The development of granulocyte-macrophage colonies obviously is not affected. This finding strongly suggests that mIL-9 can mediate signals via human IL-9 receptors and further extends the range of biological activities hitherto ascribed to mIL-9.
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PMID:Recombinant murine interleukin 9 enhances the erythropoietin-dependent colony formation of human BFU-E. 158 1

The knowledge about the differentiation of basophilic leukocytes is fragmentary. This report discusses a detailed phenotypic characterization of molecular markers for hematopoietic differentiation in a basophilic leukemia cell line, KU812. The expression of markers for lymphoid, erythroid, neutrophil, eosinophil, monocytic, megakaryocytic, mast cell and basophil differentiation was analyzed at the mRNA level by Northern blots in the KU812 cells, and for reference, in a panel of human cell lines representative of the different hematopoietic differentiation lineages. KU812 was found to express a number of mast cell and basophil-related proteins, i.e. mast cell tryptase, mast cell carboxypeptidase A, high-affinity immunoglobulin (IgE) receptor alpha and gamma chains and the core protein for heparin and chondroitin sulphate synthesis. We found no expression of a number of monocyte/-macrophage or neutrophil leukocyte markers except for lysozyme. From earlier studies, it has been shown that lysozyme is not expressed in murine mucosal mast cell lines. This finding, together with the expression of the mast cell carboxypeptidase in KU812 might distinguish the phenotype of this cell line from that typical of mucosal mast cell lines in rodents. We found a low level of expression of the eosinophil and basophil marker, major basic protein, which might indicate a relationship between basophils and eosinophils. No expression is, however, detected with the eosinophil-specific markers eosinophil cationic protein, eosinophil-derived neurotoxin or eosinophil peroxidase. We also report an extensive screening for inducers of basophilic differentiation of the KU812 cells. The most efficient protocol of induction included serum starvation which led to a dramatic increase in a number of markers specific for mast cells and basophils such as tryptase, carboxypeptidase A and the heparin core protein. Finally, diisopropylfluorophosphate analysis of total protein extracts from KU812 show four labeled protein bands with sodium dodecyl sulfate-polyacrylamide gel electrophoresis, indicating that this cell line expresses at least three previously undescribed serine proteases of which one or more could be a potential basophil-specific marker(s).
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PMID:Phenotypic characterization of KU812, a cell line identified as an immature human basophilic leukocyte. 163 3

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