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

The chromosome translocation forming the hybrid bcr-abl gene is thought to be the initiating event in chronic myeloid leukaemia (CML) and some cases of acute lymphoblastic leukaemia. To assess the impact of bcr-abl upon haemopoiesis, lethally irradiated mice were reconstituted with bone marrow cells enriched for cycling stem cells and infected with a bcr-abl bearing retrovirus. The mice developed several fatal diseases with abnormal accumulations of macrophage, erythroid, mast and lymphoid cells, and marked strain differences in disease distribution and kinetics. Some mice exhibited more than one neoplastic cell type and, in some instances, these were clonally related, indicating that a progenitor or stem cell had been transformed. While classical CML was not observed, the macrophage tumours were accompanied by a mild CML-like syndrome, probably due to myeloid growth factor production by tumour cells. The erythroid and mast cell diseases were rarely transplantable, in contrast to the macrophage tumours and lymphomas, but all disease types displayed limited clonality. These results establish that bcr-abl confers a proliferative advantage on diverse haemopoietic cells but complete transformation probably involves additional genetic changes.
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PMID:bcr-abl, the hallmark of chronic myeloid leukaemia in man, induces multiple haemopoietic neoplasms in mice. 169 Oct 92

The c-kit proto-oncogene encodes a transmembrane tyrosine kinase receptor for an unidentified ligand and is allelic with the murine white-spotting locus (W). W mutations affect melanogenesis, gametogenesis and hematopoiesis during development and in adult life. Cellular targets of W mutations in hematopoiesis include distinct cell populations in the erythroid and mast cell lineages as well as stem cells. In the absence of interleukin-3 (IL-3) mast cells derived from normal mice but not from W mutant mice can be maintained by co-culture with 3T3 fibroblasts. Based on the defective proliferative response of W mast cells in the 3T3 fibroblast co-culture system it had been proposed that fibroblasts produce the c-kit ligand. We have used a mast cell proliferation assay to purify a 30 kd protein, designated KL, from conditioned medium of Balb/3T3 fibroblasts to apparent homogeneity. KL stimulates the proliferation of normal bone marrow derived mast cells but not mast cells from W mice, although both normal and mutant mast cells respond similarly to IL-3. Connective tissue-type mast cells derived from the peritoneal cavity of normal mice were found to express a high level of c-kit protein on their surface and to proliferate in response to KL. The effect of KL on erythroid progenitor cells was investigated as well. In combination with erythropoietin, KL was found to stimulate early erythroid progenitors (BFU-E) from fetal liver and spleen cells but not from bone marrow cells of adult mice and from fetal liver cells of W/W mice.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Candidate ligand for the c-kit transmembrane kinase receptor: KL, a fibroblast derived growth factor stimulates mast cells and erythroid progenitors. 169 11

The transcriptional binding protein NFE-1 (also called GF-1 and Ery-f1) is thought to play a necessary, but not sufficient, role in the regulation of differentiation-related gene expression in a subset of hematopoietic lineages (erythroid, megakaryocytic, and basophil-mast cell). In order to clarify the mechanism which underlies the lineage-specificity of the NFE-1 expression, as well as the relationship between the expression of this factor and growth factor responsiveness, we have evaluated the capacity of erythropoietin (Epo)-, granulomonocytic (GM)-colony stimulating factor (CSF)-, and granulocyte (G)-CSF-dependent subclones derived from the interleukin 3 (IL-3)-dependent cell line 32D, to express 1) NFE-1 mRNA, 2) NFE-1-related nuclear proteins, and 3) chloramphenicol acetyl transferase (CAT) activity when transfected with a CAT gene under the control of NFE-1 cognate sequences. NFE-1 mRNA was found to be expressed not only in cells with mast cell (IL-3-dependent 32D) and erythroid (Epo-dependent 32D Epo1) phenotypes, but also in cells with predominantly granulocyte/macrophage properties, such as the GM-CSF- (early myelomonocytic) and G-CSF- (myelocytic) dependent subclones of 32D. However, a gradient of expression, correlating with the lineage, the stage of differentiation, and the growth factor responsiveness of the cell lines, was found among the different subclones: Epo greater than or equal to IL-3 greater than GM-CSF greater than G-CSF. Binding experiments demonstrated NFE-1 activity in all cell lines except the G-CSF-dependent line. Function of the NFE-1 protein was assessed by the expression of the CAT gene linked to the SV40 promoter and a mutant (-175 T----C) HPFH gamma-globin promoter. High level CAT expression was seen only in the Epo1 cells although low level expression was also seen in the parent 32D. These results demonstrate that the specificity of the expression of NFE-1 for the erythroid--megakaryocytic--mast cell lineages is obtained by progressive inactivation of its expression in alternative lineages.
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PMID:Progressive inactivation of the expression of an erythroid transcriptional factor in GM- and G-CSF-dependent myeloid cell lines. 170 2

When embryonic stem cells are cultured directly in semisolid media (methyl cellulose), they proliferate and differentiate to generate colonies known as embryoid bodies (EBs). These EBs consist of differentiated cells from a number of lineages including those of the hematopoietic system. Following 10 days of culture in the presence of 10% fetal calf serum, more than 40% of all EBs from three different ES cell lines, CCEG2, D3 and SQ1.2S8 contained visible erythropoietic cells (i.e. red with hemoglobin). Beta H1 (z globin) mRNA is detectable in EBs within 5 days of differentiation, whilst beta(maj)-globin RNA appears by day 6. In the presence of erythropoietin (Epo), the frequency of EBs with erythropoietic activity increases to greater than 60%; Epo also prolongs this erythropoietic activity. Interleukin-3 (IL-3) does not significantly increase the frequency of EBs that contain erythroid cells, but increases slightly the number of erythropoietic cells associated with them. In the presence of IL-3, in addition to cells of the erythroid lineage, macrophages, mast cells and in some instances neutrophils are found within differentiating EBs. The development of macrophages is significantly enhanced by the addition of IL-3 alone or in combination with IL-1 and M-CSF or GM-CSF. When well-differentiated EBs are allowed to attach onto tissue-culture plates and grown in the presence of IL-3, a long-term output of cells from the mast cell lineage is observed.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Multiple hematopoietic lineages develop from embryonic stem (ES) cells in culture. 189 64

The effect of aging process on the hemopoietic system in senescence-accelerated (SAM-P) mice with respect to numbers of hemopoietic progenitor cells was investigated. The numbers of femoral granulocyte-macrophage colony-forming cells (CFU-GM), mast cell progenitors (mast colony-forming units, CFU-Mast), erythroid burst-forming units (BFU-E), and erythroid colony-forming units (CFU-E) in old mice (30-35 weeks old) decreased to 96%, 81%, 83%, and 87% of those of young mice (8-12 weeks old), respectively. The numbers of femoral fibroblast colony-forming cells (CFU-F) in old mice increased to 315% of those of young mice. The numbers of splenic CFU-GM, CFU-Mast, BFU-E, and CFU-E in old mice decreased to 7%, 43%, 25%, and 40% of those of young mice, respectively. In contrast, significant changes in these progenitor cells were not observed in the bone marrow. These findings suggest that the effect of the aging process on hemopoietic tissues in SAM-P mice is predominantly in the spleen.
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PMID:Age-related changes in various hemopoietic progenitor cells in senescence-accelerated (SAM-P) mice. 189 62

T-cell growth factor P40 was examined for possible effects on murine interleukin-3 (IL-3)-dependent myeloid cell lines and freshly isolated murine bone marrow cells. The results showed that P40 stimulated the proliferation of some IL-3-dependent myeloid cell lines of both early myeloid and mast cell phenotype and synergized with IL-3. P40 did not promote proliferation of fresh bone marrow cells, bone marrow enriched for early myeloid cells by 5-fluorouracil treatment, or bone marrow derived mast cells as assessed in 3H-TdR incorporation assays. P40 did not influence the growth of murine colony-forming unit granulocyte-macrophage in agar cultures, either alone or in the presence of optimal or sub-optimal concentrations of CSF-1, GM-colony-stimulating factor, or IL-3. P40 did potentiate burst-forming unit-erythroid (BFU-E) formation in the presence of erythropoietin; however, this was dependent on the cell plating density, suggesting an indirect stimulation of BFU-E by P40. The indirect nature of P40 action on BFU-E was further demonstrated in cell separation experiments and indicated that the effect was mediated by T cells. These data expand the repertoire of cells that P40 influences.
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PMID:T-cell growth factor P40 promotes the proliferation of myeloid cell lines and enhances erythroid burst formation by normal murine bone marrow cells in vitro. 211 97

We recently developed a new progenitor assay using murine fetal liver cells that provides a source of pluripotent progenitors, bipotent progenitors, and committed macrophage, megakaryocyte, erythroid, and mast cell progenitors. This clonal cell culture system was used to examine the direct effects of Harvey sarcoma virus on murine hemopoietic progenitors. Very large erythroid colonies containing 100,000 to 200,000 cells were seen in the infected group. Only small erythroid colonies were seen in the uninfected control cultures. The cells in the large erythroid colonies from infected cultures expressed the ras gene as demonstrated by immunofluorescence with a monoclonal antibody to p21, the ras gene product. The infected cells were not immortal since they did not yield secondary colonies upon replating. Sequential observation of individual colonies showed that maturation was not blocked by infection with the virus. The size of other colony types, including granulocyte/macrophage, mast cell, and mixed, was unaffected even though some of these colonies expressed the ras gene. Thus, infection with Harvey sarcoma virus appears to give a growth advantage primarily to committed erythroid progenitors.
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PMID:Enhancement of the proliferation of murine fetal liver erythroid progenitors by infection with Harvey sarcoma virus. 215 15

The nuclear factor GF-1 (also known as NF-E1, Eryf-1; refs 1-3 respectively) is important in regulation of the transcription of globin and other genes that are specifically expressed in erythroid cells. We have previously shown that GF-1 of both mouse and human origin is a 413-amino-acid polypeptide with two novel zinc-finger domains whose expression is restricted to erythroid cells. Using in situ hybridization of mouse bone marrow cells and northern blot analysis of purified cell populations and permanent cell lines, we show here that GF-1 is expressed in two other hematopoietic lineages, megakaryocytes and bone marrow-derived mast cells. Our findings are consistent with results from hematopoietic progenitor culture which suggest a relationship between erythroid, megakaryocytic and mast cell lineages, and imply that GF-1 is expressed in committed multipotential cells and their progeny. Hence, the mere presence of this transcription factor is unlikely to be sufficient to programme differentiation of a single haematopoietic lineage. GF-1 may regulate the transcription of not only erythroid genes, but also many genes characteristic of megakaryocytes and mast cells, or genes shared among these lineages.
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PMID:Expression of an erythroid transcription factor in megakaryocytic and mast cell lineages. 232 Jan 12

Hematopoietic cells of the Japanese quail were transformed by avian erythroblastosis virus in vivo and in vitro. In both circumstances, the infected hematopoietic tissues exhibited a dual oncogenic response of erythroid and mast cell-basophil elements. The erythroid transformants escaped the avian erythroblastosis virus block in differentiation and progressed to hemoglobinization. Resulting basophilic cells were morphologically, biochemically, and ultrastructurally identical to mast cell-basophils observed in other species. None of the virally transformed cells actively produced reverse transcriptase activity. Nonproducer cell lines synthesized viral RNA and both v-erbA and v-erbB proteins. These results indicate that the Japanese quail has a viral target cell different from that of the chicken. The implications of a single bipotential transformation target yielding both erythroid and mast cell-basophil colonies is discussed.
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PMID:Avian erythroblastosis virus transforms a novel mast cell-basophil precursor target in the Japanese quail. 253 21

Clonal lines of mouse inducer ly1+ly2- inducer T-lymphocytes that depend for growth upon interleukin-2 have been demonstrated to produce a factor that stimulates colony formation by bone marrow granulocyte-macrophage (GM-CFUc) progenitor cells and replication of factor-dependent mast cell/basophil and multipotential hematopoietic cell lines in vitro. The molecularly cloned and expressed gene product for this growth factor demonstrates the following activities in vitro: using fresh bone marrow or purified subpopulations of nonadherent cells from murine continuous bone marrow cultures as target cells: stimulation of colony formation by GM-CFUc, mast cell progenitor cells, multipotential granulocyte/erythroid/megakaryocyte/macrophage progenitor cells (CFU-GEMM) colonies, erythroid progenitor cells forming macroscopic bursts (BFUe), and megakaryocyte progenitor cells (CFU-mega). The gene product also supports growth of previously reported mast cell growth-factor-dependent cell lines and several classes of interleukin-3 (IL-3)-dependent hematopoietic progenitor cell lines that are multipotential (neutrophil/basophil/eosinophil or neutrophil/basophil/erythroid); or committed to granulocyte-macrophage, or mast cell/basophil differentiation. The gene product does not detectably support replication of IL-2-dependent murine T-cell lines. The biologic activity of the gene product was inhibited greater than or equal to 90% by rabbit antisera prepared against purified interleukin-3. The data indicate that this T-cell derived lymphokine gene product is biologically very similar to interleukin-3.
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PMID:Molecularly cloned and expressed murine T-cell gene product is biologically similar to interleukin-3. 258 Jul 30


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