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

PWM-activated spleen cell-conditioned medium (SCCM) and a variety of purified hematopoietic growth factors were tested for their ability to stimulate chemotaxis of mouse connective tissue mast cells (CTMC). Of the agents tested, only IL-3 and SCCM promoted mast cell chemotaxis. Neither IL-2, IL-4, GM-CSF, nor endotoxin had any significant mast cell chemotactic activity. Neutralizing antibodies to mouse IL-3 blocked greater than 90% of the chemotactic activity of SCCM, suggesting that IL-3 is the predominant mast cell chemotactic factor produced by activated spleen cells. Our results demonstrate that mature connective tissue type mast cells are capable of moving toward a gradient of spleen cell-derived IL-3 and suggest that movement of mature mast cells toward lymphokines may influence the accumulation of mast cells at sites of inflammatory or immune reactions.
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PMID:Stimulation of mast cell chemotaxis by interleukin 3. 279 61

The histamine-producing cell-stimulating factor (HCSF) was first described as a lymphokine which is produced during secondary mixed leukocyte culture and which induces increased histamine synthesis by murine hematopoietic cells. It has been shown that it is different from interleukin 3 (IL 3), despite the fact that pure IL 3 expresses HCSF activity. Our results provide evidence that this factor (constitutively produced by the P388 D1 cell line) is identical with granulocyte-macrophage colony-stimulating factor (GM-CSF) i.e.: (a) physiochemical properties of HCSF and GM-CSF, such as molecular weight, isoelectric charge, hydrophobicity and behavior during affinity chromatography, are indistinguishable and both activities coelute during all biochemical purification procedures; (b) increased bone marrow cell histamine synthesis induced by P388 D1-derived HCSF is inhibited by anti-GM-CSF antiserum; (c) the GM-CSF cDNA probe hybridizes with a poly(A)+RNA from P388 D1 cells while no hybridizing signal was obtained with poly(A)+RNA from WEHI-3 and from P815 cells. On the other hand, the IL 3 cDNA probe hybridizes with a 1.0-kb poly(A)+RNA from WEHI-3 but not with those from P388 D1 and P815. Moreover, well known sources of GM-CSF, such as lung conditioned medium and semi-purified GM-CSF from phytohemagglutinin-induced supernatant of the murine T lymphoma LBRM-33-5 A4 (preparation devoid of IL 3), as well as recombinant murine GM-CSF, induce increased histamine synthesis by hematopoietic cells. All these results demonstrate that, in our culture conditions, the P388 D1 cell line spontaneously produces GM-CSF which is responsible for the P388 D1-induced HCS activity. Consequently, the latter is a property shared by the two distinct hematopoietic growth factors acting on the less committed cells, i.e. IL 3 and GM-CSF, whereas M-CSF or G-CSF are unable to induce histamine production. Interestingly, IL-4 which is known to support established mast cell line proliferation cannot induce HCS activity. In addition, none of the other cytokines tested, such as IL 1, IL 2, interferons or tumor necrosis factor can express HCS activity. This expression seems to be a specific property of IL 3 and GM-CSF.
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PMID:Histamine-producing cell-stimulating activity. A biological activity shared by interleukin 3 and granulocyte-macrophage colony-stimulating factor. 288 59

Based on homology with the mouse interleukin 4 (IL-4) cDNA that expresses B cell, T cell, and mast cell stimulating activities (Lee, F. et al., (1986) Proc. Natl. Acad. Sci. USA 83, 2061), we have isolated from a Balb/c mouse liver DNA library the mouse chromosomal gene and analyzed its overall structure. The gene occurs as a single copy in the haploid genome and contains four exons and three introns. The exon sequences almost completely match the cloned cDNA sequence. Interestingly, there is a fairly high degree of homology between mouse IL-4 and mouse IL-2 genes extending more than 200 bp upstream of a "TATA" like sequence located 20 bp upstream of the transcription initiation site. These sequences may play an important role in the regulated expression of this gene in concanavalin A or antigen-stimulated T lymphocytes. The supernatant of COS7 cells transfected with plasmid DNA containing the entire gene exhibited both T cell growth factor and mast cell growth factor activities.
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PMID:Structural analysis of the mouse chromosomal gene encoding interleukin 4 which expresses B cell, T cell and mast cell stimulating activities. 302 76

Murine B cell stimulatory factor (BSF)-1 or interleukin 4 has been shown to regulate various aspects of B cell activation and differentiation. More recently it has been shown that this lymphokine is also involved in the regulation of T cell and mast cell proliferation. In this study we purified BSF-1 activity from supernatants of T cell hybridoma FS6-14. 13 and tested its activity on a variety of in vitro assays. It was found that the purified BSF-1 material has various activities previously ascribed to BSF-1, and interestingly enough it also induces strong proliferation of thymocytes in collaboration with phytohemagglutinin. These results strongly suggest that BSF-1 plays a regulatory role in thymocyte differentiation and further support the notion that lymphokines generally have a broad spectrum of activity.
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PMID:[Induction of thymocyte proliferation with B cell stimulatory factor-1]. 326 Feb 9

Mouse peritoneal mast cells (PMC) express a connective tissue-type mast cell (CTMC) phenotype, including reactivity with the heparin-binding fluorescent dye berberine sulfate and incorporation of [35S] sulfate predominantly into heparin proteoglycans. When PMC purified to greater than 99% purity were cultured in methylcellulose with IL-3 and IL-4, approximately 25% of the PMC formed colonies, all of which contained both berberine sulfate-positive and berberine sulfate-negative mast cells. When these mast cells were transferred to suspension culture, they generated populations that were 100% berberine sulfate-negative, a characteristic similar to that of mucosal mast cells (MMC), and that synthesized predominantly chondroitin sulfate [35S] proteoglycans. When "MMC-like" cultured mast cells derived from WBB6F1-+/+ PMC were injected into the peritoneal cavities of mast cell-deficient WBB6F1-W/Wv mice, the adoptively transferred mast cell population became 100% berberine sulfate-positive. In methylcellulose culture, these "second generation PMC" formed clonal colonies containing both berberine sulfate-positive and berberine sulfate-negative cells, but exhibited significantly less proliferative ability than did normal +/+ PMC. Thus, clonal mast cell populations initially derived from single PMC exhibited multiple and bidirectional alterations between CTMC-like and MMC-like phenotypes. However, this process was associated with a progressive diminution of the mast cells' proliferative ability.
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PMID:Multiple bidirectional alterations of phenotype and changes in proliferative potential during the in vitro and in vivo passage of clonal mast cell populations derived from mouse peritoneal mast cells. 341 76

We investigated the biological activity of IL-4 to murine connective tissue-type mast cells (CTMC). When purified peritoneal mast cells, typical CTMC, were incubated with pokeweed mitogen-stimulated spleen cell-conditioned medium (PWM-SCM) in methylcellulose, about one-fifth of mast cells showed clonal growth. Recombinant IL-4 alone did not stimulate the clonal growth, and purified IL-3 alone induced development of a small number of tiny clusters. In contrast, addition of IL-4 to IL-3 increased the number of clusters by a factor of 10. The number and size of clusters induced by the combination of IL-3 and IL-4 were comparable to those of mast cell clusters induced by PWM-SCM. The present results indicate that IL-4 is an essential factor for in vitro clonal growth of CTMC.
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PMID:Interleukin 4 as an essential factor for in vitro clonal growth of murine connective tissue-type mast cells. 349 70

BSF-1/interleukin-4, a product of activated T cells, has multiple biological activities that affect cells of most hematopoietic lineages. Among these is the ability of BSF-1 to costimulate the growth of mast cells and regulate the production of IgE. We demonstrate here that BSF-1 mRNA is expressed by a majority of transformed mast cell lines and by 5 IL-3-dependent non-transformed mast cell lines. BSF-1 activity, including the ability to enhance the growth of IL-3-dependent mast cells, was detected in the supernatants of transformed mast cells. The role of BSF-1 as a mast cell growth factor, its constitutive production by transformed mast cells, and the lack of IL-3 production by most of these cells raise the possibility that BSF-1 may act as an autocrine growth factor for some transformed mast cells. Furthermore, production of BSF-1 mRNA by nontransformed cells indicates that mast cells may be an important physiologic source of this factor.
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PMID:B cell stimulatory factor-1/interleukin-4 mRNA is expressed by normal and transformed mast cells. 349 23

A mast cell-like cell line (SN-1) was established with the aid of growth factor(s) present in the supernatant of a Con A-stimulated L3T4+ T cell line. In analogy to other mast cell lines, IL 3 was identified as a growth factor for SN-1 cells. In addition, a second lymphokine produced by the T cells synergistically enhanced the IL 3-induced growth. This factor, originally termed mast cell growth enhancing factor (MaGEF), could be separated from IL 2, IL 3, and a CSF-like activity and was purified to homogeneity. The N-terminal amino acid sequence (8 residues) and the functional properties of this lymphokine proved to be identical with those reported for BSF-1 (IL 4). Unless applied at high concentrations, purified MaGEF did not stimulate growth of the SN-1 mast cells in the absence of IL 3. MaGEF was also found to act on two IL 2-dependent T cell lines by inducing significant thymidine incorporation which was suboptimal compared to that induced by IL 2 and which cannot be inhibited by anti-IL 2-antibodies. A panel of cell lines developed from mouse bone marrow with IL 3 or with a combination of IL 3 and MaGEF all reacted to MaGEF in the presence of IL 3 with considerably increased proliferation. It is therefore suggested that one of the physiological functions of MaGEF is to promote the recruitment of T-dependent mast cells.
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PMID:Characterization of a T cell-derived lymphokine that acts synergistically with IL 3 on the growth of murine mast cells and is identical with IL 4. 350 Jan 17

Information about the differentiation of mast cells has increased remarkably in the past ten years. This progress has resulted from the introduction of techniques which developed in other fields of experimental hematology. Once mast cells were recognized as a progeny of multipotential hematopoietic stem cells, their unique differentiation processes were clarified. Although most of the progeny of stem cells leave the hematopoietic tissue after maturation, undifferentiated precursors of mast cells leave the hematopoietic tissue. Morphologically, unidentifiable precursors migrate in the bloodstream, invade the connective tissues or the mucosa of the alimentary canal, proliferate, and differentiate into mast cells. Even after their morphological differentiation, some mast cells retain an extensive proliferative potential. There are at least two subpopulations of mast cells: a connective-tissue type and a mucosal type. Connective tissue-type and mucosal mast cells can be distinguished by histochemical, electron microscopical, biochemical and immunological criteria; however, these two types can interchange, and their phenotypes are determined by the anatomical microenvironment in which their final differentiation occurs. Although biochemical natures of the anatomical microenvironment are unknown, molecules that support proliferation and differentiation of mast cells in vitro have been characterized, i.e., interleukin 3 and interleukin 4. In the next ten years, increased information about the differentiation processes will probably induce further understanding of mast cell functions.
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PMID:Differentiation and transdifferentiation of mast cells; a unique member of the hematopoietic cell family. 355 55

In this report we demonstrate that murine bone marrow cells cultured in either interleukin (IL)-3 or mast cell growth factor (MGF, also known as c-kit ligand and stem cell factor) differentially express cytokine genes. Bone marrow cells cultured in IL-3 differentiate and proliferate, taking on a mucosal mast cell-like phenotype. These cells express the IL-4 gene. Bone marrow cells cultured in MGF take on a connective tissue mast cell-like phenotype and possess transcripts for both of the subunits of the IL-12 cytokine. Bone marrow cells cultured in both IL-3 and MGF express the IL-4 gene at lower levels than that seen for the IL-3 culture alone, but do not possess IL-12 gene transcripts. The level of IL-12 subunit transcripts derived from the MGF-derived bone marrow cells was compared to that found in splenocytes and activated macrophages, the only cells in which IL-12 production has been previously documented. Both of the IL-12 subunit transcripts were found, compared to a beta-actin control, to be present within MGF-derived cells in the same if not higher quantities than the splenocyte or macrophage cultures. Mucosal mast cells have been previously implicated in the development of the T helper type 2 (TH2) T cell phenotype via their expression of IL-4. The finding that the MGF-derived connective tissue-like mast cells possess IL-12 transcripts suggests that the development of the TH1 T cell pathway may be positively influenced by this type of mast cell.
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PMID:Preferential expression of interleukin-12 or interleukin-4 by murine bone marrow mast cells derived in mast cell growth factor or interleukin-3. 751 32

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