Mouse and Rat Models of Mast Cell Development

[1]  D. Friend,et al.  Induction of a selective and persistent extravasation of neutrophils into the peritoneal cavity by tryptase mouse mast cell protease 6. , 1998, Journal of immunology.

[2]  A. Sali,et al.  The Tryptase, Mouse Mast Cell Protease 7, Exhibits Anticoagulant Activity in Vivo and in Vitro Due to Its Ability to Degrade Fibrinogen in the Presence of the Diverse Array of Protease Inhibitors in Plasma* , 1997, The Journal of Biological Chemistry.

[3]  A. Sali,et al.  Mouse Mast Cell Protease 9, a Novel Member of the Chromosome 14 Family of Serine Proteases that is Selectively Expressed in Uterine Mast Cells* , 1997, The Journal of Biological Chemistry.

[4]  D. Friend,et al.  Mouse mast cells that possess segmented/multi-lobular nuclei. , 1997, Blood.

[5]  Y. Ma,et al.  Chronically KIT-stimulated clonally-derived human mast cells show heterogeneity in different tissue microenvironments. , 1997, The Journal of investigative dermatology.

[6]  D. Friend,et al.  Glucocorticoids inhibit the cytokine-induced proliferation of mast cells, the high affinity IgE receptor-mediated expression of TNF-alpha, and the IL-10-induced expression of chymases. , 1997, Journal of immunology.

[7]  L. Hellman,et al.  Secretory Granule Proteases in Rat Mast Cells. Cloning of 10 Different Serine Proteases and a Carboxypeptidase A from Various Rat Mast Cell Populations , 1997, The Journal of experimental medicine.

[8]  D. Friend,et al.  Mast cells that reside at different locations in the jejunum of mice infected with Trichinella spiralis exhibit sequential changes in their granule ultrastructure and chymase phenotype , 1996, The Journal of cell biology.

[9]  K. Austen,et al.  Post-transcriptional Stabilization by Interleukin-1β of Interleukin-6 mRNA Induced by c-kit Ligand and Interleukin-10 in Mouse Bone Marrow-derived Mast Cells* , 1996, The Journal of Biological Chemistry.

[10]  A. Sali,et al.  Fate of two mast cell tryptases in V3 mastocytosis and normal BALB/c mice undergoing passive systemic anaphylaxis: prolonged retention of exocytosed mMCP-6 in connective tissues, and rapid accumulation of enzymatically active mMCP-7 in the blood , 1996, The Journal of experimental medicine.

[11]  D. Bredt,et al.  Neuronal Nitric-oxide Synthase-, an Alternatively Spliced Isoform Expressed in Differentiated Skeletal Muscle (*) , 1996, The Journal of Biological Chemistry.

[12]  K. Austen,et al.  Post-transcriptional Regulation of Chymase Expression in Mast Cells , 1996, The Journal of Biological Chemistry.

[13]  S. Galli,et al.  Identification of a Committed Precursor for the Mast Cell Lineage , 1996, Science.

[14]  K. Austen,et al.  Natural Disruption of the Mouse Mast Cell Protease 7 Gene in the C57BL/6 Mouse (*) , 1996, The Journal of Biological Chemistry.

[15]  D. Friend,et al.  Tissue‐dependent differences in the asynchronous appearance of mast cells in normal mice and in congenic mast cell‐deficient mice after infusion of normal bone marrow cells , 1996, Clinical and experimental immunology.

[16]  D. Friend,et al.  Transgenic mice that possess a disrupted mast cell protease 5 (MMCP-5) gene can not store carboxypeptidase a (MMC-CPA) protein in their granules , 1996 .

[17]  M. Murakami,et al.  IgE-dependent activation of cytokine-primed mouse cultured mast cells induces a delayed phase of prostaglandin D2 generation via prostaglandin endoperoxide synthase-2. , 1995, Journal of immunology.

[18]  D. Friend,et al.  Interleukin-3 Regulates Development of the 5-Lipoxygenase/Leukotriene C4 Synthase Pathway in Mouse Mast Cells (*) , 1995, The Journal of Biological Chemistry.

[19]  Richard L. Stevens,et al.  Packaging of Proteases and Proteoglycans in the Granules of Mast Cells and Other Hematopoietic Cells , 1995, The Journal of Biological Chemistry.

[20]  D. Baltimore,et al.  Tissue-regulated differentiation and maturation of a v-abl-immortalized mast cell-committed progenitor. , 1995, Immunity.

[21]  M. Murakami,et al.  The immediate phase of c-kit ligand stimulation of mouse bone marrow- derived mast cells elicits rapid leukotriene C4 generation through posttranslational activation of cytosolic phospholipase A2 and 5- lipoxygenase , 1995, The Journal of experimental medicine.

[22]  D. Metcalfe Interaction of mast cells with extracellular matrix proteins. , 1995, International archives of allergy and immunology.

[23]  W. Simonds,et al.  Identification of a Discrete Region of the G Protein γ Subunit Conferring Selectivity in βγ Complex Formation (*) , 1995, The Journal of Biological Chemistry.

[24]  M. Murakami,et al.  c-Kit Ligand Mediates Increased Expression of Cytosolic Phospholipase A, Prostaglandin Endoperoxide Synthase-1, and Hematopoietic Prostaglandin D Synthase and Increased IgE-dependent Prostaglandin D Generation in Immature Mouse Mast Cells (*) , 1995, The Journal of Biological Chemistry.

[25]  D. Friend,et al.  Lack of expression of the tryptase mouse mast cell protease 7 in mast cells of the C57BL/6J mouse. , 1994, Journal of immunology.

[26]  M. Murakami,et al.  Prostaglandin endoperoxide synthase-1 and -2 couple to different transmembrane stimuli to generate prostaglandin D2 in mouse bone marrow-derived mast cells. , 1994, The Journal of biological chemistry.

[27]  R. Kew,et al.  Transforming growth factor-beta 1 mediates mast cell chemotaxis. , 1994, Journal of immunology.

[28]  Y. Matsuzawa,et al.  Ligand-independent activation of c-kit receptor tyrosine kinase in a murine mastocytoma cell line P-815 generated by a point mutation , 1994 .

[29]  J. Kinet,et al.  Differential control of the tyrosine kinases Lyn and Syk by the two signaling chains of the high affinity immunoglobulin E receptor. , 1994, The Journal of biological chemistry.

[30]  E. Johnson,et al.  Effects of nerve growth factor on rat peritoneal mast cells. Survival promotion and immediate-early gene induction. , 1994, The Journal of biological chemistry.

[31]  D. Friend,et al.  Strain-specific and tissue-specific expression of mouse mast cell secretory granule proteases. , 1994, Proceedings of the National Academy of Sciences of the United States of America.

[32]  K. Austen,et al.  Induction by IL-9 and suppression by IL-3 and IL-4 of the levels of chromosome 14-derived transcripts that encode late-expressed mouse mast cell proteases. , 1993, Journal of immunology.

[33]  D. Friend,et al.  Reversible expression of mouse mast cell protease 2 mRNA and protein in cultured mast cells exposed to IL-10. , 1993, Journal of immunology.

[34]  E. Johnson,et al.  Mediator release from mast cells by nerve growth factor. Neurotrophin specificity and receptor mediation. , 1993, The Journal of biological chemistry.

[35]  J. Nadeau,et al.  A closely linked complex of mouse mast cell-specific chymase genes on chromosome 14. , 1993, The Journal of biological chemistry.

[36]  J. Brown,et al.  Substance P selectively activates TNF-alpha gene expression in murine mast cells. , 1993, Journal of immunology.

[37]  M Karplus,et al.  Three-dimensional models of four mouse mast cell chymases. Identification of proteoglycan binding regions and protease-specific antigenic epitopes. , 1993, The Journal of biological chemistry.

[38]  T. Ley,et al.  Molecular cloning, chromosomal location, and tissue-specific expression of the murine cathepsin G gene. , 1993, Blood.

[39]  D. Gurley,et al.  Isolation, characterization, and transcription of the gene encoding mouse mast cell protease 7. , 1992, Proceedings of the National Academy of Sciences of the United States of America.

[40]  J. Weis,et al.  Modulation of integrin expression during mast cell differentiation , 1992, European journal of immunology.

[41]  D. Friend,et al.  Translation and granule localization of mouse mast cell protease-5. Immunodetection with specific antipeptide Ig. , 1992, Journal of immunology.

[42]  K. Austen,et al.  IL-10 induces transcription of the gene for mouse mast cell protease-1, a serine protease preferentially expressed in mucosal mast cells of Trichinella spiralis-infected mice. , 1992, Journal of immunology.

[43]  L. Ducharme,et al.  Expression of murine beta 7, alpha 4, and beta 1 integrin genes by rodent mast cells. , 1992, Journal of immunology.

[44]  D. Johnson,et al.  Molecular cloning and characterization of mouse mast cell chymases. , 1992, Biochimica et biophysica acta.

[45]  K. Austen,et al.  Transcriptional regulation of the mucosal mast cell-specific protease gene, MMCP-2, by interleukin 10 and interleukin 3. , 1992, The Journal of biological chemistry.

[46]  K. Austen,et al.  Differential expression of secretory granule proteases in mouse mast cells exposed to interleukin 3 and c-kit ligand , 1992, The Journal of experimental medicine.

[47]  F. Levi-Schaffer,et al.  Serosal mast cells maintain their viability and promote the metabolism of cartilage proteoglycans when cocultured with chondrocytes. , 1992, Arthritis and rheumatism.

[48]  G. Barton,et al.  Mast cell tryptases: Examination of unusual characteristics by multiple sequence alignment and molecular modeling , 1992, Protein science : a publication of the Protein Society.

[49]  S. Nishikawa,et al.  Necessity of extracellular domain of W (c-kit) receptors for attachment of murine cultured mast cells to fibroblasts. , 1992, Blood.

[50]  K. Austen,et al.  Negative and positive cis-acting elements in the promoter of the mouse gene that encodes the serine/glycine-rich peptide core of secretory granule proteoglycans. , 1992, Journal of Biological Chemistry.

[51]  L. Zon,et al.  GATA-binding transcription factors in mast cells regulate the promoter of the mast cell carboxypeptidase A gene. , 1991, The Journal of biological chemistry.

[52]  K. Austen,et al.  Molecular cloning of the mouse mast cell protease-5 gene. A novel secretory granule protease expressed early in the differentiation of serosal mast cells. , 1991, The Journal of biological chemistry.

[53]  H. C. Scott,et al.  Molecular cloning of gp49, a cell-surface antigen that is preferentially expressed by mouse mast cell progenitors and is a new member of the immunoglobulin superfamily. , 1991, The Journal of biological chemistry.

[54]  D. Metcalfe,et al.  Mast cell adhesion to fibronectin. , 1991, Immunology.

[55]  M. Tsai,et al.  Induction of mast cell proliferation, maturation, and heparin synthesis by the rat c-kit ligand, stem cell factor. , 1991, Proceedings of the National Academy of Sciences of the United States of America.

[56]  K. Austen,et al.  Identification of aminopeptidase activity in the secretory granules of mouse mast cells. , 1991, Proceedings of the National Academy of Sciences of the United States of America.

[57]  L. Hellman,et al.  Cloning and structural analysis of MMCP‐1, MMCP‐4 and MMCP‐5, three mouse mast cell‐specific serine proteases , 1991, European journal of immunology.

[58]  Y. Kitamura,et al.  Nerve growth factor induces development of connective tissue-type mast cells in vitro from murine bone marrow cells , 1991, The Journal of experimental medicine.

[59]  D. Gurley,et al.  Cloning of the cDNA and gene of mouse mast cell protease-6. Transcription by progenitor mast cells and mast cells of the connective tissue subclass. , 1991, The Journal of biological chemistry.

[60]  K. Austen,et al.  Cloning of the cDNA and gene for mouse mast cell protease 4. Demonstration of its late transcription in mast cell subclasses and analysis of its homology to subclass-specific neutral proteases of the mouse and rat. , 1991, The Journal of biological chemistry.

[61]  H. Neurath,et al.  Rat mast cell carboxypeptidase: amino acid sequence and evidence of enzyme activity within mast cell granules. , 1991, Biochemistry.

[62]  P. Leder,et al.  The kit ligand: A cell surface molecule altered in steel mutant fibroblasts , 1990, Cell.

[63]  William Arbuthnot Sir Lane,et al.  Different mouse mast cell populations express various combinations of at least six distinct mast cell serine proteases. , 1990, Proceedings of the National Academy of Sciences of the United States of America.

[64]  J. Nadeau,et al.  A complex of serine protease genes expressed preferentially in cytotoxic T-lymphocytes is closely linked to the T-cell receptor α- and δ-chain genes on mouse chromosome 14. , 1990 .

[65]  William Arbuthnot Sir Lane,et al.  Identification and molecular cloning of a novel mouse mucosal mast cell serine protease. , 1990, The Journal of biological chemistry.

[66]  D. Wakelin,et al.  Distribution of intestinal mast cell proteinase in blood and tissues of normal and Trichinella‐intected mice , 1990, Parasite immunology.

[67]  William Arbuthnot Sir Lane,et al.  Isolation and molecular cloning of mast cell carboxypeptidase A. A novel member of the carboxypeptidase gene family. , 1989, The Journal of biological chemistry.

[68]  K. Austen,et al.  Cloning and characterization of the mouse gene that encodes the peptide core of secretory granule proteoglycans and expression of this gene in transfected rat-1 fibroblasts. , 1989, Journal of Biological Chemistry.

[69]  J. Kinet,et al.  Complete structure of the mouse mast cell receptor for IgE (Fc epsilon RI) and surface expression of chimeric receptors (rat-mouse-human) on transfected cells. , 1989, The Journal of biological chemistry.

[70]  G. Firestein,et al.  Transforming growth factor-beta 1 selectively inhibits IL-3-dependent mast cell proliferation without affecting mast cell function or differentiation. , 1989, Journal of immunology.

[71]  W. Mitzner,et al.  Autosomal recessive inheritance of airway hyperreactivity to 5-hydroxytryptamine. , 1989, Journal of applied physiology.

[72]  S. Galli,et al.  Interleukin 3-dependent and -independent mast cells stimulated with IgE and antigen express multiple cytokines , 1989, The Journal of experimental medicine.

[73]  K. Austen,et al.  Regulation of the growth rate of mouse fibroblasts by IL-3-activated mouse bone marrow-derived mast cells. , 1989, Journal of immunology.

[74]  C. Heusser,et al.  Production of the haemopoietic growth factors GM-CSF and interleukin-3 by mast cells in response to IgE receptor-mediated activation , 1989, Nature.

[75]  W. Paul,et al.  Mast cell lines produce lymphokines in response to cross-linkage of FcεRI or to calcium ionophores , 1989, Nature.

[76]  K. Austen,et al.  Molecular cloning of a cDNA that encodes the peptide core of a mouse mast cell secretory granule proteoglycan and comparison with the analogous rat and human cDNA. , 1989, Proceedings of the National Academy of Sciences of the United States of America.

[77]  P. Benfey,et al.  The mast cell-specific expression of a protease gene, RMCP II, is regulated by an enhancer element that binds specifically to mast cell trans-acting factors. , 1989, The Journal of biological chemistry.

[78]  H. Neurath,et al.  Amino acid sequence of a mouse mucosal mast cell protease. , 1989, Biochemistry.

[79]  D. Wakelin,et al.  Granule proteinases define mast cell heterogeneity in the serosa and the gastrointestinal mucosa of the mouse. , 1988, Immunology.

[80]  D. Faller,et al.  Immortalization of murine connective tissue-type mast cells at multiple stages of their differentiation by coculture of splenocytes with fibroblasts that produce Kirsten sarcoma virus. , 1988, The Journal of biological chemistry.

[81]  K. Austen,et al.  Isolation of a cDNA that encodes the peptide core of the secretory granule proteoglycan of rat basophilic leukemia-1 cells and assessment of its homology to the human analogue. , 1988, The Journal of biological chemistry.

[82]  K. Austen,et al.  Coculture of mouse IL-3-dependent mast cells with 3T3 fibroblasts stimulates synthesis of globopentaosylceramide (Forssman glycolipid) by fibroblasts and surface expression on both populations. , 1988, Journal of immunology.

[83]  P. Benfey,et al.  Human and rat mast cell high-affinity immunoglobulin E receptors: characterization of putative alpha-chain gene products. , 1988, Proceedings of the National Academy of Sciences of the United States of America.

[84]  Hans Neurath,et al.  The structure of rat mast cell protease II at 1.9-A resolution. , 1984, Biochemistry.

[85]  K. Austen,et al.  3T3 fibroblasts induce cloned interleukin 3-dependent mouse mast cells to resemble connective tissue mast cells in granular constituency. , 1988, Proceedings of the National Academy of Sciences of the United States of America.

[86]  R. Grencis,et al.  Characterization and mast cell origin of a chymotrypsin-like proteinase isolated from intestines of mice infected with Trichinella spiralis. , 1987, Immunology.

[87]  K. Austen,et al.  Carboxypeptidase A in mouse mast cells. Identification, characterization, and use as a differentiation marker. , 1987, Journal of immunology.

[88]  K. Austen,et al.  Mouse bone marrow-derived mast cells cocultured with fibroblasts. Morphology and stimulation-induced release of histamine, leukotriene B4, leukotriene C4, and prostaglandin D2. , 1987, Journal of immunology.

[89]  D. Parmelee,et al.  Amino acid sequence of rat mast cell protease I (chymase). , 1987, Biochemistry.

[90]  J. Kinet,et al.  A cDNA presumptively coding for the alpha subunit of the receptor with high affinity for immunoglobulin E. , 1987, Biochemistry.

[91]  P. Benfey,et al.  Cloning of the mast cell protease, RMCP II. Evidence for cell-specific expression and a multi-gene family. , 1987, The Journal of biological chemistry.

[92]  M. B. De Young,et al.  Measurement of the internal pH of mast cell granules using microvolumetric fluorescence and isotopic techniques. , 1987, Archives of biochemistry and biophysics.

[93]  S. Galli,et al.  Phenotypic changes of bone marrow-derived mast cells after intraperitoneal transfer into W/Wv mice that are genetically deficient in mast cells , 1987, The Journal of experimental medicine.

[94]  K. Austen,et al.  Coculture of interleukin 3-dependent mouse mast cells with fibroblasts results in a phenotypic change of the mast cells. , 1986, Proceedings of the National Academy of Sciences of the United States of America.

[95]  G. Shaw,et al.  A conserved AU sequence from the 3′ untranslated region of GM-CSF mRNA mediates selective mRNA degradation , 1986, Cell.

[96]  Y. Kitamura,et al.  Development of mucosal mast cells after injection of a single connective tissue-type mast cell in the stomach mucosa of genetically mast cell-deficient W/Wv mice. , 1986, Journal of immunology.

[97]  F. Denizot,et al.  The inducible cytotoxic T-lymphocyte-associated gene transcript CTLA-1 sequence and gene localization to mouse chromosome 14 , 1986, Nature.

[98]  D. Seldin,et al.  Intestinal mucosal mast cells from rats infected with Nippostrongylus brasiliensis contain protease-resistant chondroitin sulfate di-B proteoglycans. , 1986, Journal of immunology.

[99]  L. Schwartz,et al.  Two types of human mast cells that have distinct neutral protease compositions. , 1986, Proceedings of the National Academy of Sciences of the United States of America.

[100]  K. Austen,et al.  Fibroblasts maintain the phenotype and viability of the rat heparin-containing mast cell in vitro. , 1985, Journal of immunology.

[101]  D. Seldin,et al.  Purification and characterization of protease-resistant secretory granule proteoglycans containing chondroitin sulfate di-B and heparin-like glycosaminoglycans from rat basophilic leukemia cells. , 1985, The Journal of biological chemistry.

[102]  J. Ihle,et al.  Infection of immune mast cells by Harvey sarcoma virus: immortalization without loss of requirement for interleukin-3 , 1985, Molecular and cellular biology.

[103]  S. Galli,et al.  Fate of bone marrow-derived cultured mast cells after intracutaneous, intraperitoneal, and intravenous transfer into genetically mast cell- deficient W/Wv mice. Evidence that cultured mast cells can give rise to both connective tissue type and mucosal mast cells , 1985, The Journal of experimental medicine.

[104]  J. Pumphrey,et al.  Neoplastic transformation of mast cells by Abelson-MuLV: abrogation of IL-3 dependence by a nonautocrine mechanism , 1985, Cell.

[105]  D. Seldin,et al.  Homology of the rat basophilic leukemia cell and the rat mucosal mast cell. , 1985, Proceedings of the National Academy of Sciences of the United States of America.

[106]  E. Ruoslahti,et al.  Molecular cloning and sequence analysis of a chondroitin sulfate proteoglycan cDNA. , 1985, Proceedings of the National Academy of Sciences of the United States of America.

[107]  D. Seldin,et al.  Interleukin 3: A differentiation and growth factor for the mouse mast cell that contains chondroitin sulfate E proteoglycan. , 1984, Journal of immunology.

[108]  J. Ihle,et al.  Biologic properties of homogeneous interleukin 3. I. Demonstration of WEHI-3 growth factor activity, mast cell growth factor activity, p cell-stimulating factor activity, colony-stimulating factor activity, and histamine-producing cell-stimulating factor activity. , 1983, Journal of immunology.

[109]  M. Moore,et al.  Characterization of mast cell precursors by physical means: dissociation from T cells and T cell precursors. , 1983, Journal of immunology.

[110]  E. Corey,et al.  IgE-mediated release of leukotriene C4, chondroitin sulfate E proteoglycan, beta-hexosaminidase, and histamine from cultured bone marrow-derived mouse mast cells , 1983, The Journal of experimental medicine.

[111]  T. McKee,et al.  Generation of mucosal mast cells is stimulated in vitro by factors derived from T cells of helminth-infected rats , 1982, Nature.

[112]  J. Oates,et al.  Prostaglandin D2 generation after activation of rat and human mast cells with anti-IgE. , 1982, Journal of immunology.

[113]  T. Triche,et al.  Characterization of the receptors for IgE on membranes isolated from rats basophilic leukemia cells. , 1982, Molecular immunology.

[114]  K. Austen,et al.  Culture from mouse bone marrow of a subclass of mast cells possessing a distinct chondroitin sulfate proteoglycan with glycosaminoglycans rich in N-acetylgalactosamine-4,6-disulfate. , 1982, The Journal of biological chemistry.

[115]  K.,et al.  Effect of p-nitrophenyl-beta-D-xyloside on proteoglycan and glycosaminoglycan biosynthesis in rat serosal mast cell cultures. , 1982, The Journal of biological chemistry.

[116]  M. Moore,et al.  Long-term in vitro culture of murine mast cells. I. Description of a growth factor-dependent culture technique. , 1981, Journal of immunology.

[117]  H. Dvorak,et al.  Inducer T lymphocytes synthesize a factor that stimulates proliferation of cloned mast cells , 1981, Nature.

[118]  K. Yokoro,et al.  Continuous lines of basophil/mast cells derived from normal mouse bone marrow. , 1981, Science.

[119]  C. Cordon-Cardo,et al.  Growth of a pure population of mouse mast cells in vitro with conditioned medium derived from concanavalin A-stimulated splenocytes. , 1981, Proceedings of the National Academy of Sciences of the United States of America.

[120]  J. Culvenor,et al.  The persisting (P) cell: histamine content, regulation by a T cell-derived factor, origin from a bone marrow precursor, and relationship to mast cells. , 1981, Proceedings of the National Academy of Sciences of the United States of America.

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[122]  Y. Kitamura,et al.  Decrease of mast cells in W/Wv mice and their increase by bone marrow transplantation. , 1978, Blood.

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[124]  K. Austen,et al.  Native heparin from rat peritoneal mast cells. , 1977, The Journal of biological chemistry.

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