Association of maturation of the small intestine at weaning with mucosal mast cell activation in the rat

[1]  A. Cummins,et al.  Maturation of the rat small intestine at weaning: changes in epithelial cell kinetics, bacterial flora, and mucosal immune activity. , 1988, Gut.

[2]  A. Ferguson,et al.  Effect of cyclosporin A on rat mucosal mast cells and the associated protease RMCPII. , 1988, Clinical and experimental immunology.

[3]  T. Bolin,et al.  The effect of protein deficiency on systemic release of rat mucosal mast cell protease II during Nippostrongylus brasiliensis infection and following systemic anaphylaxis , 1987, Immunology and cell biology.

[4]  H. Miller,et al.  Mast cell subsets in the rat distinguished immunohistochemically by their content of serine proteinases. , 1986, Immunology.

[5]  J. Denburg,et al.  Mast cell heterogeneity: effects of neuroenteric peptides on histamine release. , 1985, Journal of immunology.

[6]  J. Huntley,et al.  Systemic release of mucosal mast-cell protease in primed rats challenged with Nippostrongylus brasiliensis. , 1983, Immunology.

[7]  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.

[8]  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.

[9]  A. Ferguson,et al.  Intraepithelial lymphocyte count and crypt hyperplasia measure the mucosal component of the graft-versus-host reaction in mouse small intestine. , 1982, Gastroenterology.

[10]  R. Woodbury,et al.  Quantitative analysis of mucosal mast cell protease in the intestines of Nippostrongylus-infected rats. , 1982, Immunology.

[11]  H. Neurath,et al.  Purification of an atypical mast cell protease and its levels in developing rats. , 1978, Biochemistry.

[12]  M. K. Younoszai,et al.  Maturation of jejunum and ileum in rats. Water and electrolyte transport during in vivo perfusion of hypertonic solutions. , 1978, The Journal of clinical investigation.

[13]  A. Ferguson,et al.  Technique for microdissection and measurement in biopsies of human small intestine. , 1977, Journal of clinical pathology.

[14]  A. Ferguson,et al.  Hypersensitivity reactions in small intestine. I Thymus dependence of experimental 'partial villous atrophy'. , 1975, Gut.

[15]  I. Dunn,et al.  Mast cell protease release and mucosal ultrastructure during intestinal anaphylaxis in the rat. , 1988, Gastroenterology.

[16]  C. Mcmenamin,et al.  Phenotypic analysis of mast cell granule proteinases in normal rat bone marrow cultures. , 1987, Immunology.

[17]  D. Wakelin,et al.  Mucosal mast cells are functionally active during spontaneous expulsion of intestinal nematode infections in rat , 1984, Nature.

[18]  J F Harper,et al.  Peritz' F test: basic program of a robust multiple comparison test for statistical analysis of all differences among group means. , 1984, Computers in biology and medicine.

[19]  N. Wright The experimental analysis of changes in proliferative and morphological status in studies on the intestine. , 1982, Scandinavian journal of gastroenterology. Supplement.

[20]  D. Orlic,et al.  Lymphocyte infiltration of gut epithelium in fetal and neonatal rabbits. , 1981, Biology of the neonate.

[21]  P. Sunshine,et al.  Postnatal Development of the Small Intestine of the Rat: Changes in Mucosal Morphology at Weaning , 1969, Pediatric Research.

[22]  H. Spring Morphological response of intestinal mucoss to enteric bacteria and its implication for sprue and Asiatic cholera. , 1962, Federation proceedings.