John Clancy scite author profile

Innate effector cells that produce Th2-type cytokines are critical in Th2 cell-mediated immune responses. However, it is not known how these cells acquire the ability to produce Th2 cytokines. IL-4 is a potent inducer that directs differentiation of naive CD4+ T cells into CD4+ Th2 effector cells. To determine whether IL-4 can induce differentiation and expansion of Th2 cytokine-producing innate cells, we used mice whose il-4 gene was replaced by a knock-in green fluorescence protein (gfp) gene. We found that, directly ex vivo, IL-4 increased the number of GFP+ cells in the airway and the lung tissue in an Ag-specific manner. The majority of GFP+ cells were eosinophils, suggesting that IL-4 plays a pivotal role in expanding IL-4-producing eosinophils in vivo. IL-4-producing eosinophils showed some unique features compared with IL-4-producing CD4+ T cells. They exhibited biallelic expression of the il-4 gene when stimulated and were more dominant IL-4- and IL-5-producing cells. Furthermore, we show that IL-4 drove bone marrow progenitor cells to differentiate into Th2 cytokine-producing eosinophils in vitro. These results strongly suggest IL-4 is a potent factor in directing bone marrow progenitor cells to differentiate into Th2 cytokine-producing eosinophils.

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Effect of the mi allele on mast cells, basophils, natural killer cells, and osteoclasts in C57BI/6J mice

Stechschulte

Sharma

Dileepan

et al. 1987

Journal Cellular Physiology

105

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The osteopetrotic, microphthalmic (mi/mi) mouse lacks functional osteoclasts and has also been reported to be deficient in mast cells and natural-killer (NK) cells. The later deficiencies could be secondary to the osteopetrotic marrow, or a direct result of the mi allele. Therefore, heterozygotes were examined for these cell types, since these mice do not exhibit osteopetrosis. Adult +/mi animals have approximately 50%, and mi/mi animals examined by histologic techniques or tissue histamine levels have 0-10%, of the peritoneal, dermal, and intestinal mast cells compared with that of +/+ animals. Leukocyte histamine, indicative of the number of basophils, demonstrates the same pattern. Histamine content per mast cell in +/+ and +/mi animals is identical. The number of large granular lymphocytes (LGL) in splenic leukocyte preparations from +/mi animals is 50% that of +/+ animals, and these cells are undetectable in preparations from mi/mi mice. NK activity against YAC-1 cells paralleled the number of LGL present. The resorptive response of neonatal calvaria to parathyroid hormone was delayed in the case of cultured +/mi bone compared with that of +/+ bone, but the final rate of calcium release was identical. These data indicate that 1) the presence of one mi allele can affect the development of four distinct cell types, and 2) osteopetrosis alone does not account for the lack of mast cells, basophils, and NK cells in mi/mi mice.

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Neurochemical, endocrine and immunological responses to stress in young and old Fischer 344 male rats

Lorens

Hata

Handa

et al. 1990

Neurobiology of Aging

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INDUCTION OF TNFα AND TNFβ GENE EXPRESSION IN RAT CARDIAC TRANSPLANTS DURING ALLOGRAFT REJECTION

et al. 1993

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John Clancy

IL-4 Induces Differentiation and Expansion of Th2 Cytokine-Producing Eosinophils

Effect of the mi allele on mast cells, basophils, natural killer cells, and osteoclasts in C57BI/6J mice

Neurochemical, endocrine and immunological responses to stress in young and old Fischer 344 male rats

INDUCTION OF TNFα AND TNFβ GENE EXPRESSION IN RAT CARDIAC TRANSPLANTS DURING ALLOGRAFT REJECTION

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