Your search keyword '"Paul, W. E."' showing total 839 results

1. The TNF-family cytokine TL1A promotes allergic immunopathology through group 2 innate lymphoid cells

Author

Meylan, F, Hawley, E T, Barron, L, Barlow, J L, Penumetcha, P, Pelletier, M, Sciumè, G, Richard, A C, Hayes, E T, Gomez-Rodriguez, J, Chen, X, Paul, W E, Wynn, T A, McKenzie, A N J, and Siegel, R M

Published

2014

2. Role of Lymphokines in the Immune System

Author

Vitetta, E. S., Paul, W. E., Sporn, Michael B., editor, and Roberts, Anita B., editor

Published

1990

3. Role of Lymphokines in the Immune System

Author

Vitetta, E. S., primary and Paul, W. E., additional

Published

1990

4. Lack of IL-4-induced Th2 response and IgE class switching in mice with disrupted Stat6 gene

Author

Shimoda, Kazuya, Deursen, Jan van, Sangster, Mark Y., Sarawar, Sally R., Carson, Richard T., Tripp, Ralph A., Chu, Charles, Quelle, Frederick W., Nosaka, Tetsuya, Vignali, Dario A. A., Doherty, P. C., Grosveld, G., Paul, W. E., and Ihle, J. N.

Published

1996

5. Formation of Antibody in the Newborn Mouse: Study of T-Cell-Independent Antibody Response

Author

Mosier, D. E., Zaldivar, N. M., Goldings, E., Mond, J., Scher, I., and Paul, W. E.

Published

1977

6. Induction of B Cell Proliferation and Differentiation

Author

Paul, W. E., Bernhard, Silke, editor, and Weissman, I. L., editor

Published

1985

7. Regulation of Hematopoietic Differentiation and Its Disruption Group Report

Author

Fathman, C. G., Ganser, A., Iscove, N. N., Karpowicz, M., Kishimoto, T., Klein, E., Krammer, P. H., Lilly, F., Melchers, F., Metcalf, D., Meyer, P. A., Moore, M. A. S., Paul, W. E., Bernhard, Silke, editor, and Weissman, I. L., editor

Published

1985

8. Cellular Cooperation in Antibody Production

Author

Paul, W. E., Melchers, Fritz, editor, Albert, E. D., editor, von Boehmer, H., editor, Dierich, M. P., editor, Du Pasquier, L., editor, Eichmann, K., editor, Gemsa, D., editor, Götze, O., editor, Kalden, J. R., editor, Kaufmann, S. H. E., editor, Kirchner, H., editor, Resch, K., editor, Riethmüller, G., editor, Schimpl, A., editor, Sorg, C., editor, Steinmetz, M., editor, Wagner, H., editor, and Zachau, H. G., editor

Published

1989

9. Lymphatic Tissue in Tolerance, Immunosuppression and Facilitation: Summary

Author

Paul, W. E., Janković, Branislav D., editor, and Isaković, Katarina, editor

Published

1973

10. IL-4 and IL-13 production in differentiated T helper type 2 cells is not IL-4 dependent

Author

Hua Huang, Hu-Li, J., Chen, H., Ben-Sasson, S. Z., and Paul, W. E.

Subjects

Immunology, Immunology and Allergy

Abstract

CD4+ T cell differentiation into cells capable of producing IL-4 and IL-13 (Th2 cells) requires the presence of IL-4 and is STAT-6 dependent. Here we show that IL-4 is not required for IL-4 or IL-13 production by Th2 cells. Anti-IL-4 or anti-IL-4R Ab did not diminish IL-4 production by Th2 cells in response to TCR-mediated stimulation, nor did IL-4 enhance IL-4 production in response to stimulation of Th2 cells with limiting amounts of Ag. Th2 cells prepared from IL-4 knockout mice were capable of producing IL-13 mRNA in response to stimulation with immobilized anti-CD3. IL-4 did not increase IL-13 mRNA expression. Despite the failure of IL-4 to effect IL-4 production by primed Th2 cells, a STAT-6 binding element was demonstrated in the IL-4 promoter. The authenticity of this element was demonstrated by oligonucleotide competition, by supershifting with anti-STAT-6 Ab, and by IL-4-inducible effects on transcription of a reporter gene under the control of a multimerized element fused to an IL-4 minimal promoter. Nonetheless, an IL-4 promoter construct lacking the STAT-6 binding element was as effective as a construct containing this element in anti-CD3-induced reporter transcription. Thus, this element, if biologically active, must function at a step in T cell responsiveness distinct from the acute production of IL-4 by Th2 cells in response to Ag or anti-CD3.

Published

1997

11. A biochemical analysis of Ak molecules from mutant antigen presenting cell lines

Author

Chatterjee-Das, S., Schlauder, G. G., Sachs, D. H., Glimcher, L. H., Paul, W. E., and McKean, D. J.

Published

1986

12. IL-4 production by T cells from naive donors. IL-2 is required for IL-4 production

Author

Ben-Sasson, S. Z., Graham Le Gros, Conrad, D. H., Finkelman, F. D., and Paul, W. E.

Subjects

Immunology, Immunology and Allergy

Abstract

Utilizing a sensitive and selective assay for IL-4, it was shown that lymph node T cells from naive mice could produce small amounts of this lymphokine in response to anti-CD3 antibodies adsorbed to culture dishes. The capacity of these cells to produce IL-4 in response to plate-bound anti-CD3 was substantially enhanced by the addition of IL-2 to the culture and was strikingly inhibited by monoclonal anti-IL-2 antibody. Thus, IL-2 appears to be essential for IL-4 production by anti-CD3 antibody-stimulated T cells from naive mice. The effect of IL-2 was not mediated either by preferential proliferation or survival of precursors of IL-4 producing cells, indicating that IL-2 regulates T cell production of IL-4. IL-4 producing capacity of T cells from naive mice was found mainly among CD4+ T cells. Large T cells produced much more IL-4, on a per cell basis, than did small T cells. In contrast, small T cells appeared to be equal or superior to large T cells in producing IL-2. The superiority of large T cells in IL-4-producing capacity was not accounted for by a lack of an accessory cell population from the small T cells as addition of large spleen cells depleted of both B and T cells did not enhance IL-4 production by small lymph node T cells. These results suggest that the bulk of IL-4 production by T cell populations, from normal mice, in response to anti-CD3 depends upon cells that are already activated and that IL-2 is required for such production.

Published

1990

13. Lymphatic Tissue in Tolerance, Immunosuppression and Facilitation: Summary

Author

Paul, W. E., primary

Published

1973

14. IL-1 Strikingly Enhances Antigen-Driven CD4 and CD8 T-Cell Responses

Author

Ben-Sasson, S. Z., primary, Wang, K., additional, Cohen, J., additional, and Paul, W. E., additional

Published

2013

15. An updated view on transcription factor GATA3-mediated regulation of Th1 and Th2 cell differentiation

Author

Yagi, R., primary, Zhu, J., additional, and Paul, W. E., additional

Published

2011

16. Nomenclature for secreted regulatory proteins of the immune system (interleukins). WHO-IUIS Nomenclature Subcommittee on Interleukin Designation

Author

Paul, W E, Kishimoto, T, Melchers, F, Metcalf, D, Mosmann, T, Oppenheim, J, Ruddle, N, and Van Snick, J

Subjects

Letter, Interleukins, Terminology as Topic, Research Article

Published

1992

17. IL-4 and IL-13 production in differentiated T helper type 2 cells is not IL-4 dependent.

Author

Huang, H, primary, Hu-Li, J, additional, Chen, H, additional, Ben-Sasson, S Z, additional, and Paul, W E, additional

Published

1997

18. Cultured NK1.1+ CD4+ T cells produce large amounts of IL-4 and IFN-gamma upon activation by anti-CD3 or CD1.

Author

Chen, H, primary and Paul, W E, additional

Published

1997

19. Fc epsilonRI-deficient mice infected with Schistosoma mansoni mount normal Th2-type responses while displaying enhanced liver pathology.

Author

Jankovic, D, primary, Kullberg, M C, additional, Dombrowicz, D, additional, Barbieri, S, additional, Caspar, P, additional, Wynn, T A, additional, Paul, W E, additional, Cheever, A W, additional, Kinet, J P, additional, and Sher, A, additional

Published

1997

20. NK1.1+ CD4+ T cells lose NK1.1 expression upon in vitro activation.

Author

Chen, H, primary, Huang, H, additional, and Paul, W E, additional

Published

1997

21. The IL-4-induced tyrosine phosphorylation of the insulin receptor substrate is dependent on JAK1 expression in human fibrosarcoma cells.

Author

Wang, H Y, primary, Zamorano, J, additional, Yoerkie, J L, additional, Paul, W E, additional, and Keegan, A D, additional

Published

1997

22. p161, a murine membrane protein expressed on mast cells and some macrophages, is mouse CD13/aminopeptidase N.

Author

Chen, H, primary, Kinzer, C A, additional, and Paul, W E, additional

Published

1996

23. Expression of IFN regulatory factor family proteins in lymphocytes. Induction of Stat-1 and IFN consensus sequence binding protein expression by T cell activation.

Author

Nelson, N, primary, Kanno, Y, additional, Hong, C, additional, Contursi, C, additional, Fujita, T, additional, Fowlkes, B J, additional, O'Connell, E, additional, Hu-Li, J, additional, Paul, W E, additional, Jankovic, D, additional, Sher, A F, additional, Coligan, J E, additional, Thornton, A, additional, Appella, E, additional, Yang, Y, additional, and Ozato, K, additional

Published

1996

24. Defective IgE production by SJL mice is linked to the absence of CD4+, NK1.1+ T cells that promptly produce interleukin 4.

Author

Yoshimoto, T, primary, Bendelac, A, additional, Hu-Li, J, additional, and Paul, W E, additional

Published

1995

25. Similarities and differences in signal transduction by interleukin 4 and interleukin 13: analysis of Janus kinase activation.

Author

Keegan, A D, primary, Johnston, J A, additional, Tortolani, P J, additional, McReynolds, L J, additional, Kinzer, C, additional, O'Shea, J J, additional, and Paul, W E, additional

Published

1995

26. Interleukin 4 signals through two related pathways.

Author

Pernis, A, primary, Witthuhn, B, additional, Keegan, A D, additional, Nelms, K, additional, Garfein, E, additional, Ihle, J N, additional, Paul, W E, additional, Pierce, J H, additional, and Rothman, P, additional

Published

1995

27. Identification of Fc epsilon RIneg mast cells in mouse bone marrow cell cultures. Use of a monoclonal anti-p161 antibody.

Author

Kinzer, C A, primary, Keegan, A D, additional, and Paul, W E, additional

Published

1995

28. Mast cells lacking the high affinity immunoglobulin E receptor are deficient in Fc epsilon RI gamma messenger RNA.

Author

Ryan, J J, primary, Kinzer, C A, additional, and Paul, W E, additional

Published

1995

29. IgE receptor-positive non-B/non-T cells dominate the production of interleukin 4 and interleukin 6 in immunized mice.

Author

Aoki, I, primary, Kinzer, C, additional, Shirai, A, additional, Paul, W E, additional, and Klinman, D M, additional

Published

1995

30. Acquisition of Lymphokine-Producing Phenotype by CD4+ T Cells

Author

Seder, R A, primary and Paul, W E, additional

Published

1994

31. CD4pos, NK1.1pos T cells promptly produce interleukin 4 in response to in vivo challenge with anti-CD3.

Author

Yoshimoto, T, primary and Paul, W E, additional

Published

1994

32. CD28-mediated costimulation of interleukin 2 (IL-2) production plays a critical role in T cell priming for IL-4 and interferon gamma production.

Author

Seder, R A, primary, Germain, R N, additional, Linsley, P S, additional, and Paul, W E, additional

Published

1994

33. Interleukin 12 acts directly on CD4+ T cells to enhance priming for interferon gamma production and diminishes interleukin 4 inhibition of such priming.

Author

Seder, R A, primary, Gazzinelli, R, additional, Sher, A, additional, and Paul, W E, additional

Published

1993

34. Interleukin 5 induces S mu-S gamma 1 DNA rearrangement in B cells activated with dextran-anti-IgD antibodies and interleukin 4: a three component model for Ig class switching.

Author

Mandler, R, primary, Chu, C C, additional, Paul, W E, additional, Max, E E, additional, and Snapper, C M, additional

Published

1993

35. Molecular dissection of the mouse interleukin-4 promoter.

Author

Bruhn, K W, primary, Nelms, K, additional, Boulay, J L, additional, Paul, W E, additional, and Lenardo, M J, additional

Published

1993

36. DNA rearrangement can account for in vitro switching to IgG1.

Author

Chu, C C, primary, Max, E E, additional, and Paul, W E, additional

Published

1993

37. Interleukin 4 suppresses interleukin 2 and interferon gamma production by naive T cells stimulated by accessory cell-dependent receptor engagement.

Author

Tanaka, T, primary, Hu-Li, J, additional, Seder, R A, additional, Fazekas de St Groth, B, additional, and Paul, W E, additional

Published

1993

38. Anti-IL-4 diminishes in vivo priming for antigen-specific IL-4 production by T cells.

Author

Gross, A, primary, Ben-Sasson, S Z, additional, and Paul, W E, additional

Published

1993

39. A comment on the commentary

Author

Simpson, E., Lieberman, R., Andó, I., Sachs, D. H., Paul, W. E., and Berzofsky, J. A.

Published

1986

40. Adaptive cellular interactions in the immune system: the tunable activation threshold and the significance of subthreshold responses.

Author

Grossman, Z, primary and Paul, W E, additional

Published

1992

41. The presence of interleukin 4 during in vitro priming determines the lymphokine-producing potential of CD4+ T cells from T cell receptor transgenic mice.

Author

Seder, R A, primary, Paul, W E, additional, Davis, M M, additional, and Fazekas de St Groth, B, additional

Published

1992

42. Structure of the gene for the alpha-chain of the mouse high affinity receptor for IgE (Fc epsilon RI).

Author

Ye, Z S, primary, Kinet, J P, additional, and Paul, W E, additional

Published

1992

43. Quantitation of immunoglobulin mu-gamma 1 heavy chain switch region recombination by a digestion-circularization polymerase chain reaction method.

Author

Chu, C C, primary, Paul, W E, additional, and Max, E E, additional

Published

1992

44. CD8+ T cells can be primed in vitro to produce IL-4.

Author

Seder, R A, primary, Boulay, J L, additional, Finkelman, F, additional, Barbier, S, additional, Ben-Sasson, S Z, additional, Le Gros, G, additional, and Paul, W E, additional

Published

1992

45. Activation events during thymic selection.

Author

Bendelac, A, primary, Matzinger, P, additional, Seder, R A, additional, Paul, W E, additional, and Schwartz, R H, additional

Published

1992

46. An antisense oligonucleotide complementary to a sequence in I gamma 2b increases gamma 2b germline transcripts, stimulates B cell DNA synthesis, and inhibits immunoglobulin secretion.

Author

Tanaka, T, primary, Chu, C C, additional, and Paul, W E, additional

Published

1992

47. Purified Fc epsilon R+ bone marrow and splenic non-B, non-T cells are highly enriched in the capacity to produce IL-4 in response to immobilized IgE, IgG2a, or ionomycin.

Author

Seder, R A, primary, Plaut, M, additional, Barbieri, S, additional, Urban, J, additional, Finkelman, F D, additional, and Paul, W E, additional

Published

1991

48. Interleukin 4 is important in protective immunity to a gastrointestinal nematode infection in mice.

Author

Urban, J F, primary, Katona, I M, additional, Paul, W E, additional, and Finkelman, F D, additional

Published

1991

49. IL-4 requirements for the generation of secondary in vivo IgE responses.

Author

Katona, I M, primary, Urban, J F, additional, Kang, S S, additional, Paul, W E, additional, and Finkelman, F D, additional

Published

1991

50. IL-4 increases IL-2 production by T cells in response to accessory cell-independent stimuli.

Author

Tanaka, T, primary, Ben-Sasson, S Z, additional, and Paul, W E, additional

Published

1991