Interleukin‐7 regulates c‐myc expression in murine T cells and thymocytes: a role for tyrosine kinase(s) and calcium mobilization

Interleukin‐7 regulates c‐myc expression in murine T cells and thymocytes: a role for tyrosine kinase(s) and calcium mobilization

Interleukin‐7 (IL‐7) was originally identified as a pre‐B cell growth factor whose proliferating activity has been extended to numerous target cells including T lymphocytes. We investigated c‐myc mRNA expression, an oncogene associated with proliferation, in the murine T cell line D10 G4.1 and fresh...

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Veröffentlicht in:European journal of immunology 1994-03, Vol.24 (3), p.716-722
Hauptverfasser: Seckinger, Philippe, Milili, Michèle, Schiff, Claudine, Fougereau, Michel
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Calcium - metabolism
Concanavalin A - administration & dosage
c‐myc
Dose-Response Relationship, Drug
Drug Synergism
Female
Gene Expression Regulation - drug effects
Genes, myc
Interleukin-7 - administration & dosage
Interleukin-7 - physiology
Interleukin‐7
Lymphocyte Activation
Mice
Mice, Inbred C57BL
Phosphotyrosine
Protein Kinase C - physiology
Protein-Tyrosine Kinases - metabolism
RNA, Messenger - genetics
Signal Transduction
T cell
T-Lymphocytes - metabolism
Thymus Gland - metabolism
Time Factors
Transcriptional Activation
Tyrosine - analogs & derivatives
Tyrosine - metabolism
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container_title European journal of immunology
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creator Seckinger, Philippe
Milili, Michèle
Schiff, Claudine
Fougereau, Michel
description Interleukin‐7 (IL‐7) was originally identified as a pre‐B cell growth factor whose proliferating activity has been extended to numerous target cells including T lymphocytes. We investigated c‐myc mRNA expression, an oncogene associated with proliferation, in the murine T cell line D10 G4.1 and freshly isolated thymocytes since both target cells proliferate in response to IL‐7. We find that blockade of the tyrosine kinase pathway by genistein, a potent tyrosine kinase inhibitor, inhibits both IL‐7‐dependent D10 G4.1 cell proliferation and c‐myc mRNA expression which appears to involve de novo mRNA synthesis and to be under the control of short‐lived protein repressor(s). We have also examined possible signal transduction pathways which might regulate c‐myc mRNA expression in the murine T cell line. IL‐7 biological activity is not affected by stimulation of the protein kinase C pathway by phorbol esters. Thus, IL‐7 regulates c‐myc mRNA expression in a protein kinase C‐independent manner and these data are strengthened by protein kinase C depletion which does not modify IL‐7 c‐myc mRNA responsiveness. In contrast and independent of protein kinase C activation, intracellular calcium mobilization by means of ionomycin reduces IL‐7 induction of c‐myc mRNA expression and may represent a physiological mechanism whereby IL‐7 bioactivity is regulated. The activity of IL‐7 on c‐myc mRNA expression has been extended to freshly isolated thymocytes and we find a synergistic effect of IL‐7 with concanavalin A. Taken together our results illuminate the molecular mechanism of IL‐7 c‐myc induction in the T lineage by ascribing a role for tyrosine kinase and increase in intracellular calcium in both IL‐7 induced gene induction and cell proliferation.
doi_str_mv 10.1002/eji.1830240334
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We investigated c‐myc mRNA expression, an oncogene associated with proliferation, in the murine T cell line D10 G4.1 and freshly isolated thymocytes since both target cells proliferate in response to IL‐7. We find that blockade of the tyrosine kinase pathway by genistein, a potent tyrosine kinase inhibitor, inhibits both IL‐7‐dependent D10 G4.1 cell proliferation and c‐myc mRNA expression which appears to involve de novo mRNA synthesis and to be under the control of short‐lived protein repressor(s). We have also examined possible signal transduction pathways which might regulate c‐myc mRNA expression in the murine T cell line. IL‐7 biological activity is not affected by stimulation of the protein kinase C pathway by phorbol esters. Thus, IL‐7 regulates c‐myc mRNA expression in a protein kinase C‐independent manner and these data are strengthened by protein kinase C depletion which does not modify IL‐7 c‐myc mRNA responsiveness. In contrast and independent of protein kinase C activation, intracellular calcium mobilization by means of ionomycin reduces IL‐7 induction of c‐myc mRNA expression and may represent a physiological mechanism whereby IL‐7 bioactivity is regulated. The activity of IL‐7 on c‐myc mRNA expression has been extended to freshly isolated thymocytes and we find a synergistic effect of IL‐7 with concanavalin A. 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In contrast and independent of protein kinase C activation, intracellular calcium mobilization by means of ionomycin reduces IL‐7 induction of c‐myc mRNA expression and may represent a physiological mechanism whereby IL‐7 bioactivity is regulated. The activity of IL‐7 on c‐myc mRNA expression has been extended to freshly isolated thymocytes and we find a synergistic effect of IL‐7 with concanavalin A. 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We investigated c‐myc mRNA expression, an oncogene associated with proliferation, in the murine T cell line D10 G4.1 and freshly isolated thymocytes since both target cells proliferate in response to IL‐7. We find that blockade of the tyrosine kinase pathway by genistein, a potent tyrosine kinase inhibitor, inhibits both IL‐7‐dependent D10 G4.1 cell proliferation and c‐myc mRNA expression which appears to involve de novo mRNA synthesis and to be under the control of short‐lived protein repressor(s). We have also examined possible signal transduction pathways which might regulate c‐myc mRNA expression in the murine T cell line. IL‐7 biological activity is not affected by stimulation of the protein kinase C pathway by phorbol esters. Thus, IL‐7 regulates c‐myc mRNA expression in a protein kinase C‐independent manner and these data are strengthened by protein kinase C depletion which does not modify IL‐7 c‐myc mRNA responsiveness. In contrast and independent of protein kinase C activation, intracellular calcium mobilization by means of ionomycin reduces IL‐7 induction of c‐myc mRNA expression and may represent a physiological mechanism whereby IL‐7 bioactivity is regulated. The activity of IL‐7 on c‐myc mRNA expression has been extended to freshly isolated thymocytes and we find a synergistic effect of IL‐7 with concanavalin A. Taken together our results illuminate the molecular mechanism of IL‐7 c‐myc induction in the T lineage by ascribing a role for tyrosine kinase and increase in intracellular calcium in both IL‐7 induced gene induction and cell proliferation.</abstract><cop>Weinheim</cop><pub>WILEY‐VCH Verlag GmbH</pub><pmid>7510242</pmid><doi>10.1002/eji.1830240334</doi><tpages>7</tpages></addata></record>
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identifier ISSN: 0014-2980
ispartof European journal of immunology, 1994-03, Vol.24 (3), p.716-722
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1521-4141
language eng
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source MEDLINE; Access via Wiley Online Library
subjects Animals
Calcium - metabolism
Concanavalin A - administration & dosage
c‐myc
Dose-Response Relationship, Drug
Drug Synergism
Female
Gene Expression Regulation - drug effects
Genes, myc
Interleukin-7 - administration & dosage
Interleukin-7 - physiology
Interleukin‐7
Lymphocyte Activation
Mice
Mice, Inbred C57BL
Phosphotyrosine
Protein Kinase C - physiology
Protein-Tyrosine Kinases - metabolism
RNA, Messenger - genetics
Signal Transduction
T cell
T-Lymphocytes - metabolism
Thymus Gland - metabolism
Time Factors
Transcriptional Activation
Tyrosine - analogs & derivatives
Tyrosine - metabolism
title Interleukin‐7 regulates c‐myc expression in murine T cells and thymocytes: a role for tyrosine kinase(s) and calcium mobilization
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