Journal article
Interleukin 7 induces tcr gene rearrangement in adult marrow-resident murine precursor T cells
Molecular immunology, v 34(6), pp 453-462
1997
PMID: 9307061
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Abstract
Rearrangement of the T cell antigen receptor genes is a complex, highly regulated process. To gain a better understanding of the extracellular factors involved in the regulation of TCR β and γ and gene rearrangement in adult murine bone marrow-resident precursor T cells, several cytokines were tested for their ability to induce gene recombination. A selected population of C58/J bone marrow cells (Thy l
low, CD3
−, CD8
−, B220
−) that is enriched for pre-T cell activity was propagated
in vitro in medium supplemented with IL-3 and mast cell growth factor (MGF, also referred to as stem cell factor, Steele factor and c-kit ligand). These cytokines were required for the maintenance of pre-T cell activity in culture, but had no effect on TCR gene expression. Several additional cytokines were added to the culture medium. Of all those tested, only IL-7 induced complete rearrangement of the TCR
7 locus. Complete rearrangement of the TCR β locus was not induced under any of the culture conditions analysed here. The bone marrow cells cultured in IL-3, MGF and IL-7 did not begin to express mature T cell proteins and maintained their
in vivo progenitor potential. Furthermore. IL-7 cultured bone marrow cells were capable of differentiation
in vivo into all phenotypic subpopulations of T cells, without an apparent bias toward the γλ lineage. The data presented here suggest that TCR γ gene rearrangement in adult pre-T cells is regulated by IL-7, but that the TCR β locus requires additional or alternative signals for the induction of complete rearrangement
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Details
- Title
- Interleukin 7 induces tcr gene rearrangement in adult marrow-resident murine precursor T cells
- Creators
- Rachel S SoloffTong-Gang WangDeborah DempseyStephen R JenningsR.Michael wolcottRobert Chervenak
- Publication Details
- Molecular immunology, v 34(6), pp 453-462
- Publisher
- Elsevier
- Resource Type
- Journal article
- Language
- English
- Academic Unit
- Microbiology and Immunology
- Web of Science ID
- WOS:A1997XV10800003
- Scopus ID
- 2-s2.0-0030867838
- Other Identifier
- 991014878183604721
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InCites Highlights
Data related to this publication, from InCites Benchmarking & Analytics tool:
- Web of Science research areas
- Biochemistry & Molecular Biology
- Immunology