Abstract

The overall goal of this project is to understand the role of the endoplasmic reticulum (ER) in regulating T cell receptor (TCR) expression in developing lymphocytes. The TCR complex expressed by mature T cells is comprised of polymorphic subunits that recognize antigen (TCRa and b), together with invariant proteins that transduce signals (CD3gde and z). TCR expression in thymocytes differs from that of mature T cells in two important ways: 1. Immature thymocytes express alternative forms of the TCR (calnexin-CD3 complexes, which consist of the molecular chaperone calnexin associated with CD3ge subunits; and pre-TCR complexes, which are thought to consist of the newly described pre-Ta subunit associated with TCRb and CD3 subunits) and these forms can transduce signals that regulate rearrangement of the gene loci encoding the antigen-binding TCR subunits. 2. Immature thymocytes express only 1/10 as many complete TCR complexes (abgdezz) on the cell surface despite making equivalent amounts of each TCR subunit. Failure to maintain TCR expression at these low levels can adversely affect the outcome of selection events responsible for generating mature functional T-cells, and the immune system's ability to destroy invading pathogens and cancer cells. It is hypothesized that TCR expression in thymocytes is controlled post-translationally by changes in the processing of TCR subunits in the ER. Clearly, the ER plays a central role in TCR expression because the folding and assembly of nascent TCR subunits is not passive, rather it requires the assistance of resident ER proteins called chaperones. Thus, it is likely that the extent to which TCR subunits are assembled and released to the cell surface is controlled by those resident ER proteins. The central hypothesis will be tested by investigating the developmental control of three distinct forms of the TCR (calnexin-CD3 complexes, pre-TCR complexes, and complete TCRs).
The aims are to, in immature thymocytes: 1. Examine the molecular mechanism underlying escape of calnexin-CD3 complexes from the ER. 2. Clarify pre-TCR structure and examine the requirements for surface expression. 3. Examine the mechanistic basis for impaired assembly to complete TCRs. Analysis of TCR assembly in developing thymocytes should provide insight into how changes in the function of the ER can have profound effects on the type and quantity of TCR expressed and as a result has profound effects on immune cell development.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
First Independent Research Support & Transition (FIRST) Awards (R29)
Project #
5R29CA073656-02
Application #
2683688
Study Section
Experimental Immunology Study Section (EI)
Program Officer
Finerty, John F
Project Start
1997-04-01
Project End
2002-03-31
Budget Start
1998-04-01
Budget End
1999-03-31
Support Year
2
Fiscal Year
1998
Total Cost
Indirect Cost

  Institution

Name
Institute for Cancer Research
Department
Type
DUNS #
872612445
City
Philadelphia
State
PA
Country
United States
Zip Code
19111

  Publications

Lauritsen, Jens-Peter Holst; Kurella, Sridevi; Lee, Sang-Yun et al. (2008) Egr2 is required for Bcl-2 induction during positive selection. J Immunol 181:7778-85
Koltsova, E K; Wiest, D L; Vavilova, T P (2007) Transcription factors NFAT2 and Egr1 cooperatively regulate the maturation of T-lymphoma in vitro. Biochemistry (Mosc) 72:954-61
Koltsova, Ekaterina K; Ciofani, Maria; Benezra, Robert et al. (2007) Early growth response 1 and NF-ATc1 act in concert to promote thymocyte development beyond the beta-selection checkpoint. J Immunol 179:4694-703
Lauritsen, Jens Peter H; Haks, Marielle C; Lefebvre, Juliette M et al. (2006) Recent insights into the signals that control alphabeta/gammadelta-lineage fate. Immunol Rev 209:176-90
Lefebvre, Juliette M; Haks, Marielle C; Carleton, Michael O et al. (2005) Enforced expression of Spi-B reverses T lineage commitment and blocks beta-selection. J Immunol 174:6184-94
Haks, Marielle C; Lefebvre, Juliette M; Lauritsen, Jens Peter H et al. (2005) Attenuation of gammadeltaTCR signaling efficiently diverts thymocytes to the alphabeta lineage. Immunity 22:595-606
Haks, Marielle C; Belkowski, Stanley M; Ciofani, Maria et al. (2003) Low activation threshold as a mechanism for ligand-independent signaling in pre-T cells. J Immunol 170:2853-61
Carleton, Michael; Haks, Marielle C; Smeele, Sigrid A A et al. (2002) Early growth response transcription factors are required for development of CD4(-)CD8(-) thymocytes to the CD4(+)CD8(+) stage. J Immunol 168:1649-58
Berger, M A; Carleton, M; Rhodes, M et al. (2000) Identification of a novel pre-TCR isoform in which the accessibility of the TCR beta subunit is determined by occupancy of the 'missing' V domain of pre-T alpha. Int Immunol 12:1579-91
Wiest, D L; Berger, M A; Carleton, M (1999) Control of early thymocyte development by the pre-T cell receptor complex: A receptor without a ligand? Semin Immunol 11:251-62

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