Skip to main content

Thank you for visiting nature.com. You are using a browser version with limited support for CSS. To obtain the best experience, we recommend you use a more up to date browser (or turn off compatibility mode in Internet Explorer). In the meantime, to ensure continued support, we are displaying the site without styles and JavaScript.

  • Letter
  • Published:

Differentiation in vitro of Lyt 2+ thymocytes from embryonic Lyt 2 precursors

Nature volume 303pages 248–250 (1983)Cite this article

Abstract

In mice, the thymus is regarded as being the primary anatomical site for the generation of immunologically competent T lymphocytes1. Such cells comprise approximately 20% of the cells in the thymus and share with T lymphocytes from peripheral lymphoid tissues certain phenotypic properties defined by anti-Lyt antibodies2,3. Thus, most immunocompetent T cells are either Lyt 1+2+ or Lyt 1+2 with the former cells being restricted to recognizing antigen in association with class I (H–2K, D) major histocompatability complex (MHC) products and the latter to class II (H–2I) MHC products4. Although evidence suggests that Lyt 1+2+ cells are generated from Lyt 1+2 precursor5,6 the independent development of two separate Lyt-defined lineages of thymocytes could not be ruled out5,7. Here, the acquisition of Lyt2 antigen by Lyt2 cells from late embryonic and early postnatal thymuses is directly demonstrated. Furthermore, by combining cell cycle and Lyt phenotype analysis on a flow microfluorometer, the role of cell division in this differentiation process has been investigated.

Access through your institution
Buy or subscribe

This is a preview of subscription content, access via your institution

Access options

Access through your institution

Buy this article

  • Purchase on SpringerLink
  • Instant access to full article PDF
Buy now

Prices may be subject to local taxes which are calculated during checkout

Similar content being viewed by others

References

  1. Miller, J. F. A. P. & Osoba, D. Physiol. Rev. 47, 437–520 (1967).

    Article  CAS  Google Scholar 

  2. Cantor, H., Shen, F. W. & Boyse, E. A. J. exp. Med. 143, 1391–1401 (1976).

    Article  CAS  Google Scholar 

  3. Ceredig, Rh., Glasebrook, A. L. & MacDonald, H. R. J. exp. Med. 155, 358–379 (1982).

    Article  CAS  Google Scholar 

  4. Swain, S. L. Fedn Proc. 39, 3110–3113 (1980).

    CAS  Google Scholar 

  5. Mathieson, B. J., Sharrow, S. O., Rosenberg, Y. & Hämmerling, U. Nature 289, 179–181 (1981).

    Article  ADS  CAS  Google Scholar 

  6. Kamarck, M. E. & Gottlieb, P. D. J. Immun. 119, 407–415 (1977).

    CAS  PubMed  Google Scholar 

  7. Le Douarin, N. M. & Jotereau, F. V. J. exp. Med. 142, 17–40 (1975).

    Article  CAS  Google Scholar 

  8. Jenkinson, E. J., Owen, J. J. T. & Aspinall, R. Nature 284, 177–179 (1980).

    Article  ADS  CAS  Google Scholar 

  9. Cantor, H. & Boyse, E. A. J. exp. Med. 141, 1376–1389 (1975).

    Article  CAS  Google Scholar 

  10. Ceredig, Rh., MacDonald, H. R. & Jenkinson, E. J. Eur. J. Immun. 13, 185–190 (1983).

    Article  CAS  Google Scholar 

  11. Boyse, E. A., Miyazawa, M., Aoki, T. & Old, L. J. Proc. R. Soc. B170, 175–193 (1968).

    ADS  CAS  Google Scholar 

  12. Shortman, K., von Boehmer, H., Lipp, J. & Hopper, K. Transplantn Rev. 25, 163–210 (1975).

    CAS  Google Scholar 

  13. Holtzer, H. in Stem Cells and Tissue Homeostasis (eds Lord, B. I., Potter, C. S. & Cole, R. J.) 1–27 (Cambridge University Press, 1978).

    Google Scholar 

  14. Böhmer, R. M. Cell Tissue Kinet. 12, 101–110 (1979).

    ADS  PubMed  Google Scholar 

  15. Sekaly, R. P., MacDonald, H. R., Zaech, P. & Nabholz, M. J. Immun. 129, 1407–1415 (1982).

    CAS  PubMed  Google Scholar 

  16. Raulet, D. H., Gottlieb, P. D. & Bevan, M. J. J. Immun. 125, 1136–1144 (1980).

    CAS  PubMed  Google Scholar 

  17. Cerottini, J.-C., Engers, H. D., MacDonald, H. R. & Brunner, K. T. J. exp. Med. 140, 703–717 (1974).

    Article  CAS  Google Scholar 

  18. Meuth, M. & Green, H. Cell 2, 109–112 (1974).

    Article  CAS  Google Scholar 

  19. Ceredig, Rh. Transplantn 28, 377–381 (1979).

    Article  CAS  Google Scholar 

  20. Widmer, M. B., MacDonald, H. R. & Cerottini, J.-C. Thymus 2, 245–255 (1980).

    Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Ludwig Institute for Cancer Research, Lausanne Branch, 1066, Epalinges, Switzerland

    Rhodri Ceredig, Rafick P. Sekaly & H. Robson MacDonald

Authors
  1. Rhodri Ceredig
    View author publications

    You can also search for this author inPubMed Google Scholar

  2. Rafick P. Sekaly
    View author publications

    You can also search for this author inPubMed Google Scholar

  3. H. Robson MacDonald
    View author publications

    You can also search for this author inPubMed Google Scholar

Rights and permissions

Reprints and permissions

About this article

Cite this article

Ceredig, R., Sekaly, R. & MacDonald, H. Differentiation in vitro of Lyt 2+ thymocytes from embryonic Lyt 2 precursors. Nature 303, 248–250 (1983). https://doi.org/10.1038/303248a0

Download citation

  • Received:

  • Accepted:

  • Issue Date:

  • DOI: https://doi.org/10.1038/303248a0

Search

Advanced search

Quick links

Nature Briefing

Sign up for the Nature Briefing newsletter — what matters in science, free to your inbox daily.

Get the most important science stories of the day, free in your inbox. Sign up for Nature Briefing