Abstract
ALTHOUGH the original discovery of human IgD is almost ten years old1, it is only very recently that a possible function for this class of immunoglobulin has been suggested. Present in normal human serum in very small amounts2, IgD is found on the surface membrane of relatively large numbers of human peripheral lymphocytes, in particular those obtained from cord blood and the circulation of patients with chronic lymphatic leukaemia3–7. IgD is frequently associated with IgM on the same cell5–7 and this, together with the fact that the frequency of IgD-bearing lymphocytes is higher in cord blood than adult blood4,5, suggests a fundamental role for IgD, either as a primitive recognition unit or for regulation of the immune response. Were this to be so, then clearly IgD would be expected to occur in species other than man. Here we present the identification of an immunoglobulin present on the surface of mouse splenic lymphocytes which is not IgM, but which has the predicted characteristics of IgD.
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References
Rowe, D. S., and Fahey, J. L., J. exp. Med., 121, 171–199 (1965).
Spiegelberg, H. L., in “γD Immunoglobulin”. Contemporary Topics in Immunochemistry (edit. by Inman, F. P.) 1, 165–180 (Plenum Press, New York-London, 1972).
Van Boxel, J. A., Paul, W. E., Terry, W. D., and Green, I., J. Immun., 109, 648–651 (1972).
Rowe, D. S., Hug, K., Faulk, W. P., McCormick, J. N., and Gerber, H., Nature new Biol., 242, 155–157 (1973).
Rowe, D. S., Hug, K., Forni, L., and Pernis, B., J. exp. Med., 138, 965–972 (1973).
Fu, S. M., Winchester, R. J., and Kunkel, H. G., J. exp. Med., 139, 451–456 (1974).
Kubo, R. T., Grey, H. M., and Pirofsky, B., J. Immun., 5, 1952–1954 (1974).
Marchalonis, J. J., Cone, R. E., and Santer, V., Biochem. J., 124, 921–927 (1971).
Della Corte, E., and Parkhouse, R. M. E., Biochem. J., 136, 589–596 (1973).
Parkhouse, R. M. E., and Askonas, B. A., Biochem. J., 115, 163–169 (1969).
Marchalonis, J. J., and Cone, R. E., Transplant. Rev., 14, 3–49 (1973).
Vitetta, E. S., and Uhr, J. W., Transplant. Rev., 14, 50–75 (1973).
Julius, M. H., Simpson, E., and Herzenberg, L. A., Eur. J. Immun., 3, 645–649 (1973).
Melcher, U., and Uhr, J. W., J. exp. Med., 138, 1282–1288 (1973).
Parkhouse, R. M. E., Transplant. Rev., 14, 131–144 (1973).
Hunter, W. M., and Greenwood, F. C., Nature, 194, 495–496 (1962).
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ABNEY, E., PARKHOUSE, R. Candidate for immunoglobulin D present on murine B lymphocytes. Nature 252, 600–602 (1974). https://doi.org/10.1038/252600a0
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DOI: https://doi.org/10.1038/252600a0
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