Abstract
THE ability of α-fetoprotein (AFP) of mouse or human origin to suppress certain T cell-dependent immune reactions in vitro is well documented1–4. These findings on a tumour-associated embryonic substance5 have potentially important implications as to our understanding of the maternal–foetal immunological relationship6, the development of immune capabilities in the foetus and newborn7, and of certain diseases8 where immunological hyporeactivity and elevations in AFP often occur concomitantly. The mechanism(s) through which AFP is exerting its immunoregulatory influence is largely unknown, however, previous studies1 have shown that AFP must be added at the initiation of antigen-stimulated spleen cell cultures for maximal inhibition of primary antibody synthesis to occur. Continued presence of AFP in the cultures for 8–12 h was sufficient to maintain suppression in an AFP-free environment for at least 5 d in vitro1 and 10 d in vivo using adoptive transfer experiments (unpublished). These observations suggested that AFP may inhibit immune responses indirectly by activating regulatory suppressor cells. Here we report that AFP does indeed induce the formation of highly efficient suppressor T cells with capacity to inhibit helper T cells, but with no effect on B cells responding to thymus independent antigens.
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MURGITA, R., GOIDL, E., KONTIAINEN, S. et al. α-Fetoprotein induces suppressor T cells in vitro. Nature 267, 257–259 (1977). https://doi.org/10.1038/267257a0
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DOI: https://doi.org/10.1038/267257a0
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