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. 1985 Apr;82(8):2427–2431. doi: 10.1073/pnas.82.8.2427

Mouse major histocompatibility class I gene expression begins at midsomite stage and is inducible in earlier-stage embryos by interferon.

K Ozato, Y J Wan, B M Orrison
PMCID: PMC397571  PMID: 2581247

Abstract

To determine the timing of major histocompatibility complex class I gene expression during embryonic development, binding of anti-class I antibodies and appearance of class I gene transcripts were examined in mouse embryos from the egg-cylinder stage through day 16 of gestation. By using two series of monoclonal antibodies reactive with monomorphic and polymorphic determinants of class I antigens, it was found that cell-surface expression of the antigens becomes detectable at a low level only after midsomite stage on gestation day 10, at a time when embryos are developed beyond primordial organogenesis and have partial blood circulation. In agreement with the above finding, a low level of class I mRNA became detectable in day 9 and older embryos in blot hybridization. The level of class I transcripts in embryos at least to day 13 remained less than 1/50th that in adult spleen cells. Cells from head-fold stage embryos (gestation day 8), which otherwise do not have an appreciable amount of class I mRNA or surface antigens, begin to express a high level of antigens upon treatment with mouse alpha/beta or gamma interferon. This induction of class I antigen expression appears to be stage specific in that embryos in an earlier egg-cylinder stage (day 6) failed to express the antigens after interferon treatment. A possible role of interferons in activating class I genes during in vivo embryonic development is suggested.

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Selected References

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