Receptors for human alpha and beta interferon but not for gamma interferon are specified by human chromosome 21.

We examined the proposed role of human chromosome 21 in determining the cellular sensitivity to human alpha, beta, and gamma interferons (HuIFN-alpha, -beta, and -gamma) and the expression of the receptors for the HuIFNs with the use of mouse-human hybrid cells containing human chromosome 21. Hybrid cells (WA17) containing three copies of human chromosome 21 showed specific displaceable binding of 125I-labeled HuIFN-alpha 2 (125I-HuIFN-alpha 2), which was not observed with mouse parent (A9) cells. Crosslinking of 125I-HuIFN-alpha 2 bound to WA17 cells with disuccinimidyl suberate yielded a complex of Mr approximately equal to 150,000 similar to the 125I-HuIFN-alpha 2-receptor complex obtained with human cells as described earlier. Such a complex was not obtained with mouse parent (A9) cells or with hybrid cells containing certain other human chromosomes but not chromosome 21. Mice inoculated with mouse-human hybrid cells containing human chromosome 21 produce antibodies that block the antiviral action of HuIFN-alpha and -beta on human cells. Such antibodies could immunoprecipitate the 125I-HuIFN-alpha 2-receptor complex obtained from human cells but not free 125I-HuIFN-alpha 2, indicating that these antibodies were directed against the receptor. WA17 hybrid cells were highly sensitive to the antiviral action of HuIFN-alpha 2, -alpha (Le) and -beta but were completely insensitive to HuIFN-gamma. Furthermore, 125I-HuIFN-gamma showed specific binding to human WISH cells but not to WA17 hybrid cells or A9 mouse cells. The results indicate that the receptors for HuIFN-alpha and -beta but not for HuIFN-gamma are specified by human chromosome 21. Hybrid cells containing one, two, or three copies of human chromosome 21 were found to be increasingly sensitive to HuIFN-alpha 2, indicating that a chromosome 21-specified component (possibly the HuIFN-alpha receptor) may be a limiting factor in the cellular sensitivity to HuIFN-alpha.