Immunological alterations inducible by mercury compounds. III. H‐2A acts as an immune response and H‐2E as an immune “suppression” locus for HgCl2‐induced antinucleolar autoantibodies

Abstract

In responder mouse strains repeated injections of subtoxic doses of HgCl₂ induce formation of antinuclear autoantibodies (ANA) and antinucleolar autoantibodies (ANolA). Others have shown that responsiveness to HgCl₂‐induced formation of ANA and ANolA is linked to H‐2. Here, we extend these studies to a variety of mouse strains not tested previously. After confirming that strain B10.S (H‐2^s) is a high responder we have shown that strains B10.D2 (H‐2^d) and B10.BR (H‐2^k) are nonresponders. By comparing a panel of strains carrying appropriate intra‐H‐2 recombinant haplotypes derived from d, k and s, we were able to map responsiveness to A^s. Interestingly, among four strains all of which were A^s, and thus responsive, only the two H‐2E^‐ ones, B10.S and B10.RSD2, were high responders whereas the two H‐2E⁺ ones, B10.HTT and B10.S(9R), were significantly less responsive. Thus, the genetics of HgCl₂‐induced autoantibody formation follow the rules established for immune responses to a variety of different antigens in that expression of H‐2E “suppressed” the response.