INCOMPATIBILITY FOR OR PRE‐IMMUNIZATION AGAINST M1s DETERMINANTS DECREASES LETHAL GRAFT‐VERSUS‐HOST REACTION DEVELOPED ACROSS NON ‐ H ‐ 2 AND/OR H‐2 BARRIERS

Abstract

The effect of incompatibility for Mls determinants was studied in lethal graft‐versus‐host reaction (GVHR) in the mouse. GVHR was induced in adult recipients of the following H‐2^k strains: (AKR x B10.BR)F1 (Mls^B/Mls^b); (C3H x B10.BR)F1 (Mls^c/Mls^b); (CBA/J x B10.BR)F1 (Mls^d/Mls^b) and (CBA/H x B10.BR)F1 (Mls^b). Recipient mice were heavily irradiated and grafted with bone marrow and spleen cells from H‐2 compatible B10.BR (H‐2^k, Mls^b) or H‐2 incompatible B10.D2 and B10 donors were normal, while those from B10.BR donors were either normal or pre‐immunized against the recipient strains. In all experiments the survival of recipients with Mls^a/Mls^b and Mls^d/Mls^b phenotypes, and only in one experiment of those with Mls^c/Mls^b phenotype was greater and/or the survival time longer than that of recipients expressing only Mls^b. However, late deaths (> 120 days post grafting) observed after grafting of normal B10.BR cells were more frequent in Mls^d/Mls^b than in Mls^b strains. On the other hand, when B10.BR donor cells were pre‐immunized against H‐2^k compatible (AKR x B10.BR)F1 (Mls^a/Mls^b) or (CBA/J x B10.BR)F1 (Mls^d/Mls^b) strains, the survival time of H‐2 incompatible (B10 x B10.BR)F1 (H‐2^b/k, Mls^b) recipients was longer than when donor cells were pre‐immunized against (CBA/H x B10.BR)F1 (Mls^b) strain. We conclude that donor incompatibility for Mls^a or Mls^d or donor‐pre‐immunization against Mls^a or Mls^d exerts a protective effect on lethal GVHR developed across non‐H‐2 or H‐2 barriers; the protective effect of Mls^c is less efficient or absent. The Mls‐induced protective effect shows the following properties: (a) efficiency in vivo correlates with the capacity of the corresponding alleles to stimulate an in vitro MLR; (b) is efficient in either primary or secondary response to other minor antigens; (c) is not H‐2 restricted; (d) is nonspecific; (e) disappears late after grafting; (f) with respect to the genetic background, the early protective effect is followed, late after grafting, by an opposite effect which increases the mortality, suggesting that M/s locus determinants are capable of activating several cell populations with different biological functions.