Genetic analysis of the presentation of minor lymphocyte-stimulating determinants. II. Differing non-MHC control of super-stimulatory and more poorly stimulatory Mls phenotypes.

Analysis of the capacity of splenocytes from non-prototypic Mlsa or Mlsc mouse strains to stimulate allogeneic H-2k-compatible T cells in a primary Mls-defined MLR provided interesting examples of exceptions to the usually stated characterization of Mlsa and Mlsc determinants as highly stimulatory of weakly stimulatory, respectively. Across the Mlsa barrier, MA/My stimulator cells had a significantly reduced capacity to elicit responder proliferation in comparison with prototypic AKR/J or less well studied C58/J, CE/J, or RF/J splenocytes. Across the Mlsc barrier, a gradient of stimulatory ability was observed with RF/J splenocytes being virtually nonstimulatory, prototypic C3H/HeJ splenocytes having an intermediate capacity, and CE/J and C58/J being highly stimulatory presenters of this non-MHC specificity. The differing capacity of each of these H-2k stimulator cells to elicit unprimed responder cell proliferation across an Mlsa or Mlsc difference correlated with the T cell growth factor activity that was secreted into the MLR supernatants. The super stimulatory form of Mlsc was expressed in an autosomal dominant fashion by (Mlsc poorly stimulatory x Mlsc super-stimulatory)F1 animals, (BALB.K x C58/J)F1 or (RF/J x CE/J)F1. The segregation of Mlsc stimulatory ability among first backcross and F2 animals derived from the former F1 was compatible with a single non-MHC gene controlling the expression and presentation of the super-stimulatory form of Mlsc. The regulatory nature of this gene was indicated by the observation that F1 animals generated from the Mlsc nonprototypic and poorly stimulatory BALB/c parental strain were self-tolerant to the super-stimulatory form of Mlsc. The existence of an Mls specificity other than a and c was suggested by positive non-MHC MLR responses in certain responder/stimulator cell combinations of Mls prototypic and nonprototypic mouse strains.