Unexpected complexity of the dm1 mutation revealed in the structure of three H-2D/L-related antigens

The H-2L^dm1 and H-2D^dm1 MHC antigens of the B10.D2 (H-2 ^dm1 ) mutant mouse strain (formerly known as M504 or H-2 ^da ) have been compared to the H-2L^d and H-2D^d antigens of the B10.D2 (H-2 ^d ) mouse strain. L^dm1 and L^d are 45 000 M_r antigens and both are reactive with anti-H-2.28 (k/r anti-h2) serum and unreactive with anti-H-2.4 (k/b anti-a) serum which detects private determinants of the D^dm1 and D^d antigens. However, the tryptic peptide compositions of these two antigens are different and, based on the number of major tryptic peptides which coelute during ion-exchange chromatography, the estimated peptide homology between L^dm1 and L^d is 80 percent. A newly defined antigen (M_r = 39 000), designated gp39^dm1, was found in glycoprotein extracts of the ^dm1 strain but not of the d strain. This antigen coprecipitates with L^dm1 but does not coprecipitate with D^dm1 indicating that it lacks the H-2.4 determinant. In comparison with L^dm1, gp39^dm1 appears to contain far fewer Arg and Lys residues and is most likely not a simple proteolytic fragment of L^dm1. Finally, peptide maps of the D^dm1 antigen show that the majority of its Arg peptides are identical to D^d Arg peptides, whereas at least five of its Lys peptides and three of its Arg peptides correspond not to D^d peptides but to L^d and L^dm1 peptides. These data raise the possibility that the D^dm1 antigen is a hybrid molecule and they have also revealed an unexpected level of complexity in the dm1 mutant phenotype.