Twenty-three of 37 anti-Ia McAb reactive with human B cells, as determined by indirect immunocytofluorescence, were shown to be reactive with canine peripheral blood mononuclear cells (PBMC). Using a panel of human B cell lines that differ in their expression of HLA-DR, -DP, and -DQ molecules, it was shown that 15 of these antibodies identify HLA-DR and DP molecules (i.e., broadly reactive), while 22 identify only HLA-DR molecules. Fourteen of the 15 broadly reactive McAb were reactive with canine PBMC while only 9 of the 22 HLA-DR-specific McAb reacted with canine PBMC, suggesting that broadly reactive anti-Ia McAb are much more likely to react with canine cells than narrowly reactive McAb. Ten of the canine reactive McAb that were shown to identify typical Ia bimolecular structures on canine cells using immune precipitation analysis were tested for blocking activity in the canine mixed lymphocyte culture (MLC). All four of the broadly reactive McAb (B1F6, J-70, 9-49, and HB10a) plus two of the six narrowly reactive McAbs (H81.98.21 and H40.164.3) blocked the canine MLC when added to culture wells on day 0, suggesting that inhibition may be related to the specificity of the anti-Ia McAb employed. Since the MLC may reflect cellular interactions occurring during graft-versus-host disease, this assay may be useful for screening functionally relevant broadly reactive McAb in experimental canine bone marrow transplantation studies. These data suggest that the dog may be a useful model to study anti-Ia immunotherapy.