A multitude of factors has been described that positively and negatively regulate B cell proliferation. A model system for the study of negative control of B cell function is provided by mice bearing plasmacytomas (PC-mice). In PC-mice, the primary immune response, as measured by development of antibody-forming cells (AFC), is severely suppressed. The present report specifically identifies a block in B cell proliferation as the apparent cause of this reduction in AFC production. Thus, the proliferative response of B cells from the spleens of PC-mice (PC-spleens) was significantly impaired when stimulated with four different B cell mitogens (lipopolysaccharide, Salmonella typhimurium mitogen, anti-mu conjugated to Sepharose, and 8-mercaptoguanosine). Nevertheless, the mitogen-responsiveness of these B cells was recovered when they were segregated by various methods from macrophages. These data suggest that the proliferative ability of the B cells in PC-spleens is inherently normal. In concordance with this conclusion, it was shown that suppressor cells from PC-spleens can block the proliferation of normal B cells derived from nontumor-bearing mice. This inhibition does not require direct cell contact and is mediated via soluble factors. The relevance of these results to previous studies of PC-induced immunosuppression and to the control of normal B cell proliferation is discussed.