Cord blood is increasingly used for hematopoietic stem cell transplantation since less severe graft-versus-host disease has been reported leading to the notion that cord blood is "naive." Human leucocyte antigen (HLA) class II molecules are expressed throughout B lymphocyte ontogeny (except the plasmocytes), are responsible for antigen presentation, and can also transmit signals. Cord blood B stimulate an allogeneic response, and this property is believed to indicate the presence of a class II-associated peptide. In this study we examined the capacity of cord blood B to transmit signals via HLA-DR. Activation and relocalization of protein kinase C (PKC) isoenzymes alpha and betaII was detected along with tyrosine kinase activation and proliferation. However, in contrast to resting adult B, generation of an intracellular calcium ([Ca++]i) flux and rapid aggregation were not detected. To address the question of whether or not HLA-DR signals throughout B lymphocyte ontogeny, we extended this study to include malignant adult B (B chronic lymphocytic leukemia [B-CLL], B mantle cell lymphoma, and B large cell leukemia). Tyrosine kinase activation and proliferation were observed in all these cell populations, albeit in the absence of [Ca++]i flux or an increase in PKC. HLA-DR therefore transmits signals throughout B lymphocyte ontogeny, although different signaling pathways are initiated in adult vs. fetal vs. malignant B. The lack of intracellular [Ca++]i flux in both cord blood and malignant B lymphocytes may represent a feature of HLA class II signaling at a particular stage of differentiation, although the downregulation of PKC clearly distinguishes between cord blood B and B-CLL.