Normal human bone marrow stromal cells (BMSC) were isolated from Dexter-type long-term cultures according to their capacity to adhere to plastic and to their lack of hematopoietic antigens. The BMSC displayed a homogeneous appearance and a myofibroblastic phenotype in culture. The stromal cells (SC) were shown to support the proliferation of purified CD34+ hematopoietic progenitors and permitted us to maintain myeloid cells for several weeks in culture. In addition, the BMSC induced the proliferation of purified CD10+ s mu- fetal BM B-cell precursors (BCP). The capacity of the BMSC to induce the proliferation of early myeloid cells was shared by several other human fibroblastic-like cell types. In contrast, the BMSC were far superior to other adherent cells for induction of BCP proliferation. This capacity was largely mediated by endogenously produced interleukin-7 (IL-7), because it could be inhibited by anti-IL-7 antibody. In line with this finding, addition of IL-7 considerably enhanced BCP proliferation in cocultures with skin fibroblasts or synoviocytes. Thus, production of IL-7 appears to be a critical parameter that determines the ability of fibroblastic-like cells to induce BCP proliferation. Taken together, our data show that normal human myofibroblastic BMSC induce the proliferation of both early myeloid and B-lymphoid cells in the absence of accessory hematopoietic cells. The present system should constitute a model to study interactions between native human BM myofibroblastic stroma and various hematopoietic cell subsets.