The murine long-term bone marrow culture system which can support the almost infinite growth of normal B lineage cells was used to establish the experimental model for spontaneous B cell leukemogenesis. At the early phase of the culture, B cell differentiation with diversification of immunoglobulin genes was induced. However, the culture was finally captured by a single B cell clone which had the fastest growth rate. The B cell clone was strictly dependent on stromal cells for in vitro growth and did not generate leukemia when injected into syngenic mice. After up to a year of maintenance of the clone, the leukemic cells developed spontaneously. The leukemic cell line isolated in vivo retained the stromal cell-dependency, and further in vitro selection process was required to establish the stromal cell-independent leukemic cell line. These leukemic cell lines highly expressed c-myc and Ha-ras genes regardless of stromal cell-dependency. We detected no chromosomal aberrations accompanied with the process of leukemic transformation. Our results suggest that spontaneous neoplastic transformation of B cells in long-term bone marrow culture occurs in a stepwise manner.