Relationships between early B- and NK-lineage lymphocyte precursors in bone marrow

Abstract

Recent studies have demonstrated that lineage marker–negative (Lin−) c-kitLo Flk-2/Flt3+IL-7R+ Sca-1Lo CD27+Ly-6C− Thy-1−CD43+CD16/32Lo/− terminal deoxynucleotidyl transferase (TdT)+ cells in murine bone marrow are functional lymphocyte precursors. However, it has not been clear if this is an obligate intermediate step for transit of multipotential hematopoietic stem cells to natural killer (NK) cells. We have now used serum-free, stromal cell–free cultures to determine that NK progenitors are enriched among an estrogen-regulated, c-kitLo subset of the Lin− fraction. However, several experimental approaches suggested that this population is heterogeneous and likely represents a stage where B and NK lineages diverge. Although most B-cell precursors were directly sensitive to estrogen in culture, much of the NK-cell precursor activity in that fraction was hormone resistant. B-lineage potential was largely associated with interleukin 7 receptor α (IL-7Rα) expression and was selectively driven in culture by IL-7. In contrast, many NK precursors did not display detectable amounts of this receptor and their maturation was selectively supported by IL-15. Finally, single-cell experiments showed that the Lin−c-kitLo fraction contains a mixture of B/NK, B-restricted, and NK-restricted progenitors. Two-step culture experiments revealed that NK precursors become hormone resistant on or before acquisition of CD122, signaling commitment to the NK lineage. CD45R is preferentially, but not exclusively, expressed on maturing B-lineage cells. Production of these 2 blood cell types is regulated in bone marrow by common and then independent mechanisms that can now be studied with greater precision.