Location of hemopoietic stem cells influences frequency of lymphoid engraftment in Xenopus embryos.

The first hemopoietic stem cells to differentiate in Xenopus embryos arise from ventral blood island (VBI) mesoderm. Progeny of these stem cells contribute to larval E, macrophage, thymocyte, and B lymphocyte populations. When small pieces of mesoderm are transplanted to a central location within the VBI, the contribution of this mesoderm is predominantly to erythropoiesis and engraftment of lymphoid populations is minimal. The present experiments examined the influence of position within the VBI on the contribution of single stem cells to lymphoid populations. Pieces of diploid VBI mesoderm, containing an average of one hemopoietic stem cell, were transplanted to either a central or a peripheral location within the defined boundaries of the VBI of triploid, stage matched embryos. The number of animals with donor-derived cells in lymphoid populations was markedly increased when stem cells were grafted to a peripheral position. In three cases, stem cells contributed to lymphoid populations at the exclusion of erythroid populations. These data were consistent with the notion of either a lymphoid stem cell or restricted B and T lymphocyte precursors. These data also suggested that during embryogenesis, stochastic differentiation of hemopoietic stem cells was influenced by regional differences in the VBI microenvironment.