Haemopoietic stem cell subpopulations in mouse and man: discrimination by differential adherence and marrow repopulating ability.

Based on the properties of differential cell adherence, we have devised two assays for early progenitor cells in human bone marrow. One progenitor cell population binds to plastic and to pre-formed bone marrow derived stromal layers (P+S+) and gives rise to non-adherent granulocyte-macrophage colony-forming cells (GM-CFC); the other binds to stromal layers but not to plastic (P-S+); both are separable from GM-CFC which are P-S-. We have evaluated the relevance of differential binding properties to marrow repopulation in a murine model. Murine stem cells (spleen colony-forming cells--CFU-S) can be separated into P+S+, P-S+ and P-S- subpopulations by differential adhesion, thus paralleling the progenitor cell subpopulations in human marrow. Post irradiation (850 cGy X-rays) studies have shown that the P+S+ cells are essential for survival and recovery of marrow, spleen and blood cell populations. Also, in a model for purging autografts, we have demonstrated that the leukaemic cells can be separated from P+S+ repopulating cells by exploiting their different binding properties.