Increased longevity of hematopoiesis in continuous bone marrow cultures and adipocytogenesis in marrow stromal cells derived from Smad3−/− mice

Objective To determine the role of Smad3 in modulating hematopoiesis, continuous bone marrow cultures were established from Smad3−/− mice, and the longevity of hematopoiesis and extent of adipogenesis in the supportive hematopoietic microenvironment were compared to those from cultures of control, Smad3+/+ or heterozygous Smad3+/− mice. Materials and methods Long-term bone marrow cultures (LTBMCs) were established from Smad3+/+, Smad3+/−, or Smad3−/− mice. On a weekly basis, the number of cobblestone islands, number of nonadherent cells, confluence of the adherent cells, or CFU-GEMM colonies was determined. Bone marrow stromal cell lines were established and cobblestone island production on these cell lines determined in the presence of nonadherent cells from week-42 Smad3−/− or week-4 C57BL/6J LTBMCs. Results Initial proliferative capacity of the LTBMCs was similar in all groups through week 20, at which time there was an increase in cobblestone islands and production of nonadherent cells and CFU-GEMM colonies in the Smad3−/− group. By week 28, only the Smad3−/− LTBMCs had significantly maintained increased production of these parameters. Maintenance of cobblestone islands indicative of the most primitive hematopoietic progenitor cells persisted past 45 weeks in Smad3−/− cultures. The Smad3−/− stromal cell line also demonstrated increased support of cobblestone island production when incubated with nonadherent cells from week-42 Smad3−/− or week-4 C57BL/6J LTBMCs. Evaluation of adipocytogenesis in stromal cells showed significantly greater accumulation of adipocytes in lines from Smad3−/− than from Smad3+/+ mice. Conclusions These data provide evidence for a significant effect of deletion of the Smad3 signaling pathway in increased hematopoiesis in LTBMCs and support the negative regulatory influence of TGFβ signaling on adipocytogenesis and long-term hematopoiesis in vitro.