Differentiation of totipotent mouse embryonic stem (ES) cells to various lymphohematopoietic cells is an in vitro model of the hematopoietic cell development during embryogenesis. To understand this process at cellular levels, differentiation intermediates were investigated. ES cells generated progeny expressing CD34, which was significantly enhanced by vascular endothelial growth factor (VEGF). The isolated CD34+ cells were enriched for myeloid colony-forming cells but not significantly for erythroid colony-forming cells. When cultured on OP9 stroma cells in the presence of interleukin-2 and interleukin-7, the CD34+ cells developed two types of B220+ CD34−lymphocytes: CD3− cytotoxic lymphocytes and CD19+ pre-B cells, and such lymphoid potential was highly enriched in the CD34+ population. Interestingly, the cytotoxic cells expressed the natural killer (NK) cell markers, such as NKR-P1, perforin, and granzymes, classified into two types, one of which showed target specificity of NK cells. Thus, ES cells have potential to generate NK-type cytotoxic lymphocytes in vitro in addition to erythro-myeloid cells and pre-B cells, and both myeloid and lymphoid cells seem to be derived from the CD34+intermediate, on which VEGF may play an important role.
Differentiation of totipotent mouse embryonic stem (ES) cells to various lymphohematopoietic cells is an in vitro model of the hematopoietic cell development during embryogenesis. To understand this process at cellular levels, differentiation intermediates were investigated. ES cells generated progeny expressing CD34, which was significantly enhanced by vascular endothelial growth factor (VEGF). The isolated CD34+ cells were enriched for myeloid colony-forming cells but not significantly for erythroid colony-forming cells. When cultured on OP9 stroma cells in the presence of interleukin-2 and interleukin-7, the CD34+ cells developed two types of B220+ CD34−lymphocytes: CD3− cytotoxic lymphocytes and CD19+ pre-B cells, and such lymphoid potential was highly enriched in the CD34+ population. Interestingly, the cytotoxic cells expressed the natural killer (NK) cell markers, such as NKR-P1, perforin, and granzymes, classified into two types, one of which showed target specificity of NK cells. Thus, ES cells have potential to generate NK-type cytotoxic lymphocytes in vitro in addition to erythro-myeloid cells and pre-B cells, and both myeloid and lymphoid cells seem to be derived from the CD34+intermediate, on which VEGF may play an important role.
The present study evaluated the effect of a novel anti-lipid A monoclonal antibody, termed SdJ5, on the in vitro production of tumor necrosis factor alpha (TNF-a) and interleukin-1f% by endotoxinor lipopolysaccharide (LPS)-challenged human peripheral blood mononuclear cells (hPBMC). In addition, the present study determined whether SdJ5 could neutralize the in vivo toxicity of LPS. SdJ5, at a concentration equal to or greater than 3 iLg/ml, specifically inhibited TNF-a and interleukin-lj production by hPBMC stimulated with every type of LPS and lipid A assessed. SdJ5 also showed a significantly greater inhibition of cytokine production than a nonrelevant human immunoglobulin M myeloma control. The SdJ5-mediated inhibition of TNF-a production was rapid, as the simultaneous addition of the SdJ5 and LPS still resulted in a marked decrease in hPBMC cytokine synthesis. The ability of SdJ5 to neutralize in vivo toxicity was also determined by using LPS from four different strains of gram-negative bacteria. LPS, when preincubated with SdJ5, resulted in a significant decrease in the 24-h mortality rate compared with that for the control. These studies show that the anti-lipid A monoclonal antibody SdJ5 can modulate LPS-induced cytokine production in vitro and increase the survival rate of rats challenged with lethal doses of LPS.
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