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Dendritic cells （DCs） and monocyte subpopulations present in the human spleen were analyzed by flow cytometry in an attempt to identify the presence of a novel dendritic-like cell subset described previously in mice and named L-DCs. In this study, an equivalent of this novel murine subset was characterized in the human spleen, thus increasing our knowledge of the antigen-presenting cell types present in the human spleen. Human L-DCs were identified as a hCD11c~hCD11b＋HLA-DR-hCD86＋ subset in the spleen, along with the previously described subsets of hCDlc＋ DCs, hCD123＋ plasmacytoid DCs （pDCs）, hCD16＋ DCs and hCD141＋ DCs. Three subsets of monocytes were also characterized. DC and monocyte subsets in human spleen had phenotypes similar to those of subsets in human blood. In line with murine studies, the presence of L-DC progenitors within the spleen was also investigated. When human splenocytes depleted of T and B cells were cocultured with the murine stromal line 5G3, hematopoiesis ensued and hCD11c＋HLA-DR＋ and hCD11c＋HLA-DR- cells were produced. The latter resemble L-DCs, which are also produced in murine spleen cocultures. Both subsets expressed hCDSO and hCD86, which identifies them as antigen-presenting cells, particularly DCs, and were highly endocytic. It is noteworthy that murine splenic stroma can serve as a support matrix for human hematopoiesis and DC production. These results support the hypothesis that 5G3 must express both cell-associated and soluble factors that can signal hematopoiesis in human and murine progenitors.

Murine spleen has been shown to harbour stromal cells that support hematopoiesis with production of myeloid antigen–presenting cells. Similar stromal lines have now been isolated from long-term cultures (LTC) of human spleen. When human progenitor populations from spleen, bone marrow and cord blood were employed as a source of progenitors for co-culture above splenic stromal lines, myelopoiesis was supported. Human splenocytes gave production of predominantly myeloid dendritic-like cells, with minor subsets resembling conventional dendritic cells (cDC) cells, and myeloid or monocytederived DC. Human bone marrow progenitors gave rise to myelopoiesis from hematopoietic progenitors, while human cord blood supported limited myelopoiesis from existing myeloid precursors. Transcriptome analysis compared two stromal lines differing in myelopoietic support capacity. Gene profiling revealed both stromal lines to reflect perivascular reticular cells with osteogenic characteristics. However, the 5C6 stroma which failed to support hematopoiesis uniquely expressed several inhibitors of the WNT pathway. Combined data now show that splenic stroma of both human and murine origin provides a mesenchymal stromal cell microenvironment which is WNT pathway–dependent, and which supports in vitro myelopoiesis with production of specific subsets of myeloid and dendritic-like cells.