H Castro-Malaspina scite author profile

H Castro-Malaspina

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Effects of in vitro purging with 4-hydroperoxycyclophosphamide on the hematopoietic and microenvironmental elements of human bone marrow

Siena¹,

Castro-Malaspina²,

Sc³

et al. 1985

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We describe the effects of 4-hydroperoxycyclophosphamide (4-HC) on the hematopoietic and stromal elements of human bone marrow. Marrow cells were exposed to 4-HC and then assayed for mixed (CFU-Mix), erythroid (BFU-E), granulomonocytic (CFU-GM), and marrow fibroblast (CFU-F) colony-forming cells and studied in the long-term marrow culture (LTMC) system. The inhibition of colony formation by 4-HC was dose and cell- concentration dependent. The cell most sensitive to 4-HC was CFU-Mix (ID50 31 mumol/L) followed by BFU-E (ID50 41 mumol/L), CFU-GM (ID50 89 mumol/L), and CFU-F (ID50 235 mumol/L). In LTMC, a dose-related inhibition of CFU-GM production was noted. Marrows treated with 300 mumol/L 4-HC were completely depleted of CFU-GM but were able to generate these progenitors in LTMC. Marrow stromal progenitors giving rise to stromal layers in LTMC, although less sensitive to 4-HC cytotoxicity, were damaged by 4-HC also in a dose-related manner. Marrows treated with 4-HC up to 300 mumol/L, gave rise to stromal layers composed of fibroblasts, endothelial cells, adipocytes, and macrophages. Cocultivation experiments with freshly isolated autologous hematopoietic cells showed that stromal layers derived from 4-HC- treated marrows were capable of sustaining the long-term production of CFU-GM as well as controls. In conclusion: (1) Hematopoietic progenitors cells, CFU-Mix, BFU-E, and CFU-GM, are highly sensitive to 4-HC, whereas marrow stromal progenitor cells are relatively resistant. (2) Marrows treated with 300 mumol/L 4-HC that are depleted of CFU-Mix, BFU-E, and CFU-GM can generate CFU-GM in LTMC, suggesting that most primitive hematopoietic stem cells (not represented by CFU-Mix) are spared by 4-HC up to this dose. (3) Consequently, the above colony assays are not suitable tools for predicting pluripotent stem cell survival after 4-HC treatment in vitro.

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Depletion of stromal cell elements in human marrow grafts separated by soybean agglutinin

Ebell¹,

Castro-Malaspina²,

Moore³

et al. 1985

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We report studies demonstrating the presence on human marrow stromal cells of binding sites for the soybean lectin (SBA). Marrow cells were separated by agglutination with SBA into an agglutinated cell (SBA+) fraction containing most mature hemic cells including T lymphocytes, and an unagglutinated cell (SBA-) fraction containing the hematopoietic stem cells. The vast majority of fibroblast colony-forming units (CFU- F) (97.2% +/- 1.1%) were in the SBA+ fraction. Mixing experiments using SBA+ and SBA- cells excluded the possibility that these results were caused by an unequal distribution of accessory cells having a regulatory effect on CFU-F growth. In the heterogeneous adherent layers of long-term marrow cultures derived from SBA+ and SBA- cells, endothelial cells, and adipocytes were found almost exclusively in cultures of SBA+ marrow cells. Immunofluorescence studies with fluorescein-labeled SBA revealed the staining of cultured marrow fibroblasts. This staining was inhibited by D-galactose, which is the sugar that specifically binds to SBA. Staining of marrow-derived heterogeneous adherent layers with fluorescein-labeled SBA demonstrated that cultured endothelial cells (identified by rhodamine-labeled antibodies against factor VIII-associated protein) and early adipocytes also had surface glycoproteins binding SBA, although its density on the latter cells was much less important. Thus, our data indicate that human marrow grafts processed with soybean lectin to remove T cells are also depleted of the cellular components of the marrow stroma.

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