Abstract
An evaluation of the effects of VP-16 on normal human marrow cells and representative lymphoma-leukemia cell lines was performed to assess this agent's applicability to ex vivo marrow purging. Tumoricidal dose curves were defined using malignant lymphoid (SK-DHL2 and Reh) and myeloid (HL-60) cells admixed with a 20-fold excess of irradiated marrow cells to simulate a borderline remission marrow. One-hour treatments yielded ID50 of less than 5 mumol/L of VP-16 for clonogenic units from each cell line; rare-to-zero clonogenic units survived exposure to 50 to 100 mumol/L. CFU-Mix, BFU-E, and CFU-GM were equal in their sensitivity to VP-16 (ID50s25 to 30 mumol/L). Marrows treated with 75 mumol/L were completely depleted of these colony-forming cells but produced CFU-GM in one-stage long-term marrow cultures (LTMCs). This dose had little adverse effect on the proliferative capacity of marrow stromal progenitors, as measured by CFU-F (ID50 271 mumol/L) and by the unperturbed development of adherent layers in LTMCs. Furthermore, these stromal layers were able to support hematopoiesis as well as controls in co-culture experiments with autologous marrow cells (two-stage LTMCs). In conclusion, doses of VP-16 that cleanse marrow of lymphoma-leukemia cells spare hematopoietic and stromal progenitors as demonstrated by LTMCs. These data favor the use of VP-16 in the clinical autotransplant setting.