Interest in the isolation and characterization of primitive hemopoietic cells in both the clinical and research fields has rapidly increased. In parallel, different purification systems have been developed to isolate these cells. We have compared five different methods for separation of CD34+ cells from human umbilical cord blood, normal bone marrow and apheresis harvests and analyzed purity, recovery, yield and enrichment of colony forming cells (CFC) for each individual system. Our results indicate that the most reliable methods of purification for all samples were fluorescence activated cell sorting (FACS) and magnetic activated cell sorting (MACS) which consistently yielded high purities (> 70%) and enrichment of CFC. In this respect the enrichment of CFC from the MACS was superior to all the other systems including FACS. Similar results (> 70%) for purity were obtained using avidin affinity columns and a biotinylated antibody but neither yield nor CFC enrichment approached the values achieved with MACS. On average CFC enrichment using these affinity columns was greater than that observed for FACS while the purity was comparable. Both CELLector flasks and immunomagnetic beads coated with CD34 antibodies were less effective in our hands in separating purified populations of progenitor cells. Both purity and CFC enrichment of CD34+ cells using these methods were at least 50% lower than obtained with either FACS, MACS or affinity columns.
An in vitro model system is described that allows Correspondence: Dr 1. C. W. Marsh, Toronto General Hospital, Mulock Larkin Wing 2-036. 200 Elizabeth St.. Toronto, Ontario. Canada M5G 2C4.
Thirty-two patients with aplastic anemia (AA) have been studied using the long-term bone marrow culture (LTBMC) system. Of these patients, 26 had been treated with immunosuppressive therapy including antilymphocyte globulin (ALG) with or without androgens or high-dose methyl prednisolone. The remaining six patients either required no treatment or were studied before therapy was begun. Thirty-one of 32 patients (96%) had defective hematopoiesis in LTBMC with little or no evidence for the generation of primitive progenitor cells. The only exception was a patient with spontaneous recovery of aplasia in whom the defect was less marked. Crossover LTBMC experiments were performed in 23 cases by inoculating (1) patient marrow hematopoietic cells that had been depleted of adherent cells onto preformed, irradiated, normal stromas to assess the proliferative capacity of the hematopoietic cells, and (2) normal marrow hematopoietic cells that were depleted of adherent cells onto preformed, irradiated stromas from patients with AA to assess stromal function. Results of these experiments demonstrated a hematopoietic defect in all patients that was independent of the degree of hematologic recovery after ALG therapy. Only one patient had a probable stromal defect and this coexisted with a defect in the regenerative capacity of hematopoietic cells. We conclude that LTBMC is a sensitive method for detecting and defining the hematopoietic failure in AA. We suggest that the defective hematopoiesis present in all patients studied may be important in the pathogenesis of clonal evolution in AA.
Thirty-two patients with aplastic anemia (AA) have been studied using the long-term bone marrow culture (LTBMC) system. Of these patients, 26 had been treated with immunosuppressive therapy including antilymphocyte globulin (ALG) with or without androgens or high-dose methyl prednisolone. The remaining six patients either required no treatment or were studied before therapy was begun. Thirty-one of 32 patients (96%) had defective hematopoiesis in LTBMC with little or no evidence for the generation of primitive progenitor cells. The only exception was a patient with spontaneous recovery of aplasia in whom the defect was less marked. Crossover LTBMC experiments were performed in 23 cases by inoculating (1) patient marrow hematopoietic cells that had been depleted of adherent cells onto preformed, irradiated, normal stromas to assess the proliferative capacity of the hematopoietic cells, and (2) normal marrow hematopoietic cells that were depleted of adherent cells onto preformed, irradiated stromas from patients with AA to assess stromal function. Results of these experiments demonstrated a hematopoietic defect in all patients that was independent of the degree of hematologic recovery after ALG therapy. Only one patient had a probable stromal defect and this coexisted with a defect in the regenerative capacity of hematopoietic cells. We conclude that LTBMC is a sensitive method for detecting and defining the hematopoietic failure in AA. We suggest that the defective hematopoiesis present in all patients studied may be important in the pathogenesis of clonal evolution in AA.
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