Importance of marrow dose on posttransplant outcome in acute leukemia: models derived from patients autografted with mafosfamide-purged marrow at a single institution

Several prospective randomized trials in acute myelocytic leukemia (AML) documented a lower relapse rate with autologous bone marrow transplantation (ABMT) than with conventional chemotherapy. However, they also identified some transplant difficulties, such as failure to collect sufficient numbers of stem cells, slow kinetics of engraftment, and a high transplant-related mortality that diminished or negated positive impact on overall survival. Data for ABMT are inconclusive in acute lymphocytic leukemia (ALL) in adults. We retrospectively analyzed patients with acute leukemia autografted with marrow purged with mafosfamide after January 1983 in our institution. The population comprised 229 consecutive patients; 165 with AML [123 in first remission (CR1), 32 in second remission (CR2)]; 61 with ALL (46 in CR1, 4 in CR2); and 3 with undifferentiated acute leukemia. All patients were autografted with marrow purged with mafosfamide. Mafosfamide was given at a constant dose of 50 microg/mL in 103 and adjusted individually to produce a CFU-GM LD 95 (5% residual CFU-GM post purging) in 126. The outcome was analyzed for correlation with patient characteristics, the disease including cytogenetics, and the graft itself. Prognostic factors identified by multivariate analysis were used to derive a prognostic classification. Patients receiving higher doses of marrow submitted to purging (>5.46 x 10(4) CFU-GM/kg) experienced a lower treatment-related mortality (RR = 0.11, p = 0.005) and a higher leukemia-free (RR = 0.5, p = 0.005) and overall survival (RR = 0.4, p = 0.001). Patients receiving <0.004% CFU-GM of marrow actually infused post purging had a lower relapse rate (RR = 0.51, p = 0.003). Modeling of prognostic groups identified good-, intermediate-, and poor-risk categories. Patients receiving a stem cell dose evaluated before purging of >5.46 x 10(4) CFU-GM/kg and doses actually infused post purging of < or =0.02 x 10(4)/kg had a treatment-related mortality of only 2+/-2%, a leukemia-free survival of 70%, and an overall survival of 77+/-7% at 10 years. In this study of autotransplantation for acute leukemia using mafosfamide-purged marrow, the stem cell dose used for purging and the intensity of purging were the most important factors predicting outcome.     

The effect of a combined purging with mafosfamide and hyperthermia on murine haemopoietic stem cells and leukaemogenic cells.

The in vitro purging effect of mafosfamide combined with hyperthermia was studied in a murine model. The survival of normal clonogenic progenitors (d-9 CFU-S and CFU-GM) and WEHI 3-B leukaemic clonogenic cells (CFU-L) were compared. At 37 degrees C, CFU-L proved to be significantly more sensitive to mafosfamide than either of the normal progenitors. When mafosfamide was combined with 42.5 degrees C hyperthermia for 1 h, an additive effect was observed: at a dose of 5 micrograms/ml mafosfamide, the survival of CFU-L was nearly two logs lower than that observed at 37 degrees C, while 37.7% of CFU-S survived the purging. The repopulating capacity of surviving bone marrow CFU-S was not altered: a similar 60 d survival of supralethally irradiated recipients transplanted with comparable graft sizes from purged or non-purged bone marrow was observed. When bone marrow suspensions containing WEHI 3-B cells were purged with 5 micrograms/ml mafosfamide at 42.5 degrees C and the minimal amount of bone marrow cells needed to protect supralethally irradiated mice were injected, leukaemia incidence was reduced to less than 10% as opposed to 100% of those injected with untreated bone marrow. Our results suggest that ex vivo hyperthermia may enhance the purging efficiency of mafosfamide.     

Comparison of megakaryopoiesis in vitro of paired peripheral blood progenitor cells and bone marrow harvested during remission in patients with acute myeloid leukaemia

We have studied paired peripheral blood progenitor cells (PBPC) and bone marrow (BM) samples from 12 acute myeloid leukaemia (AML) patients following intensive chemotherapy, and assessed direct granulocyte-macrophage colony-forming units (CFU-GM), erythroid burst-forming units (BFU-E), megakaryocyte CFU (CFU-Mk) numbers and the production of CD61+ (platelet glycoprotein IIIa) cells in suspension culture in response to various haemopoietic growth factor combinations. We found that CFU-GM and BFU-E numbers per 105 mononuclear cells were similar in both AML PBPC and BM harvests; CFU-Mk numbers, however, were significantly higher in PBPC than BM. In addition, the higher total white cell count of the PBPC harvests meant that PBPC have much higher numbers of total progenitors per collection. CD61+ cell numbers in suspension cultures of AML PBPC and BM were lower than those of harvested normal marrow. However, response to pegylated recombinant human megakaryocyte growth and development factor (PEGrHuMGDF) both alone and in combination with other growth factors was qualitatively similar to that of normal BM. As with normal BM, response to PEGrHuMGDF alone did not increase further with addition of granulocyte colony-stimulating factor (G-CSF), granulocyte-macrophage CSF (GM-CSF), interleukin 6 (IL-6) or erythropoietin (EPO) in the AML PBPC and BM. Further responses over PEGrHuMGDF alone were seen when added with stem cell factor (SCF) or with a combination of SCF + IL-3 + EPO in both AML PBPC and BM cultures; however, the magnitude of the response was greater in the PBPC cultures. Response to PEGrHuMGDF + IL-3 was seen in the PBPC cultures but not in the AML BM. These data suggest that, in AML patients, there are proportionally more megakaryocyte progenitor cells in the mobilized PBPC than in the BM harvests, which would explain the more rapid platelet recovery following PBPC autografts.     

One hundred twenty-five adult patients with primary acute leukemia autografted with marrow purged by mafosfamide: a 10-year single institution experience

A total of 125 acute leukemia adult patients were autografted with bone marrow (BM) purged by mafosfamide (ASTA Z) during the period of January 1983 to January 1993. The median follow-up period was 64 months (range, 3 to 126). There were 84 acute myeloblastic leukemias (AMLs) and 41 acute lymphoblastic leukemias (ALLs). At time of autologous BM transplantation (ABMT); 64 AMLs were in first complete remission (CR1), and 20 were in second CR (CR2); 35 ALL were in CR1, and 6 were in CR2. The median age of the patients was 33 years (range, 16 to 55). The median interval between achieving CR and autografting was 5 months (range, 1.3 to 23). The pretransplant regimen consisted of cyclophosphamide (120 mg/kg) and total body irradiation. All patients were grafted with autologous BM treated in vitro with mafosfamide used at levels individually adjusted in 95 patients and at a standard dose in 30 patients. The initial richness in granulomacrophagic progenitors (CFU-GM) of the harvested BMs was 5.16 x 10(4) CFU-GM/kg (range, 0.55 to 33). After mafosfamide purging, the residual CFU-GM number was 0.021 x 10(4)/kg (range, 0 to 1.78). The probability of successful engraftment was significantly higher and the time to engraftment was significantly shorter in ALL. Of 33 patients grafted with BM containing no residual CFU-GM, those with AML (n = 22) had platelet recoveries that were significantly longer than those for AML patients receiving BM with residual CFU-GM. At 8 years, patients autografted in CR1 for AML and ALL had a leukemia-free survival (LFS) of 58% and 56%, respectively, with a relapse incidence (RI) of 25% and 37%, respectively. Patients autografted in CR2 for AML had an LFS of 34% and an RI of 48% at 5 years. The incidence of late relapses was significantly higher in ALLs. By multivariate analysis, four factors were found to influence favorably engraftment in addition to a diagnosis of ALL, a younger age, ABMT performed in CR1, the adjusted dose technique of purging, and a shorter interval from CR to ABMT. Two factors were correlated with a better outcome. (1) The LFS was significantly higher and the transplant-related mortality significantly lower in patients who received richer BM. (2) The RI was significantly lower in patients autografted within 150 days from CR. Our results reinforce the view that ABMT is one approach to improve the outcome of adult patients with acute leukemia.(ABSTRACT TRUNCATED AT 250 WORDS)     

Differential sensitivity of adherent CFU-blast, CFU-mix, BFU-E, and CFU-GM to mafosfamide: implications for adjusted dose purging in autologous bone marrow transplantation.

The availability of an in vitro assay able to detect hematopoietic progenitor cells closely related to those responsible for marrow engraftment following autologous bone marrow transplantation (ABMT) prompted us to establish a procedure aimed at maximally increasing the concentration of the cyclophosphamide derivative mafosfamide used for marrow purging. It, therefore, was the aim of the present study to investigate in a group of patients with acute nonlymphoblastic leukemia (ANLL; n = 19) and acute lymphoblastic leukemia (ALL; n = 19) in complete remission the effect of mafosfamide at the level of adherent blast colony-forming units (blast colony-forming units, CFU-Blast), as well as multipotential (granulocyte erythrocyte macrophage megakaryocyte colony-forming units, CFU-GEMM), erythroid (erythroid burst-forming units, BFU-E), and granulocyte-macrophage (granulocyte-macrophage colony-forming units, CFU-GM) progenitor cells. When nonadherent marrow mononuclear cells (MNCs) were incubated (30 min, 37 degrees C) with increasing doses of mafosfamide (30-120 micrograms/ml), a statistically significant (p less than or equal to 0.0005) dose-dependent suppression of CFU-Blast growth was observed. The mean (+/- 1 standard error of the mean [SEM]) values of 50% inhibition (ID50) of the CFU-Blast growth were not significantly different for ANLL (106 +/- 5) and ALL (107 +/- 5) patients. Analysis of CFU-Blast ID50 distribution demonstrated that ID50 ranged from 100 to 120 micrograms/ml in 17 cases (45%), whereas it ranged from 60 to 100 micrograms/ml in 12 cases and from 120 to 160 micrograms/ml in 9 cases. A statistically significant (p less than or equal to 0.05), dose-dependent suppression of colony growth from multi-potential and lineage-restricted progenitor cells was also observed. However, the value of CFU-Blast ID50 was significantly higher (p less than or equal to 0.05) than CFU-GEMM, BFU-E, and CFU-GM ID50 and ID95 values. In conclusion, our data demonstrate that: 1) the CFU-Blast assay allows to detect on an individual basis the doses of mafosfamide used for marrow purging, and 2) the concentrations of mafosfamide extrapolated by using the CFU-Blast assay are significantly higher than those obtained with the CFU-GM assay. The absence of any detrimental effect on marrow engraftment in vivo supports the safety of the CFU-Blast assay to evaluate the dose of mafosfamide used for marrow purging before ABMT.     

Use of recombinant human granulocyte-macrophage colony-stimulating factor in patients with lymphoid malignancies transplanted with unpurged or adjusted-dose mafosfamide-purged autologous marrow.

The neutropenia-related morbidity and mortality occurring after autologous bone marrow transplantation (ABMT) is increased by marrow purging procedures. While phase I through III clinical trials showed the enhancing activity of recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) on neutrophil recovery after ABMT with unpurged marrow, controversial results have been reported when purged marrow was used. Therefore, it was the aim of the present study to evaluate the efficacy of rhGM-CSF administration in a group of patients (n = 15) with lymphoid malignancies transplanted in complete remission with mafosfamide-purged (n = 10) or unpurged (n = 5) marrow. Mafosfamide concentrations used for marrow purging were evaluated on an individual basis by means of a recently described technique that destroys the granulocyte-macrophage (granulocyte-macrophage colony-forming units [CFU-GM]) compartment, but spares 50% of the more primitive stroma adherent colony-forming cells (CFU-Blast). rhGM-CSF (10 micrograms/kg/d) was started within 24 hours of ABMT and administered in a 4-hour infusion daily until the absolute neutrophil count (ANC) reached 500 x 10(6)/L and then for 7 more days. Patients receiving mafosfamide-purged or unpurged marrow failed to show any difference in terms of median number of days required to achieve an ANC > or = 500 x 10(6) (13 v 14.0, P > .4) cells/L. As compared with retrospective controls, granulocytic recovery was reduced by a median time of 11 (P < or = .0005) and 5 (P < or = .0005) days for patients grafted with purged and unpurged marrow, respectively. The number of CFU-GM (mean +/- SD) infused per kilogram of body weight was significantly lower in patients who received purged autografts as compared with those receiving unpurged autografts (0.85 +/- 0.79 x 10(4) v 15.7 +/- 9.2 x 10(4), P < or = .0005). The dose of CFU-GM progenitors infused per kilogram of body weight did not correlate (r = .031, P > .05) with the time required to reach an ANC > or = 500 x 10(6) cells/L. The number of CFU-Blast (mean +/- SD) infused per kilogram of body weight was not significantly different between patients who received purged or unpurged autografts (5.05 +/- 2.51 x 10(3)/kg v 6.18 +/- 2.66 x 10(3)/kg, P < or = .375). A statistically significant correlation (r = -.658, P < or = .05) was observed between the number of CFU-Blast infused and the number of days required to reach an ANC > or = 500 x 10(6) cells/L.(ABSTRACT TRUNCATED AT 400 WORDS)     

Difference in kinetics of hematopoietic reconstitution between ALL and ANLL after autologous bone marrow transplantation with marrow treated in vitro with mafosfamide (ASTA Z 7557)

The kinetics of hematopoietic recovery after autologous bone marrow transplantation (ABMT) reflect the hematopoietic capacity of the infused marrow. In vitro treatment of marrow with high doses of mafosfamide (ASTA Z 7557) alters the hematopoietic regenerative capacity of the graft. Thirty-two patients with acute leukemia (12 acute lymphoblastic leukemia (ALL) and 20 acute non-lymphoblastic leukemia (ANLL] with 27 in complete remission and five in partial remission were consolidated with cyclophosphamide (60 mg/kg x 2) and total body irradiation (10 Gy), followed by reinfusion of autologous marrow treated in vitro with mafosfamide. The marrow of each patient had been incubated with the highest tolerable dose of mafosfamide, individually predetermined from a preincubation test. We report here that the kinetics of engraftment are strikingly different in ANLL and ALL patients. In the ANLL group recovery to 0.1% reticulocytes took a median of 20.5 days (range 14-32) versus 15 (11-28) in the ALL group; 33.5 days (18-45) versus 19 (15-30) for leukocytes to reach 1.0 x 10(9)/l; 35 (19-60) versus 20.5 (15-30) for neutrophils to reach 0.5 x 10(9)/l; 110+ (45-480+) versus 50 (23-90) for platelets to reach 50 x 10(9)/l (p less than 0.01 and p less than 0.05). Detection of granulocyte-macrophage progenitors (CFU-GM) regeneration in marrow aspirates post-ABMT was delayed in ANLL (p less than 0.05). Neither the nature of the previous induction therapy, nor the status of the blood or bone marrow at the time of collection (CFU-GM and erythroid burst-forming units/ml) nor the stem cell sensitivity to mafosfamide, nor the doses of progenitor cells infused could explain these differences. We interpreted these observations as suggesting that the engraftment potential has been more severely altered in ANLL than in ALL, which may reflect both the intensity of the in vitro treatment and the intrinsic fragility of the stem cell pool in ANLL.     

Biological properties of peripheral blood progenitor cells mobilized by cyclophosphamide and granulocyte colony-stimulating factor

Patients transplanted with mobilized blood progenitor cells (PBPC) recover their neutrophil counts more rapidly than patients transplanted with bone marrow even when they receive the same dose/kg of granulocyte-macrophage colony-forming cells (CFU-GM). Here we have sought a biological explanation for this phenomenon. Most CD34-positive PBPC are quiescent (<1% in S phase) when they are collected from the bloodstream of patients treated with cyclophosphamide and granulocyte colony-stimulating factor (G-CSF), but we have shown that they are able to resume proliferation rapidly in vitro by measuring the kinetics of CFU-GM production by primitive plastic-adherent (PΔ) cells. Also, PΔcells in PBPC harvests, unlike normal marrow PΔ cells, were insensitive to cell-cycle restraint imposed by contact with marrow-derived stromal cells. We found that PΔ cells in PBPC collections produce relatively more CFU-GM and relatively fewer BFU-E than PΔ cells in bone marrow, indicating that granulopoiesis might occur at the expense of erythropoiesis, but we were unable to find any differences in the kinetics of granulocytic maturation between PBPC and bone marrow. Our interpretation of these findings is that transplanted PBPC rapidly enter the cell cycle and contact with stromal cells in the marrow does not reduce the proportion of progenitors participating in neutrophil production. Consequently, neutrophil recovery after PBPC infusion is more rapid than neutrophil recovery after marrow infusion. Granulopoiesis at the expense of erythropoiesis may also contribute to this effect.     

Successful autologous bone marrow transplantation in second remission of malignant histiocytosis.

This report describes an 18-year-old man with disseminated malignant histiocytosis (MH). The patient initially attained complete remission (CR1) with conventional chemotherapy and then relapsed 14 months later. In second complete remission (CR2) 2 years and 8 months after initial diagnosis, an autologous bone marrow transplantation (ABMT) was undertaken following conditioning with the BEAM regimen. Bone marrow collected in CR2 was incubated with mafosfamide at a dose adjusted to the individual sensitivity of normal CFU-GM according to our current protocol. At the time of writing, 4 years post-transplant, this patient remains disease free. This is the first report of ABMT with marrow treated in vitro by mafosfamide in MH.     

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

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.     

Peripheral blood progenitor cell mobilization in healthy donors receiving recombinant human granulocyte colony-stimulating factor

OBJECTIVE: We analyzed the incidence of primitive (LTC-IC) and committed (CFU-mix, BFU-E, CFU-GM) hematopoietic progenitors detected under steady-state conditions and upon progenitor cell mobilization in a cohort of healthy donors receiving recombinant human granulocyte colony-stimulating factor (rhG-CSF). MATERIALS AND METHODS: Healthy donors (n = 30) of HLA-mismatched or -matched stem cell transplants were mobilized with rhG-CSF (8 microg/Kg body weight subcutaneously twice daily until completion of leukapheresis). PBPC collections were started after 4 days of rhG-CSF therapy. RESULTS: Steady-state incidence of bone marrow LTC-IC, but not committed progenitors, significantly correlated with the numbers of mobilized CD34+ cells (r = 0.6, p = 0.004), CFU-GM (r = 0.79, p = 0.0005) and CFC (r = 0.76, p = 0.001) detected after 4 days of rhG-CSF therapy. Statistically significant correlations were also found between steady-state blood CFU-GM and peak numbers of CD341 cells (r = 0.68, p = 0.001), numbers of day 4 CD341 cells (r = 0.52, p = 0.005), CFU-GM (r = 0.63, p = 0.002), and CFC (r = 0.61, p = 0.003). CONCLUSION: Our data show that in normal volunteers baseline marrow LTC-IC and blood CFU-GM correlate with rhG-CSF-mobilized PBPC. The potential clinical relevance of these findings in the identification of poor mobilizers will be tested in a prospective study.     

Autologous blood stem cell (ABSCT) versus purged bone marrow transplantation (pABMT) in standard risk AML: influence of source and cell composition of the autograft on hemopoietic reconstitution and disease-free survival.

Complete and sustained hemopoietic function following myeloablative therapy can be successfully achieved by autologous transfusion of blood derived hemopoietic stem cells. It was the purpose of this study to compare autologous blood stem cell transplantation (ABSCT) in 20 patients with autologous transplantation of a mafosfamide purged marrow (pABMT) in 23 patients; all were transplanted in first complete remission (CR) of acute myelogenous leukemia (AML) using the same pretransplant regimen (14.4 Gy total body irradiation and 200 mg/kg cyclophosphamide). The autografts, mostly differing in source of hemopoietic stem cells, cell composition and CFU-GM number, were evaluated for their ability to reconstitute hemopoiesis and induce long-term disease-free survival (DFS). Prior to harvest, hemopoietic stem cells were mobilized by inducing transient myelosuppression (ara-C 100 mg/m2 every 12 h s.c. days 1-5 and daunorubicin 45 mg/m2, days 3 and 4) followed by an overshooting of peripheral stem cell concentration.(ABSTRACT TRUNCATED AT 250 WORDS)     

Bone marrow purging with mafosfamide — A critical survey

Summary Autologous bone marrow transplantation (ABMT) is increasingly used to consolidate remissions, primarily in hematological disease. Various purging strategies have been developed to minimize the risk of reimplantation of tumor cells with the bone marrow autotransplant. Pharmacological purging with the oxazaphosphorine derivative mafosfamide has been studied extensively, and recent clinical data suggest that purging with mafosfamide may translate into superior remission duration if compared to nonpurged ABMT in acute leukemia. Chemical and experimental data relevant to mafosfamide-purging and clinical results are reviewed, with special emphasis on safety aspects.Abbreviations ABMT autologous bone marrow transplantation - AL acute leukemia - AlDH aldehydedehydrogenase - ALL acute lymphoblastic leukemia - AML acute myelogenous leukemia - BFU-E erythrocyte burst forming units - CALLA common ALL antigen - CFU colony forming units - CFU-E erythrocyte CFU - CFU-GM granulocyte-macrophage CFU - CFU-Mix mixed CFU - CFU-Mk megakaryocyte CFU - CFU-S spleen CFU - CML chronic myelogenous leukemia - CP Cyclophosphamide - CR complete remission - DFP probability to remain disease free - DFS probability to survive disease free - EBMTG European bone marrow transplantation group - GM-CSF granulocyte-macrophage colony stimulating factor - GvHD graft versus host disease - ID-95 dose inhibiting 95% of colony growth - OH-CP hydroxy-cyclophosphamide - OOH-CP hydroperoxy-cyclophosphamide - TBI total body irradiation     

Repopulating potential of canine bone marrow cells: differences between large and small cells separated by velocity sedimentation

This study compares the pattern of haemopoietic recovery in dogs after total-body irradiation and transfusion of different populations of cryopreserved autologous bone marrow cells. Dogs in group 1 received unseparated marrow cells. Group-II dogs were transfused with small (less than 5.1 mm/h) and group-III dogs with large (greater than 7.1 mm/h) bone marrow cells, separated by velocity sedimentation. Myeloid progenitor cells (CFU-GM) present in slowly sedimenting cell fractions were characterized by a higher radiosensitivity in vitro and a lower proportion of cells in S-phase as compared to rapidly sedimenting CFU-GM. Although autografts in all groups contained comparable numbers of CFU-GM, transfusions resulted in different patterns of recovery. Fractions of small bone marrow cells contained most of the pluripotent stem cells, leading to speedy haematological reconstitution and long-term survival. The pattern of early recovery was similar in dogs of group I and of group II. In group III, the recovery in all cell lineages was delayed, going along with marked extramedullary haemopoiesis. The data may indicate the limits of committed progenitors in reflecting pluripotential stem cells, in particular, if bone marrow grafts have been modified in vitro. Differences in the repopulating potential of the graft might be reflected by distinct physical and biological properties of the CFU-GM.     

Amifostine stimulates the formation of hematopoietic bone marrow progenitors from B-cell chronic lymphocytic leukemia

Amifostine is a phosphorylated aminothiol that not only protects hematopoietic progenitor cells from chemotherapy and radiotherapy, but also stimulates normal hematopoiesis. The effect of amifostine on the in vitro growth of hematopoietic progenitors derived from B-cell chronic lymphocytic leukemia(B-CLL) was investigated. The colony-forming units (CFU)-granulocyte macrophage (CFU-GM), the burst-forming units-erythroid (BFU-E) and the CFU-granulocyte erythroid macrophage megakaryocytes (CFU-GEMM) increased 38, 20 and 100%, respectively, after the incubation with amifostine. There was no statistical difference in the in vitro progenitor growth of patients grouped according to their disease stage, bone marrow lymphocytic infiltration or therapy. Our data indicate that apart from cytoprotection the parallel use of amifostine and chemotherapy in patients with B-CLL could enhance bone marrow recovery.     

The use of recombinant cytokines for enhancing immunohematopoietic reconstitution following bone marrow transplantation. II. The influence of lymphokines on CFU-GM colonies from human untreated, ASTA-Z or Campath-1M treated bone marrow

Patients undergoing bone marrow transplantation (BMT) are subjected to the risk of pancytopenia in the immediate post-BMT period. Recipients of bone marrow (BM) autografts purged in vitro by chemical agents such as mafosfamide (ASTA-Z) are even more likely to develop a delayed engraftment. In a previous study in mice, we showed earlier immunohematopoietic reconstitution after syngeneic marrow grafting with BM cells precultured with single or combined cytokines. In this work we determined optimal culture conditions for the use of single and various cytokine combinations in order to activate progenitor cells following in vitro cultures of untreated, ASTA-Z purged or T cell-depleted human BM preparations prior to BMT. The best single cytokine for enhancing CFU-GM was found to be GM-CSF (0.1 mg/ml) which produced an increase of up to 8-fold over controls after 3 days' incubation. Addition of recombinant human interleukin 3 (rhIL3) (0.1 mg/ml) to rhGM-CSF had an additive effect. The same enhancing effect of in vitro CFU-GM by both cytokines was observed following ASTA-Z purging of BM cells obtained from patients undergoing autologous BMT. Similarly, depletion of lymphocytes from BM using the monoclonal rat anti-human lymphocyte antibody Campath-1M and human complement did not diminish the beneficial influence of rhIL3 and rhGM-CSF. When combined with rhGM-CSF and rhIL3, rhIL1 and rhIL2 had no appreciable enhancing effect on CFU-GM and occasionally even reduced it. We suggest that enhancement of differentiation of hematopoietic progenitor cells may be accomplished by in vitro incubation of BM cells without continuous administration of cytokines in vivo following BMT.     

Long-term outcome in acute myelogenous leukemia autografted with mafosfamide-purged marrow in a single institution: adverse events and incidence of secondary myelodysplasia

We have analyzed the long-term outcome and toxicities in 98 patients with high-risk acute myelogenous leukemia (AML) who were treated with autologous bone marrow transplantation (ABMT) and monitored for a median observation period of 11.67 years. Between 1983 and 1994, 98 patients in our institution in first or second and higher complete remission (CR) underwent total body irradiation and high-dose cyclophosphamide prior to ABMT purged with mafosfamide. Twenty-seven out of the 90 evaluable patients (30%) were alive and in continuous CR for a median of 11.67 years (range, 6.39-15.53) after ABMT and could be considered as 'cured'. Among the 90 patients, 39 were transplanted at first CR and had a significantly higher survival rate than those transplanted at > or = 2 CR. Younger patients (<40 years) had a better prognosis and patients with FAB M1-4 had a more favorable outcome than those with M5. Long-term complications included four patients with cardiac complications, two with renal insufficiency. Five developed HCV infections, four myelodysplastic syndrome. The incidence of cataract among the long-term survivors was 44.4%. Therefore, a significant number of adult patients with AML in first CR derived long-term benefit from ABMT, despite the risks of a few long-term complications and of MDS (4.4%).     

Amifostine improves the antileukemic therapeutic index of mafosfamide: implications for bone marrow purging

One of the principal challenges of cancer chemotherapy is the relative inability of most anticancer drugs to distinguish between normal and neoplastic tissues. Consequently, a broad range of toxicities are experienced by patients, especially myelosuppression. Amifostine, a phosphorylated aminothiol, increases the selectivity of specific anticancer drugs for neoplastic cells by protecting normal tissues. One potential application of this protector is during bone marrow purging to selectively remove contaminating cancer cells. This study took normal or leukemic marrow from human subjects and evaluated the ability of amifostine to selectively protect normal bone marrow progenitor cells versus leukemic progenitor cells from the cytotoxic effect of mafosfamide. The dose response of mafosfamide amifostine on leukemia colony-forming units or normal marrow progenitor cells was determined and the LD95 was calculated. Amifostine pretreatment resulted in a statistically significant protection of granulocyte-macrophage colony- forming units and erythroid blast-forming units from the toxicity of mafosfamide (P = .031). Thus, amifostine protection of normal marrow progenitor cells allows a higher LD95 concentration of mafosfamide to be used in ex vivo purging. In contrast, amifostine pretreatment increased the cytotoxicity of mafosfamide on the fresh human leukemia progenitor cells (P = .006). The dual effect of amifostine protection of normal marrow progenitor cells coupled with amifostine-induced sensitization of the leukemia cells increases the possible cell-kill of leukemic stem cells. With amifostine pretreatment, at the LD95 concentrations of mafosfamide for marrow progenitor cells, there was an estimated 6 log increase in cell-kill of the leukemia cells. This selective cell-kill offers the potential for lowering the incidence of leukemic relapse, while preserving more normal stem cells for autologous transplantation.     

Effect of mafosfamide (ASTA-Z-7654) on the clonogenic cells in precursor-B acute lymphoblastic leukaemia: significance for ex vivo purging of bone marrow for autologous transplantation.

Lymphoblasts from 11 patients with acute lymphoblastic leukaemia (ALL) of precursor-B type were exposed to the cyclophosphamide derivative mafosfamide (ASTA-Z-7654), and examined for growth inhibition using an in vitro colony assay. Leukaemic clonogenic cells were significantly more resistant to this cytotoxic drug (mean IC50 29.2 micrograms/ml, IC90 64.8 micrograms/ml) compared with myeloid progenitors from seven normal bone marrow samples (mean IC50 9.0, IC90 19.9) (p less than 0.0001). This effect was most pronounced in the four previously treated cases examined (mean IC90 84.4 micrograms/ml). The implications of these findings for bone marrow purging with ASTA-Z in patients with ALL for autologous marrow transplantation are discussed.