Response to Treatment in Acute Non-lymphatic Leukaemia: Prognostic Value of Colony Forming and Colony Stimulating Capacities of Bone Marrow and Blood Cells Compared to Other Parameters

Growth of bone marrow and mononuclear white blood cells (MWBC) in soft-agar cultures was studied in 26 patients with untreated acute non-lymphocytic leukaemia (ANLL). Marrow and MWBC from 30 healthy volunteers served as controls. All ANLL patients revealed an abnormal growth in vitro . Patients with an increased number of clones in marrow cultures and large cluster predominance ('excessive growth') responded poorly to therapy with only one of 10 patients entering remission. On the contrary, only two of the 15 patients with a decreased clone number ('low growth') failed to achieve remission. The number of colonies and clusters in both bone marrow and blood cultures was significantly lower at presentation in patients who later entered remission than in those who did not. The correlations between the number of colonies and clusters in the blood and the marrow cultures were statistically significant. No significant correlations were found between prognosis or colony formation, on one hand, and the production of colony stimulating activity (CSA), by bone marrow and blood cells of ANLL patients, on the other. Nor could such correlations be found between prognosis, blood cell counts, and age. It is concluded that the growth pattern of both bone marrow and circulating colony forming cells is of value in predicting the response to cytostatic drugs and particularly in selecting patients with a high probability to respond poorly to current cytostatic regimes.     

Granulopoiesis in severe congenital neutropenia.

The pathogenesis of the granulopoietic failure in three children with severe congenital neutropenia was studied. Mature neutrophils were absent from both peripheral blood and bone marrow. Assay of bone marrow granulocyte colony-forming cells (CFU-C) in a methylcellulose tissue culture system using colony-stimulating activity (CSA) from peripheral blood leukocytes demonstrated normal or increased concentrations of CFU-C compared to those from marrows of 60 age-matched controls. Colonies were of normal size and by light microscopy appeared to contain granulocytes in all stages of maturation including the mature polymorphonuclear neutrophil. CFU-C from peripheral blood of two patients were normal. Production and activity of CSA from the patients' peripheral blood leukocytes and urinary CSA excretion were normal. No serum inhibitors against CFU-C or CSA could be demonstrated using both control and autologous marrow. The defect did not appear to be due to a lack of granulocytic stem cells, a reduction of humoral stimulators of granulopoiesis, nor the presence of an inhibitor as measured by these techniques.     

Treatment of patients with acute nonlymphocytic leukemia in relapse: a Leukemia Intergroup study

Forty patients with acute nonlymphocytic leukemia (ANLL) in first relapse were treated at eight member institutions of the Leukemia Intergroup with a 10-day continuous intravenous infusion of cytosine arabinoside and an anthracycline antibiotic administered on days 1, 2, and 3. Twenty of the 40 patients achieved a complete response. Seven of the patients who did not enter remission were drug-resistant failures, while 13 patients failed to enter remission for reasons other than persistent leukemia. Pretreatment parameters such as age, presence of infection, platelet count, and liver function tests were important predictors of survival. The percent bone marrow cellularity, the percent circulating abnormal (leukemic) cells, and the height of the white blood cell count prior to treatment were helpful in distinguishing patients who would enter remission from those who would not enter remission because of persistent leukemia.     

Hypoplastic acute leukemia: description of eight cases and search for hematopoietic inhibiting activity

Hypoplastic acute leukemia (HAL) is characterized by pancytopenia and by hypocellularity of the bone marrow. The marrow contains equal to or more than 30% myeloblasts. Absence of tissue infiltrates and/or tumor masses is mandatory. Eight patients are described here. They do not fit into the FAB classification for either acute nonlymphocytic leukemia (ANLL) or myelodysplastic syndrome (MDS), except for one patient who subsequently proved to have a chronic myelomonocytic leukemia (CMML). The median age is 65 years. Two patients, including the CMML patient, are alive, 22 and 6 months from diagnosis. Six patients have died. The median survival is 8 months. Normal bone marrow cells cultured either with HAL sera or with HAL peripheral blood mononuclear cells as feeders and exogenous GM-CSF yielded subnormal CFU-GM counts. This might indicate inhibitory activity of HAL serum and defective stimulatory activity of HAL peripheral blood mononuclear cells.     

CCNU Toxicity After an Overdose in a Patient with Hodgkin's Disease

An overdose of CCNU (600 mg over a 15-d period) was unintentionally ingested by a patient with advanced Hodgkin's disease subjected to combination chemotherapy. A severe bone marrow depression occurred 3 weeks after the start of the CCNU treatment. The nadir of the platelet count was reached after 4 weeks and that of the granulocyte count after 5 weeks. At the nadir of the white blood cell count, colony-forming cells (CFU-C) were found in significantly reduced numbers in the bone marrow, and were not found at all in the peripheral blood; the amount of colony-stimulating activity (CSA) produced by peripheral blood cells was reduced. However, the cells producing CSA recovered earlier than the CFU-C, and the CSA peak value was reached about 1 week before the peak value for CFU-C in the bone marrow. Thus, in vivo CSA-producing cells appeared to be more resistant to CCNU than were CFU-C, and their recovery appeared to be a prerequisite for the recovery of CFU-C and myelopoietic cells.     

Cyclic hematopoiesis: effects of lithium on colony-forming cells and colony-stimulating activity in grey collie dogs

The cycling of blood cell counts in grey collie dogs with cyclic hematopoiesis can be eliminated by treatment with oral lithium carbonate. To explore the mechanism by which lithium alters this stem cell disorder, studies of bone marrow granulocyte-macrophage progenitor cells (CFU-C), neutrophil colony-forming cells (neutrophilic CFU-C), and colony-stimulating activity (CSA) were performed. In untreated dogs, the proportions of CFU-C were found to fluctuate cyclically, but the cyclic fluctuations in neutrophil colony-forming cells were even more marked, with numbers decreasing to undetectable levels during each period of neutrophilia. Dogs on lithium, however, did not cycle the numbers of total or neutrophilic CFU-C. Tritiated thymidine suicide rates were not altered by treatment with lithium. Serum CSA levels and bone marrow cell elaboration of CSA were not increased by lithium. These studies suggest that lithium corrects cyclic neutropenia by a direct effect on the differentiation and proliferation of CFU-C; normalization of the proportion of CFU-C that enter neutrophilopoiesis appears to be an important effect of the lithium therapy.     

Prognostic significance of terminal transferase activity in childhood acute lymphoblastic leukemia: a prospective analysis of 164 patients

Whether the level of terminal deoxynucleotidyl transferase (TdT) activity in mononuclear cells from bone marrow and peripheral blood has prognostic significance has been analyzed prospectively in 164 children with T and non-T, non-B marked acute lymphoblastic leukemia (ALL). TdT was measured at diagnosis to assess its value as a predictor of duration of remission and length of survival. It was measured repeatedly during remission to assess whether it could predict relapse. Ninety-seven percent of the children achieved a complete remission of their disease, and 40% relapsed during the study. The level of TdT activity in blasts at diagnosis varied 1000-fold from patient to patient. There was no statistically significant relationship between TdT activity in cells at diagnosis and the achievement of complete remission, the duration of remission, or length of survival. TdT activity was significantly increased in the bone marrow of 65% of patients at the time of marrow morphological relapse, but was rarely increased in marrow from patients with isolated testicular or central nervous system relapse. Wide fluctuations in TdT activity were characteristically seen in mononuclear cells from the marrow and peripheral blood of patients with ALL at all stages of their disease. An isolated high value of TdT activity in the bone marrow or peripheral blood cannot be taken as evidence of impending relapse. Quantitative measurements of TdT activity alone on mononuclear cells from bone marrow and peripheral blood are helpful in differential diagnosis, but cannot guide therapy of children with ALL.     

Circulating autologous stem cells collected in very early remission from acute non-lymphoblastic leukaemia produce prompt but incomplete haemopoietic reconstitution after high dose melphalan or supralethal chemoradiotherapy

Haemopoietic reconstitution (HR) using autologous peripheral blood stem cells (PBSC) was attempted after intensive chemotherapy or chemoradiotherapy in two patients with relapsed acute non-lymphoblastic leukaemia (ANLL). The PBSC were collected by leukapheresis very early in first remission and cryopreserved in liquid nitrogen. Both patients demonstrated early evidence of trilineage engraftment. The first patient received melphalan 200 mg/m2 followed by rescue with 1.3 X 10(8) mononuclear cells/kg body weight containing 29 X 10(4) granulocyte-macrophage progenitor cells (CFU-GM)/kg, and HR was evident by Day 14. The second patient was treated with supralethal chemoradiotherapy followed by rescue with 3.0 X 10(8) mononuclear cells/kg containing 23 X 10(4) CFU-GM/kg. He demonstrated early engraftment with near normal peripheral blood counts by Day 16. There was a subsequent fall in both bone marrow cellularity and peripheral blood counts to a level of low but persistent activity. There was a further phase of haematological recovery from 8 weeks following transplantation with an increase in peripheral blood counts and bone marrow cellularity until final relapse at 13 weeks. This study demonstrates that circulating stem cells have haemopoietic reconstitutive capacity, previously only shown with buffy coat cells from chronic granulocytic leukaemia. The minimum number of PBSC required for satisfactory engraftment remains unknown, although it seems probable that the ratio of pluripotent stem cells to committed progenitor cells is lower in very early remission peripheral blood than in either allogeneic normal bone marrow or autologous bone marrow collected later in stable remission. The question of leukaemic contamination of the PBSC remains to be answered.     

Studies on the regeneration of the CFU-C population in blood and bone marrow of lethally irradiated dogs after autologous transfusion of cryopreserved mononuclear blood cells

In a group of 8 lethally irradiated (1200 R) dogs, that were transfused autologously with cryopreserved mononuclear cells (MNC) derived from the peripheral blood by leucapheresis the concentration of colony-forming units in agar (CFU-C) in bone marrow and peripheral blood was estimated at regular intervals after irradiation and transfusion of MNC. The numbers of MNC transfused per kg body weight ranged from 0.32 x 10(9) to 1.63 x 10(9) with an incidence of CFU-C between 0.02 x 10(5) and 1.38 x 10(5). In 6 dogs the CFU-C levels in the bone marrow reached the normal pre-irradiation values between days 15 and 20. But in 2 dogs that had received the lowest CFU-C numbers the regeneration of the bone marrow CFU-C was markedly delayed. In general the time course of the bone marrow repopulation by CFU-C for single dogs was reflected by a corresponding regeneration pattern of the blood CFU-C. The time course of the curves for the blood CFU-C levels on the other hand was of the same kind as for the granulocyte values in the peripheral blood, thuations were seen in the blood CFU-C levels of single dogs before irradiation and after mononuclear leucocyte transfusion. Despite of such limitations the blood CFU-C content appeared to be a useful indicator of haematopoietic regeneration of the bone marrow.     

Transplantation of mobilized peripheral blood cells to HLA-identical siblings with standard-risk leukemia

Allogeneic mobilized peripheral blood progenitor cells instead of bone marrow are increasingly used to restore hematopoiesis after myeloablative therapy. Data supporting this important change of clinical practice are scarce. We therefore assigned patients with early leukemias to peripheral blood or bone marrow transplantation; the occurrence of acute and chronic graft versus host disease, survival, transplantation-related mortality, and relapse rates were compared. A total of 350 patients between 18 and 55 years of age with acute leukemias in remission or chronic myelogenous leukemia in first chronic phase were randomized to receive either filgrastim-mobilized peripheral blood progenitor cells or bone marrow cells from HLA-identical sibling donors after standard high-dose chemoradiotherapy. Neutrophil and platelet recovery occurred significantly faster after transplantation of peripheral blood progenitor cells than after bone marrow transplantation. Acute graft versus host disease of grades II-IV was significantly more frequent in recipients of peripheral blood progenitor cells than in recipients of marrow cells (52% vs 39%, odds ratio 1.74, 95% confidence interval 1.12-2.69, P =.013). The cumulative incidence of chronic graft versus host disease was 67% with peripheral blood progenitor cells and 54% with bone marrow cells (hazard ratio 1.67, 95% confidence interval 1.15-2.42, P =.0066). The estimated overall probability of survival at 2 years was 65% with either source of stem cells (hazard ratio 1.15, 95% confidence interval 0.79-1.67, P =.46). Disease-free survival, transplantation-related mortality at day 100, and relapse rates did not significantly differ between treatment arms. Peripheral blood is an equivalent source of hematopoietic stem cells compared with bone marrow if administered to patients with standard-risk leukemias. Long-term observation of patients with different diseases and stages of disease is necessary to ultimately define the role of both sources of stem cells.     

Semicontinuous flow centrifugation for the pheresis of immunocompetent cells and stem cells.

Mononuclear cells from human peripheral blood were purified by semicontinuous flow centrifugation (SCFC) using the Haemonetics model 30 blood cell separator; 64% +/- 7% of the mononuclear cells in 600 ml of peripheral blood were collected in a 30-ml volume. Analysis of sequential 5-ml aliquots of the mononuclear cell concentrate revealed that both immunocompetent cells and granulocytic progenitor cells (CFU-C) were proportional to the cell count throughout the buffy coat. In vitro pheresis of large volumes of human bone marrow resulted in recovery of 63% of the cells, 12% of the hemoglobin, and 84% of the CFU-C in 20% of the original volume. Further centrifugation eliminated 80% of the platelets without loss of cells or CFU-C. SCFC of peripheral blood or bone marrow selectively concentrated mononuclear cells and reduced the contamination by granulocytes and erythrocytes. Large numbers of mononuclear cells can thus be collected for studies in vitro or for cryopreservation and the autologous reconstitution of immunosuppressed or myelosuppressed patients undergoing intensive antitumor therapy.     

Result of attempted hematopoietic reconstitution using isologous, peripheral blood mononuclear cells: a case report

In order to test the effect of peripheral blood mononuclear cell infusions on hematopoietic recovery in man we intensively leukapheresed a normal identical twin and obtained 9.8 x 10(10) peripheral blood mononuclear cells containing 4 x 10(5) CFU-C. These isologous cells were infused into his identical twin brother who had received 150 rad of total body irradiation and intensive combination chemotherapy as adjuvant therapy for Ewing's sarcoma. When compared to other patients receiving similar treatment, leukocyte recovery was accelerated by 3-4 wk, and occurred at a rate comparable to that induced by infusion of autologous cryopreserved marrow. Recovery of granulocytes, monocytes and platelets was not accelerated. The low number of CFU-C present in the preparation used ((one-eighth the number of CFU-C we usually obtain from bone marrow autograft collections) may have led to the pattern of hematopoietic recovery we observed in this patient.     

Increased Levels of Myeloid Progenitor Cells in the Blood of Patients with Metastatic Invasion of the Marrow

Granulocyte-macrophage clusters and colony-forming cells (CFU-C) in the peripheral blood have been studied in 26 cancer patients with neoplastic bone marrow involvement. The concentration of CFU-C in the blood of normal individuals and of cancer patients with no bone marrow invasion, ranged from 0 to 99 ml. In contrast, out of 27 cancer patients with marrow invasion, 9 (35%) showed a significant increase of blood CFU-C (100 to 21000/ml) and of those 5 (19%) showed an increase of blood colonies (41 to 9000/ml). There was a strong correlation between increased CFU-C or colony concentration and the presence of myeloid or/and erythroid immature cells in the peripheral blood. On the other hand, there was no apparent correlation between an increased CFU-C level and anaemia or abnormal blood leucocyte count or marrow fibrosis. These observations suggest that bone marrow involvement by neoplastic cells may cause spatial redistribution of the grnulocyte macrophage progenitor cells.     

Peripheral blood stem cells collected in very early remission produce rapid and sustained autologous haemopoietic reconstitution in acute non-lymphoblastic leukaemia

Haemopoietic reconstitution was achieved in a patient with acute non-lymphoblastic leukaemia (ANLL) in relapse who was autografted with blood-derived stem cells collected during very early remission. The patient received a myeloid progenitor cell dose of 230 x 10(4) CFU-GM/kg body weight. Engraftment was evident in the bone marrow 7 days post-graft. Normal neutrophil and platelet counts were attained by day 14 and blood counts remained normal thereafter. An overshoot in peripheral blood haemopoietic progenitor levels occurred at the end of the second week, presumably the progeny of a family of early progenitor cells. The completeness of haemopoietic reconstitution is further illustrated by the satisfactory nucleated cell and myeloid progenitor cell yield when a bone marrow harvest was performed 4 1/2 months post-graft. Seven months post-graft, the patient remained in complete remission with normal blood counts and bone marrow cellularity, although haemopoietic progenitor levels were slightly reduced. The rapid recovery minimises aplasia-related risks and suggests that such autografting can be carried out safely in first remission. We propose that autografting using very early remission blood cells is a new therapeutic option for patients with acute ANLL.     

Blood Colony-Forming Cells (CFU-C) and Leucocyte Colony-Stimulating Activity (CSA) in Patients with Neutrophilic Leucocytosis

The incidence of circulating colony-forming cells (CFU-C) and the ability of peripheral leucocytes to stimulate the colony formation (CSA) have been studied through a double layer agar culture system in 26 patients with neutrophilic leucocytosis and compared to the values obtained in 26 normal subjects. Both mean CFU-C incidence and mean leucocyte CSA of the whole group of patients were found significantly higher than normal, but considerable variation was observed among singular patients. The different patterns of blood CFU-C and leucocyte CSA are discussed. The combined evaluation of blood CFU-C and leucocyte CSA is found a useful tool to investigate the pathogenetic mechanisms of neutrophilic leucocytosis.     

Stem Cell (CFU-C) Proliferation and Emergence in a Case of Chronic Granulocytic Leukaemia: The Role of the Spleen

Markedly increased numbers of CFU-C are characteristically found in the peripheral blood of patients with chronic granulocytic leukaemia (CGL). The likely sources of these circulating CFU-C are the spleen and/or bone marrow. Using the double layer agar technique we measured peripheral blood cloning efficiency serially, prior to and after splenectomy in a man with CGL. In addition we measured cloning efficiencies of splenic venous blood, spleen cell suspensions, and marrow cell suspensions on the day of surgery. In order to estimate the proliferative status of CFU-C, peripheral blood cells as well as spleen and marrow cell suspensions were exposed to cytosine arabino-side for 60 min prior to culture. Peripheral blood cloning efficiency (155 ± 8 colonies / 2 times 10⁵ cells) decreased markedly (10 ± 3) after splenectomy. Cloning efficiency of splenic venous blood (288 ± 34) was twice that of peripheral venous blood. The surviving fraction of splenic CFU-C after exposure to cytosine arabinoside was 16 % compared to survivals of 67 % and 66 % for marrow and peripheral blood CFU-C respectively. We conclude that the spleen was primarily responsible for the release of CFU-C into the peripheral blood and that the splenic microenvironment may have exerted a more marked stimulatory effect on the replicative activity of CFU-C than did the microenvironment of the marrow.     

A comparison of granulopoiesis in culture from blood and marrow cells of nonleukemic individuals and patients with acute leukemia.

The objective of this study was to compare the concentration of committed granulopoietic progenitor cells (CFU-C) in marrow and blood. For individuals without leukemia, a highly significant correlation was observed between the concentration of CFU-C obtained from the two sites. However, CFU-C in blood had a slower sedimentation velocity than that reported for marrow and were found not to be in the DNA synthetic phase of the cycle using the tritiated thymidine suicide tehcnique. In patients with acute leukemia, no correlation was observed between concentrations of CFU-C in marrow and peripheral blood, regardless of whether the patients were newly diagnosed, in remission, or in relapse. We concluded that studies of the peripheral blood do not yield the same information in respect to granulopoietic progenitor cells as do studies of the marrow.     

Production of colony-stimulating activity by circulating leukocytes from patients with chronic myeloid leukemia at various phases of the disease

The production of colony-stimulating activity (CSA) by peripheral blood leukocytes (PBL) from 107 patients with chronic myeloid leukemia (CML), 58 at diagnosis, 34 during hematological remission, 33 in relapse from hematological control, 39 in accelerated phase, and 28 in blast phase, was measured in the double-layer agar culture system using normal nonadherent bone marrow cells as the source of CFU-GM. The median CSA levels in various stages decreased to 28-60% of control, whereas in hematological remission, there was a normalization of CSA. Five fractionation experiments using monocytes as feeder layers did not show CSA production in untreated CML. The leukemic PBL of 6 patients in blast crisis had no apparently inhibitory effect on colony formation stimulated by normal PBL. There was no correlation between the CSA of PBL and the number of CFU-GM in their bone marrow or peripheral blood at different disease states. Likewise, we failed to find a relationship between the PBL CSA levels and the total WBC counts or the differential counts in the peripheral blood as well as in the feeder layers. Our study indicated that circulating leukocytes from patients with CML at various phases except in hematological remission produce less CSA, which is not attributed to a low number of monocytes or the inhibitory effects of leukemic cells.     

Blood colony-forming cells (CFU-C) and leucocyte colony-stimulating activity (CSA) in patients with neutrophilic leucocytosis.

The incidence of circulating colony-forming cells (CFU-C) and the ability of peripheral leucocytes to stimulate the colony formation (CSA) have been studied through a double layer agar culture system in 26 patients with neutrophilic leucocytosis and compared to the values obtained in 26 normal subjects. Both mean CFU-C incidence and mean leucocyte CSA of the whole group of patients were found significantly higher than normal, but considerable variation was observed among singular patients. The different patterns of blood CFU-C and leucocyte CSA are discussed. The combined evaluation of blood CFU-C and leucocyte CSA is found a useful tool to investigate the pathogenetic mechanisms of neutrophilic leucocytosis.     

CFU-mix are no better than CFU-GM in predicting hemopoietic reconstitutive capacity of peripheral blood stem cells collected in the very early remission phase of acute nonlymphoblastic leukemia

High levels of circulating myeloid progenitor cells (CFU-GM) occur during the very early remission phase of acute nonlymphoblastic leukemia (ANLL). Autologous stem cell rescue using blood cells collected during this phase has shown that successful hemopoietic reconstitution can be achieved, but a higher CFU-GM dose appears to be required than when bone marrow cells are used. This suggests that during very early remission, the level of marrow repopulating pluripotent stem cells (PSC) in blood does not undergo the same amount of increase as does the CFU-GM. This study set out to determine whether the levels of the multilineage progenitor cell (CFU-Mix) would be better indicators of the PSC in these cells than the CFU-GM. Serial peripheral blood CFU-Mix and CFU-GM measurements were carried out in six ANLL patients during very early remission. The levels of peripheral blood CFU-Mix showed a mean 12-fold increase, as compared to a mean 20-fold increase in the CFU-GM. The timing of the increase in the CFU-Mix paralleled that of the CFU-GM. These findings suggest that the CFU-Mix is no better than the CFU-GM in predicting PSC levels during very early remission of ANLL, and is closer to the CFU-GM than to the PSC in ontogeny.