Inhibitory effect of granulocyte-macrophage colony-stimulating factor therapy on the generation of natural killer cells.

We investigated the effects of recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) and recombinant human granulocyte colony-stimulating factor (rhG-CSF) therapy on the natural killer (NK) cell lineage in patients with aplastic anemia and myelodysplastic syndrome. Selected bone marrow (BM) cells were prepared by the elimination of nylon wool-adherent cells and mature T and NK cells from BM cells. The frequency of BM NK progenitors relative to BM cells selected was significantly decreased 4 weeks after the start of rhGM-CSF therapy (P less than .01), while the peripheral blood NK cell count and NK activity were also significantly decreased (P less than .05). A return to the pretreatment levels was seen 4 weeks after the cessation of treatment in all cases. No suppressive effect was noted in the patients who received rhG-CSF therapy. These results suggest that rhGM-CSF therapy suppresses the generation of NK cells from human BM NK progenitors.     

Activation signals leading to proliferation of normal and leukemic CD3+ large granular lymphocytes.

The activation signals leading to proliferation of normal and leukemic CD3+ large granular lymphocytes (LGL) were studied in vitro. Anti-CD3 monoclonal antibody (MoAb) alone (P less than .01) and recombinant interleukin-2 (IL-2) alone (P less than .01) caused significant stimulation of peripheral blood mononuclear cells (PBMC) from four CD3+ LGL leukemia patients, as measured in a 3H-thymidine incorporation assay. Recombinant interleukin-4 (IL-4) alone had no effect (P = .11). The combination signals of anti-CD3 MoAb and either IL-2 or IL-4 produced a proliferative response greater than anti-CD3 MoAb alone (P less than .01) or lymphokine alone (P less than .01). Leukemic LGL, purified by two-color sorting, were subsequently activated by anti-CD3 MoAb and IL-2 and assessed for DNA content by viable Hoechst No. 33342 (HO) staining. Results of these studies demonstrated that leukemic LGL were stimulated directly by anti-CD3 MoAb and IL-2, with the percentage of cells in cell cycle (S + G2/M) ranging from 16% to 72%. Normal CD3+ LGL were also stimulated to enter the cell cycle by anti-CD3 and IL-2. These results show that leukemic LGL proliferate in vitro after activation through the T-cell receptor and/or lymphokine.     

Antagonistic effects of interleukin 6 and G-CSF in the later stage of human granulopoiesis in vitro.

The effect of recombinant human interleukin 6 (rhIL-6) on the in vitro growth of human bone marrow myeloid progenitors (granulocyte-macrophage colony-forming units, CFU-GM) was investigated. Recombinant human IL-6 by itself did not induce colony formation. When rhIL-6 at various concentrations was added to the CFU-GM colony cultures containing recombinant human granulocyte colony-stimulating factor (rhG-CSF) or recombinant human granulocyte-monocyte/macrophage colony-stimulating factor (rhGM-CSF), rhIL-6 significantly suppressed the colony formation induced by rhG-CSF, but not by rhGM-CSF. This suppressive effect of rhIL-6 on rhG-CSF-induced, but not rhGM-CSF-induced colony formation was confirmed by using an MY10(+)-cell-enriched population. Neither interleukin 3 nor interleukin 1 alpha suppressed the growth of myeloid progenitors. The preincubation of bone marrow cells with rhIL-6 for a short time (30 min) resulted in a reduction of colonies induced by rhG-CSF, but not by rhGM-CSF. The suppressive effect of rhIL-6 on rhG-CSF-induced colony formation was not observed when the cells were preincubated together with rhG-CSF at a high ratio of rhG-CSF to rhIL-6. The rhIL-6-mediated suppressive effect was further confirmed by blocking the effect by the anti-IL-6 antibody. These results suggest antagonistic interaction between IL-6 and G-CSF in the later differentiation of myeloid progenitors.     

Recombinant human stem cell factor synergises with GM-CSF, G-CSF, IL-3 and epo to stimulate human progenitor cells of the myeloid and erythroid lineages.

The cDNA for human stem cell factor (hSCF) has been cloned and expressed in mammalian and bacterial hosts and recombinant protein purified. We have examined the stimulatory effect of recombinant human SCF (rhSCF) on human bone marrow cells alone and in combination with recombinant human colony stimulating factors (CSFs) and erythropoietin (rhEpo). RhSCF alone resulted in no significant colony formation, however, in the presence of rhGM-CSF, rhG-CSF or rhIL-3, rhSCF stimulated a synergistic increase in colony numbers. In addition, increased colony size was stimulated by all combinations. The morphology of cells in the colonies obtained with the CSFs plus rhSCF was identical to the morphology obtained with rhGM-CSF, rhG-CSF or rhIL-3 alone. RhEpo also synergised with rhSCF to stimulate the formation of large compact hemoglobinized colonies which stained positive for spectrin and transferrin receptor and had a morphological appearance consistent with normoblasts. RhSCF stimulation of low density non-adherent, antibody depleted, CD34+ cells suggests that rhSCF directly stimulates progenitor cells capable of myeloid and erythroid differentiation.     

Lack of effect of granulocyte-macrophage and granulocyte colony-stimulating factors on cultured human endothelial cells.

The hematopoietic growth factors, granulocyte-macrophage colony-stimulating factor (GM-CSF) and granulocyte colony-stimulating factor (G-CSF), enhance the effector functions of mature myeloid cells, including the interaction with vascular endothelium. We examined the direct effect of recombinant human GM-CSF (rhGM-CSF) and recombinant human G-CSF (rhG-CSF) on the growth and function of cultured human umbilical vein endothelial cells (HUVEC). Endothelial cell growth supplement (ECGS) increased the proliferation of passaged and primary cells by 305% +/- 45% (mean +/- SEM, n = 5, P less than .01) over control cells at 4 days; GM-CSF and G-CSF had no effect. Endothelial cell procoagulant activity was increased after 4-hour incubation with recombinant interleukin-1 beta (IL-1 beta) 10 U/mL and recombinant tumor necrosis factor (TNF) 10 U/mL to 1,721% +/- 376% (n = 7, P less than .005) and 247% +/- 71% (n = 4) of control levels, respectively. gamma-Interferon (gamma-IFN) 50 U/mL had no direct effect of its own but was able to prime the response to IL-1 beta. There was no direct or priming effect of GM-CSF (1 ng to 1 microgram/mL) on the expression of procoagulant activity in endothelial cells. GM-CSF and G-CSF (1 ng/mL to 1 microgram/mL) had no effect on the expression of either tissue plasminogen activator (tPA) or plasminogen activator inhibitor-1 (PAI-1) by endothelial cells. The secretion of tPA by endothelial cells was increased, however, after 24-hour incubation with thrombin 4 U/mL (314% +/- 72% of control levels, n = 5, P less than .025). The production of PAI-1 was increased by TNF 200 U/mL (241% +/- 44% of control, n = 3, P less than .005), thrombin 4 U/mL (180% +/- 12% of control, n = 5, P less than .0005) and IL-1 beta 10 U/mL (275% +/- 44% of controls, n = 5, P less than .0005). In four experiments, endothelial cells showed no specific binding of 125I-GM-CSF, whereas peripheral blood (PB) neutrophils demonstrated the presence of 802 +/- 78 high-affinity receptors for GM-CSF. Thus, we found no effect of rhGM-CSF or rhG-CSF on the proliferation activities by these cells. These findings are in accordance with the lack of demonstrable receptors for GM-CSF on cultured HUVEC.     

Sensitivity of myeloid progenitors to NK-cell depletion

To gain additional informations on the role played by Natural Killer cells (NK) in the differentiation of human hematopoietic precursors, we have studied the effect of NK-cell depletion on the in vitro proliferation of hematopoietic cells. NK cells were depleted from blood mononuclear cells by FACS using anti CD3 and anti CD56 monoclonal antibodies. Depletion of NK cells suppressed CFU-GM up to 69% (P < 0,01), while no significant effect on either BFU-E and CFU-Mix growth was observed. To define the threshold of CD56+ cells required to support CFU-GM formation, NK cells were added to NK-depleted cells in a titrated fashion. Enhancement of CFU-GM colony growth was observed at NK/NK - depleted cells ratio of 0.15/1. A dose dependent suppression of CFU growth was observed at ratios ranging from 0.25/1 to 0.5/1. Addition of neutralizing antibodies against IL3 and GM-CSF abrogate the stimulating effect of NK cells. Our results suggest that cells with LGL morphology and NK markers play an important role in differentiation of myeloid precursors and exert a moderate influence on erythroid progenitors. The modulatory effect on hematopietic progenitors depend on the number of NK cells present in the mixed culture. © 1994 Wiley-Liss, Inc.     

Induction of NK activity in large granular lymphocyte leukemia: activation with anti-CD3 monoclonal antibody and interleukin 2

Large granular lymphocyte (LGL) leukemia is a rare disease characterized by clonal expansion of LGL associated with chronic neutropenia, multiple auto-antibodies, and occasionally polyarthritis. We studied cell surface antigen expression and functional activity of leukemic LGL from ten such patients. Using two-color flow cytometric analysis, we found that leukemic LGL from all ten patients expressed the CD3 and HNK-1 markers, while cells from only four patients expressed IgG Fc receptors (FcR). The LGL leukemic cells had little or no NK activity (defined as MHC-nonrestricted cytotoxicity against K562 target cells); however, NK activity could be induced in leukemic LGL by in vitro treatment with as little as 0.05 microgram/mL of anti-CD3 monoclonal antibody. Cell sorting experiments demonstrated that NK activity was induced in CD3+ leukemic LGL (either CD3+, HNK-1+ or CD3+, FcR+) with anti-CD3 monoclonal antibody but not in normal CD3+, FcR- T cells. Treatment with purified interleukin 2 (IL 2) also caused direct activation of some CD3+ leukemic LGL. Despite induction with anti-CD3 MAb or IL 2, activated leukemic LGL did not proliferate or express high density IL 2 receptors detectable by cell sorter analysis. Treatment with alpha interferon had minimal effect on NK activity of LGL leukemic cells. These results suggest that leukemic LGL may provide a useful model for examining the signals required for LGL maturation and activation.     

Effect of recombinant human granulocyte-macrophage colony-stimulating factor administration on the lymphocyte subsets of patients with refractory aplastic anemia

Human recombinant granulocyte-macrophage colony-stimulating factor (rhGM-CSF) was administered to 14 patients with refractory aplastic anemia (AA). The effect of rhGM-CSF therapy on the lymphocyte phenotype; on the proliferative responses to the mitogen phytohemagglutinin, Candida albicans, and tetanus toxoid antigens; and on the natural killer (NK) activity of the circulating lymphocytes was studied. Samples were collected before (baseline) and twice during the rhGM-CSF administration. The absolute number of circulating lymphocytes remained relatively constant during the first period, but experienced a significant increase (P less than .001) during the second period. The increase was most prominent in the B cells (P less than .001), but the T cells (P less than .016) also increased. Detailed investigation of lymphocyte subsets showed an increase of the markers CD38 (Leu17), HLA-DR, and the transferrin receptor throughout the treatment course giving evidence of lymphoid cell activation. The NK cell activity was suppressed (P less than .008) throughout the treatment. However, proliferative responses to phytohemagglutinin, Candida antigen, and tetanus toxoid were unaffected. Although the mechanism is not yet defined, GM-CSF does induce activation and increase in absolute lymphoid cell number, especially B cells, together with a decrease in NK cytotoxicity. The implication of these immune cell changes in relation to host resistance to microorganisms remains to be established.     

Characterization of natural killer cells cultured from human bone marrow cells

Human bone marrow (BM) cells, depleted of nylon wool-adherent cells, T cells, and natural killer (NK) cells, were cultured in medium containing recombinant interleukin 2 (rIL2). After 21 or 24 days in culture, numerous lymphoid cells with multiple azurophilic granules and a morphology similar to large granular lymphocytes (LGL) were found. Two-color analysis of surface phenotype showed many of these cells to be NKH1-positive and a limited number of cells had other NK markers such as CD16, CD2, or CD8. The CD3 antigen was not coexpressed with NKH1. The cultured BM cells were cytotoxic for K562, Daudi, and Raji cell lines. The NKH1+, CD2-, CD3-, CD16- cells were sorted and, in addition to having the LGL morphology, were found to be cytotoxic for K562 cells (NK [K562]). The generation of NK(K562) activity was significantly suppressed by 5-bromodeoxyuridine plus ultraviolet light treatment, indicating that DNA synthesis is required. These experiments suggest that the described culture conditions allow differentiation of progenitor cells, into immature, but functionally active, NK cells.     

Use of recombinant human growth hormone (rhGH) plus recombinant human granulocyte colony-stimulating factor (rhG-CSF) for the mobilization and collection of CD34+ cells in poor mobilizers

The activity of recombinant human growth hormone (rhGH) in enhancing CD34(+) cell mobilization elicited by chemotherapy plus recombinant human granulocyte colony-stimulating factor (rhG-CSF) was evaluated in 16 hard-to-mobilize patients, that is, those achieving a peak of circulating CD34+ cells 10/microL or less, or a collection of CD34(+) cells equal to or less than 2 x 10(6)/kg. Patients who had failed a first mobilization attempt with chemotherapy plus rhG-CSF (5 microg/kg/d) were remobilized with chemotherapy plus rhG-CSF and rhGH (100 microg/kg/d). As compared with rhG-CSF, the combined rhGH/rhG-CSF treatment induced significantly higher (P < or =.05) median peak values for CD34(+) cells/microL (7 versus 29), colony-forming cells (CFCs)/mL (2154 versus 28,510), and long-term culture-initiating cells (LTC-ICs)/mL (25 versus 511). Following rhG-CSF and rhGH/rhG-CSF, the median yields of CD34(+) cells per leukapheresis were 1.1 x 10(6)/kg and 2.3 x 10(6)/kg (P < or =.008), respectively; the median total collections of CD34(+) cells were 1.1 x 10(6)/kg and 6 x 10(6)/kg (P < or =.008), respectively. No specific side effect could be ascribed to rhGH, except a transient hyperglycemia occurring in 2 patients. Reinfusion of rhGH/rhG-CSF-mobilized cells following myeloablative therapy resulted in prompt hematopoietic recovery. In conclusion, our data demonstrate that in poor mobilizers addition of rhGH to rhG-CSF allows the patients to efficiently mobilize and collect CD34(+) cells with maintained functional properties.     

Analysis of lymphocyte phenotype and T cell receptor genotype in Felty's syndrome.

Natural killer (NK) cells and CD3+ large granular lymphocytes (LGL) were investigated in patients with Felty's syndrome (FS), rheumatoid arthritis (RA) and healthy controls. In most patients with FS, NK cell number and activity were decreased. CD3+ LGL were unchanged. However, in one patient a marked expansion of CD3- CD16+ CD56+ (NK) cells was seen and in a second, an expansion of CD3+ LGL. In FS there was also an increase in HLA- DR+ and CD8+ but not gamma delta+ T cells. Three of 11 patients with FS studied demonstrated a dominant rearrangement of the T cell receptor beta gene constant region consistent with oligoclonal T cell expansion.     

Impaired activity of natural killer cells in patients with acute brucellosis.

Researchers have claimed that natural killer (NK) cells are involved in the mechanisms of defense of the host against infections. We have investigated the activity of NK cells in peripheral blood mononuclear cells (PBMNC) from 12 patients for whom acute brucellar infection has been diagnosed and from 14 healthy controls. The sera of eight of the patients were also analyzed 3 months after initiation of a 45-day course of antibiotic treatment, at which time they had no evidence of relapse. PBMNC from patients with acute brucellar infection showed a significantly depressed NK cell activity (P < .01) when compared with those from healthy controls; this depressed activity was not related to a deficient number of NK cells since the numbers of CD56+ and CD16+ cells present in PBMNC were similar in patients and controls. Incubation of PBMNC from patients with acute brucellar infection with recombinant interleukin-2, but not with interferon-gamma, can correct this impaired cytotoxic activity. In treated patients, there was a significant enhancement (P < .05) and normalization of the previously defective NK cell activity. It is concluded that acute brucellar infection is associated with a deficient cytotoxic activity of NK cells that can be overcome by in vitro incubation with interleukin-2 and that reverts to normal after antibiotic treatment.     

Analysis of stem cell apheresis products using intermediate-dose filgrastim plus large volume apheresis for allogeneic transplantation

Previously, a dose-dependent influence of recombinant human granulocyte colony-stimulating factor (rhG-CSF) on CD34+ mobilization was demonstrated. In this single-center prospective analysis, 52 healthy donors were investigated to determine the efficacy of intermediate-dose rhG-CSF 2x8 microg/kg donor body weight (bw) and intermediate large volume apheresis (LVA, median 12 l) to mobilize peripheral blood progenitor cells (PBPC) for allogeneic transplantation. The median number of CD34+ cells in apheresis products was 0.45% and 2.2x10(6)/kg recipient bw per single apheresis. A total of 5.4x10(6)/kg CD34+ cells were collected with two (range: one to three) LVA. In the analysis of donor subgroups, higher peripheral blood (PB) and apheresis results were obtained in male vs female donors; however, donor weight significantly differed in both groups. Heavier donors displayed higher PB and apheresis CD34+ counts; however, when CD34+ cells/kg were adjusted to a constant bw, similar harvest results were calculated in males and females, demonstrating that gender per se does not, whereas bw does affect apheresis results. Younger donors had significantly higher PB CD34+ counts, higher CD34+ numbers per single apheresis, increased CFU, more T, B, and CD61+, comparable NK, and less CD14+ cells. A correlation analysis of donor age and apheresis results displayed an age-related decline of 0.46x10(6)/kg CD34 cells per decade of donor aging. Cell subsets in apheresis products were CD14 (49%), CD3 (22%), CD4 (13%), CD8 (7%), CD61 (20%), CD19 (5%), and CD16/56+ (3%) cells, with increasing CD14+ cells and decreasing CD3, CD4, CD8, CD61, CD19, and CD16/56+ cells on subsequent days of apheresis. Compared to our previous analysis using high- (2x12 microg) and low-dose (1x10 microg) rhG-CSF for allogeneic PBPC mobilization, the intermediate-dose showed a similar CD34+ mobilization potential to 1x10 microg rhG-CSF; however, with use of LVA, two instead of three (p<0.05) aphereses were sufficient to mobilize > or =4x10(6)/kg bw CD34+ cells in most donors. Taken together, our results demonstrate that intermediate-dose rhG-CSF sufficiently mobilizes > or =4x10(6)/kg x bw CD34+ cells with use of LVA and that especially younger donors display increased CD34+ cell numbers.     

Immune recovery after autologous or rhG-CSF primed PBSC transplantation

Abstract: We performed a prospective study in 17 consecutive patients following autologous bone marrow (BM) or rhG-CSF primed peripheral blood stem cell (PBSC) transplantation, with the objective of comparing immune recovery between both procedures and to evaluate results in rhG-CSF mobilized peripheral blood stem cell transplantation (PBSCT). Kinetics of immune reconstitution showed differences, with a faster recovery of CD3+ and CD8+ T cells, and a more rapid and sustained recovery of CD8^±/CD56+ natural killer (NK) cells in the PBCSCT group. Autologous bone marrow transplantation (ABMT) was associated with a improved reconstitution of the CD19+/CD5^± subpopulation. Moreover, rhG-CSF mobilized PBSCT generated a greater recovery of CD8^±/CD56+ cells than previous data concerning transplantation with peripheral blood (PB) progenitors collected after myelosuppressive chemotherapy or myelosuppressive therapy plus rhG-CSF. Our results show differences in the rate and pattern of B and T lymphocytes reconstitution after ABMT and PBSCT. Additionally, we state an enhancement of CD56+ cells in patients undergoing PBSCT mobilized solely using rhG-CSF.     

Successful treatment of T-gamma lymphoproliferative disease with human-recombinant granulocyte colony stimulating factor.

A trial of recombinant human granulocyte colony-stimulating factor (rhG-CSF) was attempted in a male with agranulocytosis, infection, and T-gamma lymphoproliferative disease (T-gamma-LPD). During five days of rhG-CSF (960 micrograms/day), the absolute neutrophil count (ANC) increased from 0.0 to 4.5 K/microliters. There were no changes in eosinophil or lymphocyte counts. In addition, there was no toxicity. Bone marrow cytotoxic/suppressor cells (CD57+/CD8+) were elevated (21.9%) before and decreased to 10.6% (normal less than 12%) following rhG-CSF. By contrast, there was no change in activated T cells (CD3+DR+) or T cell gene rearrangements. These findings suggest rhG-CSF can improve granulopoiesis in T-gamma-LPD, possibly by altering T-cell mediated marrow suppression.     

Selective generation of erythroid burst-promoting activity by recombinant interleukin 2-stimulated human T lymphocytes and natural killer cells

Because T lymphocytes and natural killer (NK) cells produce a variety of growth factors and interleukin 2 (IL2) modulates the activity of both, we assessed the ability of IL2 to stimulate human T cells and NK cells to produce hematopoietic growth factors detectable in clonogenic marrow culture. Human recombinant interleukin 2 (rIL2) added directly to cultures of human bone marrow that had been depleted of monocytes or depleted of both monocytes and T cells caused no significant alteration of myeloid (CFU-GM) or erythroid colony formation. Conditioned media harvested from rIL2-stimulated (greater than 100 U/mL) peripheral blood mononuclear cells, T cells, Leu-2 cells, and Leu-3 cells all had erythroid burst-promoting activity (BPA) but lacked myeloid colony- stimulating factor (GM-CSF) or CFU-GM-inhibitory activity. These T cells were IL2 receptor-negative, and the addition of anti-IL2 receptor monoclonal antibody (anti-Tac) to T cell cultures did not abrogate this IL2-stimulated BPA production. In addition, Percoll gradient-enriched, large granular lymphocytes (LGL) were separated by fluorescence- activated cell sorting into Leu-11+ (NK) cells and Leu-11- (low-density Leu-4+ T) cell fractions. rIL2 stimulated LGL, Leu-11+ and Leu-11- cells to produce BPA but not detectable GM-CSF or CFU-GM-inhibitory activity. Leu-11+ (NK) cells were Tac-negative from days 0 through 14 of culture. We conclude that rIL2 at high concentrations stimulated T cells, Leu-2 and Leu-3 cell subsets, LGL, and NK cells to produce BPA but not GM-CSF and that this stimulation may be mediated by an IL2 receptor distinct from Tac or by an epitope of the IL2 receptor not recognized by the anti-Tac antibody.     

Monocyte-mediated killing of human leukaemia is enhanced by administration of granulocyte-macrophage colony stimulating factor following chemotherapy

We studied the capacity of recombinant human granulocyte-macrophage colony stimulating factor (rhGM-CSF) to modulate monocyte anti-leukaemic activity when administered to patients following myelosuppressive chemotherapy. The leukaemic cell lines K562, U937 and KG-1 were used as models of human leukaemia as they exhibit differential sensitivity to cell-mediated or TNF-mediated cytotoxicity. Monocyte tumouricidal activity was augmented by rhGM-CSF or lipopolysaccharide (LPS) alone in vitro against leukaemic blasts, whereas granulocyte-colony stimulating factor (rhG-CSF) was without effect. rhGM-CSF and LPS exhibited an additive effect in stimulating the cytotoxic effect of monocytes against K562 blasts compared with either agent alone ( P  < 0.001). Both cell-mediated and soluble TNF-mediated killing of leukaemic blasts was augmented by rhGM-CSF administration to patients following chemotherapy. This effect persisted for up to 4 weeks after cessation of GM-CSF therapy. The administration of rhGM-CSF significantly increased the anti-leukaemic activity of monocytes against leukaemic targets that were resistant to secreted TNF, probably via a transmembrane TNF-dependent mechanism. Therapy with rhG-CSF exhibited a minimal effect. We conclude that administration of rhGM-CSF, but not rhG-CSF, augments the tumouricidal properties of the monocyte-macrophage system, particularly during recovery from myelosuppressive chemotherapy. Moreover, the killing mechanism is direct and not mediated by an antibody-dependent cellular cytotoxic (ADCC) mechanism. Killing of TNF-resistant leukaemic cells in particular may be augmented via cell-to-cell contact.     

Deficient natural killer (NK) cells in paroxysmal nocturnal haemoglobinuria (PNH): studies of lymphoid cells fractionated by discontinuous density gradient centrifugation

Non-adherent, non-B lymphoid cells from six patients with PNH and six healthy subjects were fractionated by Percoll discontinuous density gradient centrifugation (DDGC). The cell distribution pattern, NK cell activity (NKA), large granular lymphocytes (LGL) count and surface marker phenotypes were studied. The distribution patterns of patients' cells did not significantly differ from the controls. The peak of the NKA was found in low density fractions where the maximum counts of LGL, Leu-7+2- cells and Leu-11+ cells were present. The NKA and the proportion of Leu-7+2- cells and Leu-11+ cells were significantly lower in patients with PNH (P less than 0.001 for NKA and surface phenotypes; P less than 0.02 for LGL counts). NKA in the Percoll fractions was correlated with the counts of LGL (r=0.69, P less than 0.001), Leu-7+2- cells (r = 0.75, P less than 0.001) and Leu-11+ cells (r = 0.89, P less than 0.001). Therefore, we concluded that NKA is deficient in PNH because of decreased NK cell counts.     

Hematologic and immunologic effects of the systemic administration of recombinant interleukin-2 after autologous bone marrow transplantation

T cells from allogeneic bone marrow grafts are responsible for a graft versus leukemia effect. Use of recombinant Interleukin-2 (rIL-2) after autologous bone marrow transplantation (BMT) may enhance immune function and hopefully reproduce the allogeneic reaction. We report here the hematologic and immunologic changes observed in the first 10 patients of a phase 1 trial studying the infusion of IL-2 after autologous BMT. All patients had high-risk malignancies and received 6 days of a constant infusion of IL-2 (Eurocetus, Amsterdam, The Netherlands) at dose of 3 x 10(6) Cetus Units/m2/d, 79 +/- 12 days after autologous BMT. Clinical toxicities involving cutaneous, cholestatic, gastrointestinal, and hemodynamic effects occurred during IL-2 treatment but reversed in all cases. Completion of treatment was 91% of the scheduled dose of IL-2. Hematologic toxicity was moderate and transient with no graft failure. Increases in eosinophil and lymphocyte counts were significant (P less than .05). Stimulation of the immune system was intense and prolonged, manifested by increase numbers of CD3+, CD3+DR+, CD3+ CD25+ lymphocytes, and natural killer (NK) cells (all P less than .01), and increase of Lymphokine-activated killers (LAK) and NK activities (P less than .01 and P less than .05). This study establishes the feasibility of a 6-day administration of rIL-2 after autologous BMT leading to a major immune activation 2.5 months after BMT.     

Recombinant human interleukin-3 and recombinant human granulocyte-macrophage colony-stimulating factor administered in vivo after high-dose cyclophosphamide cancer chemotherapy: effect on hematopoiesis and microenvironment in human bone marrow.

The effects on bone marrow (BM) cell proliferation and differentiation of recombinant human interleukin-3 (rhIL-3) and recombinant human granulocyte-macrophage colony-stimulating factor (rhGM-CSF) administered after high-dose (7 g/m2/d) cyclophosphamide (HD-CTX) chemotherapy were studied in nine patients with malignancies without BM involvement and in three control patients. rhIL-3 at a dose of 1 to 5 micrograms/kg/day was administered for 14 to 18 days by continuous intravenous (i.v.) infusion and rhGM-CSF was administered at a dose of 5.5 micrograms/kg/day for 14 days. Changes induced by cytokine treatment were assessed by morphoimmunohistochemical analysis of BM biopsies. Comparison was made in the cytokine-treated groups and with control patients who received HD-CTX alone. BM cellularity and the myeloid/erythroid (ME) ratio were lower in rhIL-3-treated than in rhGM-CSF-treated patients, but in both groups it was significantly higher than in the controls. The proportion of BM cells stained by PC10, a monoclonal antibody (MoAb) recognizing a proliferation-associated nuclear protein (PCNA), increased from 6.78% to 21.18% (P less than .02) after rhIL-3, and from 5% to 35.33% (P less than .001) after rhGM-CSF; no increase was observed in the control group. The frequency of CD34+ BM cells was unchanged after rhIL-3 (P = NS) and decreased after rhGM-CSF (P less than .001). In both groups, most of the PC10+ cells were represented by promyelocytes and myelocytes with no increase in blast cell numbers. rhIL-3-treated BM showed an increased number of megakaryocytes and increased proliferative activity of erythroid cells as compared with rhGM-CSF cases. BM stroma changes observed in both treated groups included endothelial cell proliferation, increased BM macrophage concentration, and increase in BM fibroblasts as detected with an anti-nerve growth factor receptor antibody. In most rhIL-3-treated cases, BM fibrosis developed after treatment. The same effect was not observed in rhGM-CSF patients.