Standardization of flow cytometry in myelodysplastic syndromes: a report from an international consortium and the European LeukemiaNet Working Group.

Flow cytometry (FC) is increasingly recognized as an important tool in the diagnosis and prognosis of myelodysplastic syndromes (MDS). However, validation of current assays and agreement upon the techniques are prerequisites for its widespread acceptance and application in clinical practice. Therefore, a working group was initiated (Amsterdam, 2008) to discuss and propose standards for FC in MDS. In 2009 and 2010, representatives from 23, mainly European, institutes participated in the second and third European LeukemiaNet (ELN) MDS workshops. In the present report, minimal requirements to analyze dysplasia are refined. The proposed core markers should enable a categorization of FC results in cytopenic patients as 'normal', 'suggestive of', or 'diagnostic of' MDS. An FC report should include a description of validated FC abnormalities such as aberrant marker expression on myeloid progenitors and, furthermore, dysgranulopoiesis and/or dysmonocytopoiesis, if at least two abnormalities are evidenced. The working group is dedicated to initiate further studies to establish robust diagnostic and prognostic FC panels in MDS. An ultimate goal is to refine and improve diagnosis and prognostic scoring systems. Finally, the working group stresses that FC should be part of an integrated diagnosis rather than a separate technique.

Proteoglycans on bone marrow endothelial cells bind and present SDF-1 towards hematopoietic progenitor cells.

Recognition events between hematopoietic progenitor cells (HPC) and bone marrow endothelial cells (BMEC) initiate homing of HPC to the bone marrow. The chemokine SDF-1 is present on BMEC and plays a crucial role in bone marrow engraftment. We studied the role of proteoglycans (PGs) on BMEC in binding and presentation of SDF-1. SDF-1 mRNA was present in three human BMEC cell lines. Competition experiments showed that 125I-SDF-1 alpha binding to the BMEC cell line 4LHBMEC was inhibited by heparins, heparan sulfate (HS) intestinal mucosa, chondroitin and dermatan sulfate (CS/DS), but not by HS bovine kidney. Pretreatment of 4LHBMEC with glycosaminoglycan (GAG)-degrading enzymes or sodium chlorate demonstrated that SDF-1 bound to both HSPGs and CS/DSPGs in a sulfation-dependent manner, as determined with an SDF-1 antibody recognizing the CXCR4-binding site. 4LHBMEC bound four-fold more SDF-1 than HUVEC. Isolated endothelial PGs did not bind SDF-1 in a filter or microplate-binding assay, suggesting the necessity of membrane association. In flow adhesion experiments, endothelial arrest of CXCR4+ KG-1 and not of CXCR4- KG-1a cells increased significantly when SDF-1 was presented on 4LHBMEC. In conclusion, SDF-1 is produced by BMEC and binds to the BMEC cell surface via HS and CS/DS-GAGs, thereby presenting its CXCR4 binding site to HPC contributing to their arrest.

Effects of hormone replacement therapy on blood platelets.

BACKGROUND: Hormone replacement therapy (HRT) increases the risk of cardiovascular morbidity in postmenopausal women under certain circumstances. Part of this effect may be the result of the influence of HRT on blood platelets. We studied the effect of short-term oral hormone replacement therapy (unopposed oestradiol or sequentially combined oestradiol and trimegestone or dydrogesterone) on platelet activation parameters in healthy postmenopausal women. DESIGN: We designed a prospective, randomised, placebo-controlled 12-week study. Sixty healthy, normotensive, nonhysterectomised, postmenopausal women received daily micronised oestradiol (E2) 2 mg (n = 16), or 2 mg E2 daily sequentially combined with either trimegestone 0.5 mg daily (n = 14) or dydrogesterone 10 mg daily (n = 14), or placebo (n = 16). Data on platelet activation were collected at baseline and after 12 weeks of treatment using flow cytometry. RESULTS: Twelve weeks of treatment with combined HRT was associated with an increase in platelet activation parameters P-selectin and glycoprotein 53 (by 17% and 14%, respectively, P = 0.04 vs. the placebo group for both comparisons), suggesting alpha granule and lysosome degranulation. E2 replacement therapy was associated with an increase in P-selectin labelling by 22% (P = 0.04 vs. the placebo group). CONCLUSION: Short-term treatment with oestradiol or combined HRT increases the amount of circulating activated platelets as measured by flow cytometry. This could be a mechanism by which short-term HRT might increase the risk of thrombosis.

Extensive early apoptosis in frozen-thawed CD34-positive stem cells decreases threshold doses for haematological recovery after autologous peripheral blood progenitor cell transplantation.

Stem cell doses necessary for engraftment after myelo-ablative therapy as defined for fresh transplants vary largely. Loss of CD34+ cell quality after cryopreservation might contribute to this variation. With a new early apoptosis assay including the vital stain Syto16, together with the permeability marker 7-AAD, CD34+ cell viability in leucapheresis samples of 49 lymphoma patients receiving a BEAM regimen was analysed. After freeze-thawing large numbers of non-viable, early apoptotic cells appeared, leading to only 42% viability compared to 72% using 7-AAD only. Based on this Syto16 staining in the frozen-thawed grafts, threshold numbers for adequate haematological recovery of 2.8-3.0 x 10(6) CD34+ cells/kg body weight determined for fresh grafts, now decreased to 1.2-1.3 x 10(6) CD34+ cells/kg. In whole blood transplantation of lymphoma patients (n = 45) receiving a BEAM-like regimen, low doses of CD34+ cells were sufficient for recovery (0.3-0.4 x 10(6)CD34+ cells/kg). In contrast to freeze-thawing of leucapheresis material, a high viability of CD34+ cells was preserved during storage for 3 days at 4 degrees C, leaving threshold doses for recovery unchanged. In conclusion, the Syto16 assay reveals the presence of many more non-functional stem cells in frozen-thawed transplants than presumed thus far. This led to a factor 2.3-fold adjustment downward of viable CD34+ threshold doses for haematological recovery.

Storage of unprocessed G-CSF-mobilized whole blood in a modified Leibovitz's L15 medium preserves clonogenic capacity for at least 7 days.

Autologous stem cell transplantation using unprocessed, G-CSF-mobilized whole blood (WB) is a simple, cost-reducing procedure and supports high-dose chemotherapy regimens not exceeding 72 h. Thereafter, clonogenic capacity rapidly decreases if routine anticoagulants are used for storage. In order to increase clinical applicability, we investigated the requirements for optimal preservation of unprocessed WB for 7 days. During storage at 22 degrees C in CPDA-1, a decrease in pH was noted, which was at least partially responsible for the low recovery of clonogenic cells. Subsequently, WB cells were stored in various cell culture media (RPMI 1640, alpha-MEM, X-VIVO15, CellGro SCGM and Leibovitz's L15 medium) containing either serum, serum-free substitutes or no additives. Leibovitz's L15 showed significantly better CFU-GM recoveries than the other media. Using a calcium-free modification of L15 medium (added 3:10 to WB), 94 +/- 24% of CD34(+) cells, 41 +/- 14% of BFU-E, 56 +/- 17% CFU-GM and 90 +/- 14% of LTC-IC were preserved during storage for 7 days at 22 degrees C. Storage at 4 degrees C was also feasible, but showed less optimal recoveries of 52 +/- 29% (CD34), 32 +/- 10% (BFU-E), 13 +/- 7% (CFU-GM) and 58 +/- 9% (LTC-IC). The expression of CD38, Thy-1, c-kit, AC133, L-selectin and CXCR4 on CD34-positive cells remained unchanged. In conclusion, a modified Leibovitz's L15 medium better meets the metabolic requirements of a high-density cell culture and allows safe storage of G-CSF mobilized WB for at least 7 days. The results encourage further exploration of WB transplants stored for 7 days for clinical use.

Differences in sulfation patterns of heparan sulfate derived from human bone marrow and umbilical vein endothelial cells.

OBJECTIVE: Heparan sulfates (HS), the polysaccharide side chains of HS proteoglycans, differ in structure and composition of sulfated domains among various tissue types, resulting in selective protein binding. HS proteoglycans on bone marrow endothelial cells (BMEC) could contribute to tissue specificity of the bone marrow endothelium and play a role in the presentation of chemokines such as stromal cell-derived factor-1 (SDF-1) and adhesion of hematopoietic progenitor cells after stem cell transplantations. We characterized differences in HS structure and SDF-1 binding between BMEC and human umbilical vein endothelial cells (HUVEC). MATERIALS AND METHODS: Expression of HS proteoglycans on human bone marrow microvessels was investigated by immunohistochemical staining. Comparison of three human BMEC cell lines with HUVEC and an HUVEC cell line was studied by flow cytometry using antibodies against different epitopes of the HS polysaccharide chain. HS proteoglycans were biochemically characterized after isolation from metabolically labeled cultures of the BMEC cell line 4LHBMEC and HUVEC. Binding of radiolabeled SDF-1 to 4LHBMEC and HUVEC and competition with heparins were investigated. RESULTS: Bone marrow microvessels constitutively expressed HS proteoglycans. Flow cytometric experiments showed differences in HS chain composition between BMEC and HUVEC. Biochemical characterization revealed more O-sulfation of the N-sulfated domains present in cell-associated HS glycosaminoglycans in 4LHBMEC compared to HUVEC. Binding experiments showed that 4LHBMEC bound more 125[I]-SDF-1 per cell than HUVEC. This could be inhibited largely by heparin and O-sulfated heparin and to a lesser extent by N-sulfated heparin. CONCLUSIONS: Cellular HS from BMEC differs in composition from HUVEC. We postulate that the presence of highly sulfated domains in the HS chains from BMEC contributes to tissue specificity of bone marrow endothelium in which HS may be involved in SDF-1 presentation and adhesion of hematopoietic progenitor cells.

Regulation of megakaryocytopoiesis in an in vitro stroma model: preferential adhesion of megakaryocytic progenitors and subsequent inhibition of maturation.

OBJECTIVE: Studies of megakaryocytic progenitor cell interactions have focused on single receptor-ligand interactions using isolated components of the extracellular matrix. To approach a physiologic condition, we studied megakaryocytic development of human progenitor cells cultured on two stromal cell lines and on human bone marrow stroma. MATERIALS AND METHODS: Human CD34(+) cells were cocultured with stromal layers in the presence of thrombopoietin. Megakaryocytes were quantified by monoclonal antibodies against glycoprotein (GP) IIb/IIIa (CD41) and GPIX (CD42a). Megakaryocytic clonogenic capacity (burst-forming unit-megakaryocyte and colony-forming unit-megakaryocyte) was determined using fibrin clot assays. RESULTS: After 6 days, a higher percentage of megakaryocytes and more megakaryocytic colonies were recovered from the adherent cell fraction compared to the nonadherent cell fraction. In contrast, significantly more granulocytic and erythroid colonies were recovered from the nonadherent cell fraction. Repeated replating of nonadherent cells onto fresh stroma showed a decline in megakaryocytic recovery of the remaining adherent cells, pointing toward selective adhesion of megakaryocytic progenitors. This was supported further by the finding that burst-forming unit and colony-forming unit megakaryocytes were preferentially recovered from the adherent cell fraction at 24 hours. No effect of blocking the beta(1) integrins VLA-4 and VLA-5 on human progenitor cells was observed. A higher expression of CD42a antigen and a higher percentage of morphologically recognizable polyploid megakaryocytes were found when cells were grown in noncontact cultures compared to when grown adhered to stroma. CONCLUSION: In contrast to granulocytic and erythroid progenitors, both very early and more mature megakaryocytic progenitors are preferentially located in the adherent fraction in an in vitro stromal model, leading to inhibition of maturation of megakaryocytes. This suggests that the presence of stroma components in ex vivo expansion cultures, aimed at preservation and expansion of megakaryocytic progenitors, might be a prerequisite.

The phenotypic profile of CD34-positive peripheral blood stem cells in different mobilization regimens.

The type of regimen used might result in mobilization of phenotypically and functionally different CD34(+) cells. We compared the phenotype of CD34(+) cells in leukapheresis products of three homogeneous groups: I, healthy individuals treated with granulocyte colony-stimulating factor (G-CSF) alone (n = 13); II, patients mobilized with G-CSF following chemotherapy (n = 16); and III, patients mobilized with G-CSF after high-dose chemotherapeutic pretreatment (n = 24). Multiparameter flow cytometry was performed for CD34(+) subpopulation analysis and focused on adhesion molecules, differentiation markers and megakaryocytic markers relevant for stem cell homing, with special reference to the importance of L-selectin expression. Regimens I and II led to higher numbers of mobilized CD34(+) cells (mean 468 x 10(6) and 491 x 10(6) CD34(+) cells per leukapheresis procedure respectively) than regimen III (mean 41 x 10(6) CD34(+) cells per leukapheresis procedure). Both the expression of L-selectin and CD54 on CD34(+) cells was significantly lower in group III, as was the percentage of megakaryocytic (CD41(+)) progenitors. A higher percentage of primitive (CD38(-) and/or HLA(-)DR(-)) CD34(+) cells was found in group III, correlating with a higher clonogenicity of the CD34(+) cells. However, when comparing the CD34(+)_ subpopulations that were also positive for L-selectin, there was no significant difference between the three regimens. A similar approach for the megakaryocytic CD34+ population resulted in an even worse quality of regimen III: 5.1% of CD34(+) being CD41(+)/L-selectin(+) compared with 9.2% and 8.9% in regimens I and II respectively. We concluded that the phenotypes of the CD34(+) cells in the G-CSF (group I) and G-CSF-chemotherapy (group II) regimens are similar, whereas the phenotype of the CD34(+) cells mobilized in the high-dose regimen (group III) displayed features that might negatively influence homing of the cells. Future studies will be directed towards regimens that will lead to the mobilization of a higher amount of CD34(+) cells with a phenotypically favourable phenotype.

Decreased interleukin-10 and increased interleukin-12p40 mRNA are associated with disease activity and characterize different disease stages in multiple sclerosis.

It has been shown that proinflammatory and antiinflammatory cytokines correlate with disease activity in multiple sclerosis (MS). To establish whether such correlations depend on the disease stage, we assessed in a longitudinal fashion the expression of interleukin (IL)-12 (p40 and p35), tumor necrosis factor-alpha, interferon-gamma, and IL-10 mRNA by competitive polymerase chain reaction in unstimulated peripheral blood mononuclear cells of relapsing-remitting (RR) and secondary progressive (SP) MS patients, in relation to monthly clinical and magnetic resonance imaging monitoring. MS patients had increased levels of IL-12p40 and decreased levels of IL-10 mRNA compared with controls; this difference was most pronounced in SP patients. Both RR and SP patients had increased levels of IL-12p40 mRNA compared with controls during the development of active lesions. Moreover, in RR MS an increase was found before relapse. IL-12p35 mRNA was decreased in both groups, and in relation to disease activity it showed a pattern different from IL-12p40 mRNA. In RR MS, IL-10 mRNA was low 4 weeks before magnetic resonance imaging activity and 6 weeks before relapse; a significant increase to normal levels was noted when active lesions became apparent. In contrast, SP patients showed low IL-10 mRNA levels constitutively, suggesting that IL-10 plays an important role in the control of disease progression.

Megakaryocytic differentiation of human progenitor cells is negatively influenced by direct contact with stroma.

The recently defined ligand for the Mpl receptor, thrombopoietin (TPO), has been found to be the principal regulatory cytokine of megakaryocytopoiesis. Furthermore, it has been hypothesized that direct interaction between stroma or stroma-derived extracellular matrix (ECM) and human progenitor cells (HPC) may modulate megakaryocytopoiesis. For that purpose, we studied megakaryocytic development of HPC, obtained from patients with hematological malignancies in complete remission or solid tumors without bone marrow involvement, under the influence of megakaryocyte growth and development factor (MGDF, a pegylated, truncated molecule related to the endogenous Mpl ligand). The megakaryocytic development of HPC cultured in contact with a stromal layer (contact cultures) was compared with cultures in which HPC were grown separated from a stromal layer by a microporous membrane (non-contact cultures). A significantly lower number of megakaryocytes (CD41- and CD61-positive cells) was obtained from contact cultures compared to non-contact cultures. Furthermore, the expression of CD42b was higher in non-contact cultures, as compared to contact cultures, indicating an increase in megakaryocyte maturation in non-contact cultures. In contrast, no difference in clonogenic capacity was observed (CFU-GM, BFU-E, CFU-Mk). The possibility that direct contact between HPC and stroma induces the production of a soluble inhibitory cytokine as an explanation for the diminished megakaryocytic development in contact cultures, was excluded by performing transwell experiments in which HPC were cultured in direct contact and in a transwell simultaneously. The percentage of megakaryocytes raised from HPC present in the transwell did not decrease, irrespective of the presence of HPC simultaneous below the transwell in direct contact with stroma. It is concluded that both megakaryocytic development out of HPC and megakaryocytic differentiation is reduced in contact cultures, as compared to non-contact cultures. This is due to modulation by adhesive interactions with stroma, stroma-derived ECM or cytokines bound to the membrane of stromal cells, rather than resulting from the production of diffusible cytokines by stromal cells.

Effects of bryostatin-1 on chronic myeloid leukaemia-derived haematopoietic progenitors.

Bryostatin-1 belongs to the family of macrocyclic lactones isolated from the marine bryozoan Bugula neritina and is a potent activator of protein kinase C (PKC). Bryostatin has been demonstrated to possess both in vivo and in vitro anti-leukaemic potential. In samples derived from chronic myeloid leukaemia (CML) patients, it has been demonstrated that bryostatin-1 induces a macrophage differentiation, suppresses colony growth in vitro and promotes cytokine secretion from accessory cells. We investigated the effect of bryostatin-1 treatment on colony-forming unit-granulocyte macrophage (CFU-GM) capacity in the presence of accessory cells, using mononuclear cells, as well as in the absence of accessory cells using purified CD34-positive cells. Cells were obtained from 14 CML patients as well as from nine controls. Moreover, CD34-positive cells derived from CML samples and controls were analysed for stem cell frequency and ability using the long-term culture initiating cell (LTCIC) assay at limiting dilution. Individual colonies derived from both the CFU-GM and LTCIC assays were analysed for the presence of the bcr-abl gene with fluorescence in situ hybridization (FISH) to evaluate inhibition of malignant colony growth. The results show that at the CFU-GM level bryostatin-1 treatment resulted in only a 1.4-fold higher reduction of CML colony growth as compared to the control samples, both in the presence and in the absence of accessory cells. However, at the LTCIC level a sixfold higher reduction of CML growth was observed as compared to the control samples. Analysis of the LTCICs at limiting dilution indicates that this purging effect is caused by a decrease in output per malignant LTCIC combined with an increase in the normal stem cell frequency. It is concluded that bryostatin-1 selectively inhibits CML growth at the LTCIC level and should be explored as a purging modality in CML.

Plasma concentration of C-reactive protein is increased in type I diabetic patients without clinical macroangiopathy and correlates with markers of endothelial dysfunction: evidence for chronic inflammation.

Moderately increased plasma concentrations of C-reactive protein are associated with an increased risk of cardiovascular disease. C-reactive protein, its relation to a low degree of inflammatory activation and its association with activation of the endothelium have not been systematically investigated in Type I (insulin-dependent) diabetes mellitus. C-reactive protein concentrations were measured in 40 non-smoking patients with Type I diabetes without symptoms of macrovascular disease and in healthy control subjects, and in a second group of Type I diabetic patients (n = 60) with normo- (n = 20), micro- (n = 20) or macroalbuminuria (n = 20). Differences in glycosylation of alpha1-acid glycoprotein were assayed by crossed affinity immunoelectrophoresis. Activation of the endothelium was measured with plasma concentrations of endothelial cell markers. The median plasma concentration of C-reactive protein was higher in Type I diabetic patients compared with healthy control subjects [1.20 (0.06-21.64) vs. 0.51 (0.04-9.44) mg/l; p<0.02]. The Type I diabetic subjects had a significantly increased relative amount of fucosylated alpha1-acid glycoprotein (79+/-12% vs. 69+/-14% in the healthy control subjects; p<0.005), indicating a chronic hepatic inflammatory response. In the Type I diabetic group, log(C-reactive protein) correlated significantly with von Willebrand factor (r = 0.439, p<0.005) and vascular cell adhesion molecule-1 (r = 0.384, p<0.02), but not with sE-selectin (r = 0.008, p = 0.96). In the second group of Type I diabetic patients, increased urinary albumin excretion was associated with a significant increase of von Willebrand factor (p<0.0005) and C-reactive protein (p = 0.003), which were strongly correlated (r = 0.53, p<0.0005). Plasma concentrations of C-reactive protein were higher in Type I diabetic patients without (clinical) macroangiopathy than in control subjects, probably due to a chronic hepatic inflammatory response. The correlation of C-reactive protein with markers of endothelial dysfunction suggests a relation between activation of the endothelium and chronic inflammation.

Role of TNF alpha in bryostatin-induced inhibition of human hematopoiesis.

In previous studies bryostatin has been shown to cause dose-dependent stimulatory or inhibitory effects on colony formation in acute myeloid leukemias. In this study we investigated the inhibitory effect of high dose bryostatin-1 (bryo-1) on normal human bone marrow mononuclear cells (BMNC) colony-forming capacity. Preculturing BMNC for 24 h with 250 nM bryo-1 reduced colony formation by 66 +/- 11% whereas this treatment did not reduce clonogenic capacity of highly purified CD34+ BMNC. When precultures with bryo-1 were performed in the presence of several cytokine neutralizing antibodies abrogation of the inhibitory effect could only be demonstrated by anti-TNF alpha. However, preculturing of BMNC or CD34+ cells with a wide range of TNF alpha concentrations as well as TNF alpha neutralization in supernatant of bryo-1-stimulated BMNC failed to affect the inhibitory effect on CD34+ cells. Both indicate that TNF alpha was not the only factor responsible for the inhibitory effect. Depletion of CD14+ cells from BMNC cultures showed that upon bryo-1 exposure the monocytes served as the main source of TNF alpha but not as a source of the inhibitory cytokine(s): in CD14+-depleted cultures the combination of exogenous added TNF alpha and bryo-1 resulted in an inhibition of colony formation comparable to that found in crude BMNC. In contrast, purified CD34+ cultures were not directly affected by bryo-1 and TNF alpha. However, clonogenic growth of purified CD34+ cells was inhibited if mononuclear cells were preincubated with TNF alpha alone for 24 h, and the supernatant of these cultures was used together with bryo-1. These results show that bryo-1-induced inhibition of clonogenic cell growth is not mediated by a direct effect of bryo-1 on CD34 cells but is a result of a process involving production of TNF alpha by CD14+ cells upon bryo-1 stimulation together with the induction of (a) secondary factor(s) by TNF alpha, which together with bryo-1 itself is inhibitory towards clonogenic cell growth.

New strategies in hematopoietic stem cell transplantation: G-CSF-mobilized unprocessed whole blood.

Transplantation of mobilized peripheral blood stem cells (PBSC) for rescue of bone marrow function after high-dose chemo-/radiotherapy is widely used in hematologic malignancies and solid tumors. Mobilization of stem cells to the peripheral blood can be achieved by cytokine treatment of the patients. The main advantage of autologous PBSC transplantation over bone marrow transplantation is the faster recovery of neutrophil and platelet counts. The threshold number of PBSC required for adequate rescue of bone marrow is thought to be about 2 x 10(6) CD34+ cells/kg, if the stem cells are collected by leukapheresis and subsequently cryopreserved. We show that this critical number could be further reduced to as few as 0.2 x 10(6) cells/kg. In 30 patients with multiple myeloma and 25 patients with bad risk lymphoma 1 liter of granulocyte colony-stimulating factor (G-CSF)-mobilized unprocessed whole blood (stored at 4 degrees C for 1-3 days) was used for transplantation. Compared to a historical control group, a significant reduction in the duration of neutropenia, thrombocytopenia and the length of hospital stay was documented. Furthermore, the effect of stem cell support was reflected by a lower need for platelet and red cell transfusions and a reduced antibiotic use. Considering the data as a whole, a cost saving of about 50% was achieved. To date, this easy to perform method of transplantation is only feasible following high-dose therapies that are completed within 72 h, since longer storage of unprocessed blood is accompanied by a substantial loss of progenitor cell function. Ongoing investigations include attempts to prolong storage times for whole blood.

Changes in L-selectin expression on CD34-positive cells upon cryopreservation of peripheral blood stem cell transplants.

Several studies have pointed out that L-selectin on CD34-positive cells plays a role in haematopoietic reconstitution after peripheral blood stem cell (PBSC) transplantation. Since it is known that a decrease in L-selectin expression in lymphocytes and granulocytes can be induced by a variety of stress situations, we have investigated in this study whether the freeze-thawing procedure, used in PBSC transplantation, would affect L-selectin expression on CD34+ stem cells. Flow cytometry was performed by labelling the cells with anti-CD34 (HPCA2 PE) and anti-CD62L (FMC46 FITC). The leucapheresis procedure itself caused a slight decrease of L-selectin expression on CD34 cells in 11 out of 12 cases (mean decrease of the percentage of positive cells 11.9; range 6-23). A much larger decrease was found upon freeze-thawing: a mean of 39% (range 4-78% in 27 cases) compared to fresh material. To determine if L-selectin expression might be up-regulated after cryopreservation, thawed transplant samples (n = 11) were incubated at 37 degrees C in RPMI with 10% FCS at 5% CO2. Already early in the course of incubation two CD34-positive populations appeared in the blast region, characterized by either a low or high forward scatter. Simultaneous viability staining with the DNA dye 7-Amino Actinomycin D and the DNA/RNA dye Syto16 revealed that the population with low forward scatter was apoptotic while the population with the high forward scatter was non-apoptotic. The latter population is considered to be most relevant for transplantation. In this population an increase of L-selectin expression after overnight incubation was observed in 8/11 samples up to values of 46-120% of the values of the fresh nonfrozen samples. In addition, the mean fluorescence intensity was significantly increased in 10/11 cases. Kinetic experiments with shorter incubation times revealed that only part of the leucapheresis samples (two out of 8) showed an increase of L-selectin expression within 4 h. In addition, a decrease of L-selectin expression was found upon CD34 purification from fresh leucapheresis material by magnetic isolation (decrease ranging from 59 to 92%, n = 5). In contrast to frozen samples, L-selectin reappearance was seen already within 4 h of incubation in all samples. Both the loss of L-selectin expression on CD34 cells occurring upon freeze-thawing, the emergence of apoptosis, as well as the recovery of L-selectin expression on non-apoptotic cells varies largely between individual leucapheresis samples, and therefore it is concluded that such processes should be considered when correlations with clinical outcome after transplantation are made.

Characterization of a newly established human bone marrow endothelial cell line: distinct adhesive properties for hematopoietic progenitors compared with human umbilical vein endothelial cells.

Human bone marrow endothelial cells (HBMEC) are intimately involved in the homing of hematopoietic progenitor cells (HPC) to the bone marrow and in the regulation of proliferation and differentiation of these cells. Because availability of primary HBMEC and their capacity to be cultured in vitro are limited, we used isolated HBMEC to establish a cloned cell line by microinjection of a recombinant plasmid expressing simian virus 40 early genes under the control of a deletion mutant of the human vimentin promoter. Serum requirements for growth of a transformed HBMEC line (TrHBMEC) were markedly decreased compared with those of primary cells, and added growth factors were not required for proliferation. Cells took up acetylated low-density lipoprotein normally, bound to Ulex europaeus lectin, and stained positively for von Willebrand factor, P-selectin, CD31, CD34, CD44, very late antigen-5, and intercellular adhesion molecule-2 (ICAM-2). After treatment with TNF-alpha or lipopolysaccharide, TrHBMEC increased surface expression of E-selectin, vascular cell adhesion molecule-1 (VCAM-1), and ICAM-1 in a manner similar to primary HBMEC. In contrast, IL-1 beta elicited much less up-regulation of these adhesion molecules than in primary cells. In previous work, we reported that, in a flow adhesion model, rolling of peripheral blood CD34+ cells on primary HBMEC was E-selectin-dependent, whereas VCAM-1 and ICAM-1 contributed to firm adhesion. In the present study, we show that HPC adhere in a similar way to TrHBMEC. A less-pronounced role for VCAM-1 and ICAM-1 was found in the adhesion of HPC to human umbilical vein endothelial cells. Furthermore, significantly more CD34+ cells adhered to TNF-alpha-stimulated HBMEC and TrHBMEC than to similarly stimulated human umbilical vein endothelial cells. These data emphasize the importance of using microvessel HBMEC for studying the homing of HPC to the bone marrow, and indicate the usefulness of the above-described bone marrow endothelial cell line.

High-dose melphalan with re-infusion of unprocessed, G-CSF-primed whole blood is effective and non-toxic therapy in multiple myeloma.

In order to shorten the pancytopenic period following high-dose melphalan 140 mg/m2 (HDM) treatment of multiple myeloma patients, we studied the effects of re-infusing granulocyte colony stimulating factor (G-CSF) [Filgrastim, Neupogen]-primed unprocessed whole blood. 30 patients with multiple myeloma were treated with HDM. One litre of blood after 5 or 6 days stimulation with G-CSF (10 micrograms/kg) was drawn, kept unprocessed for 1 day and re-infused 24 h after chemotherapy. Time to granulocyte recovery (> 0.5 x 10(9)/1) and platelet recovery (> 20 x 10(9)/1) were assessed as well as length of hospital stay, number of transfusions and antibiotic use. These 30 patients were compared with 20 historical control patients who were similarly treated but without stem cell support. The response rate was 75% (21/28) including a complete remission (CR) rate of 29% (8/28). Two early deaths due to Aspergillus pneumonia were observed. The median overall survival after HDM has not been reached after a median follow-up of 14 months. 10 patients showed progression at a median of 7 months. Currently, 23 patients are alive with a median follow-up time of 14 months. Haematological recovery was significantly faster in the study group as compared to the historical control group. The neutrophil count reached 0.5 x 10(9)/1 at a median of 14 days after infusion of 1 litre of unprocessed whole blood compared with 38 days in the historical control group. A platelet count of 20 x 10(9)/1 was reached at a median of 26 days compared with 36 days in the historical control group. Length of hospital stay decreased from a median of 43 to 18.5 days. The number of days with antibiotics was reduced from a median of 21 to 6 days. HDM is effective therapy for multiple myeloma. Toxicity of the regimen is considerably reduced by the use of G-CSF-stimulated unprocessed whole blood, an easy to perform and cheap technique to mobilise and collect stem cells.

Heterogenous effects of bryostatin on human myeloid leukemia clonogenicity: dose and time scheduling dependency.

The potent anti-neoplastic actions displayed in vitro by bryostatins have led to the introduction of short-term bryostatin-1 infusions in phase I clinical trials. Because bryostatin (bryo) undergoes a rapid clearance in vivo, we were interested in its scheduling effects on acute myeloid leukemia (AML) clonogenicity. Therefore, we assessed the primary plating efficiency (PE1) of AML samples in response to several bryo concentrations after various preincubation periods in a semi-solid colony forming assay. Whereas continuous exposure to 10 nM bryo during the assay period reduced the PE1 in nearly all samples tested, preincubation of eight AML patients' specimens for 1, 2, 3 or 4 days with bryo in a dose range of 0.1-10 nM showed a heterogenous PE1 response. Stimulatory as well as inhibitory effects on leukemic clonogenic growth were seen within individual specimens depending on dose and preincubation time with no single incubation time or concentration that caused unequivocal common overall inhibition of clonogenic growth in most or all of the samples. Higher doses of bryo also failed to result in specific inhibition of leukemic cells: 4/8 samples showed an increased clonogenic response to 250 nM bryo whereas normal bone marrow progenitor cells were consistently inhibited in their clonogenicity at this dose. A marked similarity, i.e. undulatory effects with increasing bryo concentrations, was found for HL60 leukemic cells. In conclusion, the effects of bryo on clonogenic leukemia cell growth are strongly dependent on scheduling and dose varying between and within individual AML samples. These results caution against in vivo bryo pulse therapy, as currently applied, for treatment of AML.

Effect of modulation of the transferrin receptor on gallium-67 uptake and cytotoxicity in lymphoma cell lines.

Gallium-67 is a radionuclide that accumulates in haematological malignancies and is used for diagnostic purposes. Uptake of 67Ga into the cell occurs via the transferrin receptor, which is differentially expressed during the various cell cycle phases. With the aim of selectively increasing 67Ga uptake, we studied whether the transferrin receptor (TfR) expression could be modulated in the U937 and U715 lymphoma cell lines by cytostatic drugs inducing cell cycle phase accumulation. We tested clinically relevant drugs such as 1-beta-D-arabinofuranosylcytosine (Ara-C), hydroxyurea and methotrexate. Cytotoxicity was determined by testing the clonogenic capacity of the lymphoma cell lines. All three drugs induced an increase in S-phase content, TfR expression and 67Ga uptake in U937 and U715 single cells. The combinations of drugs and 67Ga resulted in an additive effect on the clonogenic capacity. In U937 spheroids, cultured by the fibrin clot technique, we found an accumulation in the S-phase too as well as an increase of the transferrin receptor expression after Ara-C preincubation. As in single cells 67Ga uptake was increased without synergistic effects on the clonogenic capacity. In conclusion, priming with drugs induces increased transferrin receptor expression and 67Ga uptake. Inhibition of clonogenic capacity was additive rather than synergistic.