[Analysis of phenotypes and kinetics of CD34+ cells and lymphocytes in donors of hematopoietic stem cells for allogenic transplantation]

BACKGROUND

Amount of CD34+ cells is a critical parameter for quality assessment and successful engraftment of peripheral blood hematopoietic stem cells (PBSC) during the transplantation of haemopoisis. CD34+ cells are routinely analysed by immunophenotyping in PBSC and in peripheral blood during mobilization. Other leukocyte subpopulations are not usually assessed.

METHODS AND RESULTS

The authors present results of immunophenotyping of subpopulations of CD34+ cells and leucocytes in samples from donors of PBSC for allogeneic transplantations, who were stimulated with the growth factor G-CSF at dose 16 micrograms/kg/day. The amount of CD34+ cells was not significantly different between days 4 and 5; however, there was a significant drop at day 6. CD34+90+ and CD34+61+ subpopulations reached their maximum at the day 4; partially differentiated CD34+ cells with co-expression of CD33, CD19, and CD7 reached maximum at the day 6. CD4+ Th-lymphocytes were concentrated in the grafts during leukapheresis, CD4/CD8 ratio in the grafts was increased to average 3.06.

CONCLUSIONS

The knowledge of kinetics of CD34+ subpopulations, together with stem cell selection and ex vivo manipulation, may have an impact on the speed of engraftment or GvHD prevention in transplanted patients.

Effect of granulocyte colony-stimulating factor on bone metabolism during peripheral blood stem cell mobilization

Granulocyte colony-stimulating factor (G-CSF) has been shown to affect the biochemical markers of bone metabolism, including serum bone alkaline phosphatase (BALP), serum osteocalcin, and urine deoxypyridinoline. To determine the association between bone resorption and formation and the G-CSF-induced mobilization of peripheral blood stem cells (PBSC), we examined these markers during mobilization in 19 healthy donors. The average (+/- SEM) serum BALP level before treatment was 81.6 +/- 17.0 IU/dL, and the level increased significantly to 117.7 +/- 15.8 IU/dL on day 5 of G-CSF administration (P < .0001). The urine deoxypyridinoline level before treatment was 12.3 +/- 2.4 nmol/mmol creatinine, and this level also increased significantly to 19.4 +/- 3.0 nmol/mmol creatinine on day 5 of G-CSF administration (P < .0001). In contrast, the average level of serum osteocalcin significantly decreased from 8.07 +/- 2.88 ng/mL to 1.53 +/- 0.18 ng/mL on day 5 (P = .0353). During G-CSF administration, we also studied the serum levels of various cytokines (IL-1beta, osteoclastogenesis inhibitory factor [OCIF], IL-6, tumor necrosis factor alpha, transforming growth factor beta, interferon-gamma, macrophage colony-stimulating factor) related to bone metabolism. Only the kinetics of OCIF were significantly affected. The serum level of OCIF increased immediately after the start of G-CSF administration and remained high during G-CSF administration. These results demonstrate that high-dose G-CSF affects bone metabolism and that OCIF may play a role in bone metabolism. Consistent with the notion that G-CSF affects bone metabolism, a significant correlation was observed between CD34+ cell yield and the increase in urine deoxypyridinoline but not for the changes in serum BALP and osteocalcin levels. This result suggests that bone resorption is either directly or indirectly related to the mobilization of PBSC by G-CSF.

Patients with acute lymphoblastic leukaemia allografted with a matched unrelated donor may have a lower survival with a peripheral blood stem cell graft compared to bone marrow

We analysed data for 213 patients with ALL and AML who received either peripheral blood stem cells (PBSC) (n=74) or bone marrow (BM) (n=139) from an HLA-matched unrelated donor (EBMT acute leukaemia registry; January 1994 to January 1999). The two groups of patients (by cell source) were comparable with respect to age, sex, disease status, year at transplant and graft T cell depletion. Engraftment was achieved in about 90% regardless of stem cell source or leukaemia type. Kinetics of neutrophil and platelet recovery, similar for both sources in ALL patients, were faster for PBSC in AML patients. The incidence of acute graft-versus-host disease was similar for both sources in AML patients, but higher for PBSC in ALL patients (74 vs 54%, P=0.05). The 1-year probability of chronic graft-versus-host disease was 40 and 45% (P=0.66) in ALL patients compared to 49 and 35% (P=0.13) in AML patients (PBSC vs BM). In AML patients, none of the following differed significantly with cell source: transplant-related mortality, relapse incidence, leukaemia-free survival and overall survival. In ALL patients, the transplant-related mortality for PBSC vs BM was 61 vs 47% (P=0.13), the relapse incidence was 47 vs 39% (P=0.17), the leukaemia-free survival was 21 vs 32% (P=0.04) and the overall survival was 24 vs 34% (P=0.04). These data suggest that the short-term outcome of allogeneic PBSC is not significantly different from that of BM in AML patients who underwent a transplant from a matched unrelated donor but, conversely, that survival with PBSC may be decreased in ALL patients. In conclusion, the source of transplant cells needs to be evaluated by disease, especially when dealing with unrelated donors.

The stem cell mobilizing capacity of patients with acute myeloid leukemia in complete remission correlates with relapse risk: results of the EORTC-GIMEMA AML-10 trial

Variable numbers of CD34+ cells can be harvested from the blood of AML patients in CR after G-CSF supported mobilization following consolidation chemotherapy. We hypothesized that a decreased ability to mobilize stem cells reflects a chemotherapy-induced reduction in the number of normal and leukemic stem cells. We therefore analyzed whether the mobilizing capacity of these patients was of prognostic significance. 342 AML-patients in first CR received daily G-CSF from day 20 of the consolidation course and underwent 1-6 aphereses to obtain a minimum dose of 2 x 10(6) CD34+ cells/kg. Afterwards they were randomized for autologous bone marrow (BM) or blood SCT. As a surrogate marker for the mobilizing capacity, the highest yield of CD34+ cells of a single apheresis was adopted. Patients could be categorized into four groups: no harvest (n = 76), low yield (<1 x 10(6) CD34+/kg; n = 50), intermediate yield (1-6.9 x 10(6) CD34+ cells/kg; n = 128) and high yield (> or = 7 x 10(6) CD34+ cells/kg; n = 88). The median follow-up was 3.4 years; 163 relapses and 16 deaths in CR were reported. Autologous blood or BM SCT was performed in 36%, 64%, 81% and 88%, respectively, of the patients assigned to the no harvest, low, intermediate and high CD34+ yield group. The 3-year disease-free survival rate was 46.7%, 65.0%, 50.4% and 26.9% (P = 0.0002) and the relapse incidence was 47.5%, 30.1%, 43.1% and 71.9% (P < 0.0001). Multivariate Cox's proportional hazards model showed that the CD34+ yield was the most important independent prognostic variable (P = 0.005) after cytogenetics. Patients with the highest mobilizing capacity have a poor prognosis due to an increased relapse incidence.

Granulocyte colony-stimulating factor administration upregulates telomerase activity in CD34+ haematopoietic cells and may prevent telomere attrition after chemotherapy

Hematopoietic reconstitution could be associated with premature ageing of the transplanted cells and a high frequency of myelodysplastic syndrome and secondary leukaemia. Telomere length decreases with cell divisions and age, and at a crucial length it is associated with chromosomal instability and cell senescence. Telomerase is a reverse transcriptase enzyme that adds nucleotides to chromosomal ends. Most somatic cells lack telomerase activity yet haematopoietic stem cells retain low levels of telomerase. Some studies have found that chemotherapy and stem cell transplantation lead to the accelerated shortening of telomere length. As granulocyte colony-stimulating factor (G-CSF) is routinely used in the mobilization of stem cells for transplantation, we evaluated its effects on telomerase activity and regulation, and on telomere dynamics, in normal donors and selected lymphoma patients. Administration of G-CSF increased telomerase activity in CD34+ haematopoietic cells compared with controls. In marrow-derived CD34+ cells, telomerase activity increased sevenfold, compared with a 14-fold increase in peripheral-blood-mobilized CD34+ cells. A parallel increase in the expression of human telomerase enzyme reverse transcriptase RNA and protein kinase C alpha occurred. In addition, G-CSF administration to five lymphoma patients after consecutive courses of CHOP (cyclophosphamide, doxorubicin, vincristine, prednisone) chemotherapy, resulted in telomere length preservation or elongation, as opposed to marked attrition in patients who did not receive growth factors. We conclude that the in vivo administration of G-CSF prevents or attenuates telomere attrition associated with chemotherapy administration. This attenuation may contribute to the preservation of telomere integrity inG-CSF-primed transplanted stem cells.

Homeostasis of telomere length rather than telomere shortening after allogeneic peripheral blood stem cell transplantation

Hematopoietic reconstitution after stem cell transplantation requires excessive replicative activity because of the limited number of stem cells that are used for transplantation. Telomere shortening has been detected in hematopoietic cells after bone marrow transplantation. This has been thought to result from excessive replication of the stem cells, with putative concomitant reduction of their replicative potential. Hematopoietic stem cells from cytokine-mobilized peripheral blood are increasingly used for stem cell transplantation. These grafts contain higher numbers of hematopoietic stem cells, resulting in a faster hematopoietic reconstitution. We have performed a combined prospective and cross-sectional study of hematologic recovery and telomere length dynamics in the immediate reconstitution period after allogeneic T-cell-depleted blood stem cell transplantation. We analyzed hematologic recovery and telomere length of granulocytes, monocytes, B cells, and T-cell subsets in 30 donor/recipient combinations. We found fast recovery in combination with transient telomere shortening in the myeloid lineages. This initial reduction of telomere length was followed by an increase in telomere length to such an extent that 1 year after transplantation the telomere length in recipient cells was similar to the telomere length in donor-derived cells. Therefore, our data indicate telomere length homeostasis after peripheral blood stem cell transplantation, implying no loss of replicative capacity of the stem cells. Our data indicate that fast expansion is accompanied by a reduction of telomere length and that telomere length homeostasis is achieved by de novo generation of hematopoietic cells from stem cells without transplantation-related telomere loss.

Third-generation, self-inactivating gp91(phox) lentivector corrects the oxidase defect in NOD/SCID mouse-repopulating peripheral blood-mobilized CD34+ cells from patients with X-linked chronic granulomatous disease

HIV-1-derived lentivectors are promising for gene transfer into hematopoietic stem cells but require preclinical in vivo evaluation relevant to specific human diseases. Nonobese diabetic/severe combined immunodeficient (NOD/SCID) mice accept human hematopoietic stem cell grafts, providing a unique opportunity for in vivo evaluation of therapies targeting human hematopoietic diseases. We demonstrate for the first time that hematopoietic stem cells from patients with X-linked chronic granulomatous disease (X-CGD) give rise to X-CGD-phenotype neutrophils in the NOD/SCID model that can be corrected using VSV-G-pseudotyped, 3rd-generation, self-inactivating (SIN) lentivector encoding gp91(phox). We transduced X-CGD patient-mobilized CD34(+) peripheral blood stem cells (CD34(+)PBSCs) with lentivector-gp91(phox) or amphotropic oncoretrovirus MFGS-gp91(phox) and evaluated correction ex vivo and in vivo in NOD/SCID mice. Only lentivector transduced CD34(+)PBSCs under ex vivo conditions nonpermissive for cell division, but both vectors performed best under conditions permissive for proliferation (multiple growth factors). Under the latter conditions, lentivector and MFGS achieved significant ex vivo correction of X-CGD CD34(+)PBSCs (18% and 54% of cells expressing gp91(phox), associated with 53% and 163% of normal superoxide production, respectively). However, lentivector, but not MFGS, achieved significant correction of human X-CGD neutrophils arising in vivo in NOD/SCID mice that underwent transplantation (20% and 2.4%, respectively). Thus, 3rd-generation SIN lentivector-gp91(phox) performs well as assessed in human X-CGD neutrophils differentiating in vivo, and our studies suggest that the NOD/SCID model is generally applicable for in vivo study of therapies evaluated in human blood cells expressing a specific disease phenotype.

Effect of filgrastim administration for steady-state mobilization of peripheral blood stem cells

To obtain a better (optimal) schedule of peripheral blood stem cell (PBSC) collection by steady-state granulocyte colony-stimulating factor administrations for autologous or allogeneic transplantations, we compared the effect of doses of filgrastim (8 microg/kg/day versus 16 microg/kg/day) for the steady-state mobilization of PBSCs. The effects of a filgrastim dose of 8 microg/kg/day were not significantly different from those of a dose of 16 microg/kg/day. In the group of patients receiving 8 microg/kg/day, the CD34+ cells over 3 x 10(6)/kg donor body weight were harvested in 3 patients who did not have a long history of receiving combination chemotherapy. The administration of 8 microg/kg filgrastim was adopted also for allogeneic PBSC mobilization for 24 healthy donors. All healthy donors donated an adequate number of PBSCs (CD34+ cells over 4 x 10(6)/kg of recipient body weight) and tolerated this mobilization well with no serious complications. In PBSC mobilization with healthy donors, the maximal yields of CD34+ cells from Day 4 to Day 6 were seen on the fifth day in most cases.

Optimising parameters for peripheral blood leukapheresis after r-metHuG-CSF (filgrastim) and r-metHuSCF (ancestim) in patients with multiple myeloma: a temporal analysis of CD34(+) absolute counts and subsets

Patients (n = 69) with multiple myeloma undergoing peripheral blood stem cell collection (PBSC) were treated with cyclophosphamide and a combination of recombinant methionyl human granulocyte colony-stimulating factor (r-metHuG-CSF, filgrastim) and recombinant methionyl human stem cell factor (r-metHuSCF, ancestim). The objectives of this study were to determine: (1) The proportion of patients reaching a target yield of >or=5 x 10(6) CD34(+) cells/kg in one or two successive large-volume (20 liter) leukapheresis procedures; (2) the optimal collection time for leukapheresis; (3) mobilization kinetics of CD34(+) subsets in response to G-CSF/SCF. All patients were mobilized with cyclophosphamide (2.5 g/m(2)) on day 0 followed by filgrastim (10 microg/kg ) plus ancestim (20 microg/kg) commencing day 1 and continuing to day 11 or 12. Of the 65 evaluable patients, 57 were considered not heavily pretreated and 96.5% obtained a target of >or=5 x 10(6)/kg in one collection. The median CD34(+) cells/kg was 39.5 x 10(6) (range: 5.2-221.2 x 10(6)). Subset analysis demonstrated the number of CD38(-), CD33(-), and CD133(+) peaked at day 11; and CD34(+), CD90(+) cells peaked at day 10. The optimum day for leukapheresis was determined to be day 11. The median absolute peripheral blood CD34(+) cell numbers on day 11 was 665 x 10(6)/l (range: 76-1481 x 10(6)/l). Eight of the 10 heavily pretreated patients were evaluable: three achieved the target dose in one leukapheresis (37.5%) and three (37.5%) achieved the target dose with two leukaphereses. Use of this mobilization strategy allowed the collection of high numbers of CD34(+) cells and early progenitors and the ability to predictably schedule leukapheresis.

Circulating highly fluorescent reticulocytes to predict the adequate harvesting of peripheral blood progenitor cells in platinum-based chemotherapy

We prospectively evaluated whether peripheral blood progenitor cells (PBPC) yield from a single leukapheresis could be predicted by measurement of circulating highly fluorescent reticulocytes (HFR). PBPC were collected from 46 leukaphereses in 15 patients with gynecological cancer following platinum-based chemotherapy. Once a level of at least 5.0% HFR was achieved, sufficient PBPC were collected in a single harvest in 71% of the procedures. Whereas, failure to mobilize sufficient PBPC occurred in 24 of 28 leukaphereses when the percentage of circulating HFR was less than 5.0%. In conclusion, circulating HFR may aid in the efficiency of PBPC collections in platinum-based chemotherapy.

Mobilization factors of peripheral blood stem cells in healthy donors

As a source of hematopoietic stem cells for transplantation, the use of peripheral blood stem cells (PBSCs) has become routine and comparable to that of the use of bone marrow. Recently, elderly patients with hematological malignancies also have been allowed to receive minitransplantations with nonmyeloablative conditioning regimens under sufficient PBSC infusion. As a result of these minitransplantations, elderly donors have been chosen increasingly from the siblings of elderly patients. We analyzed factors influencing the condition of CD34+ cells in the first days of collection in 49 healthy donors from July 1995 to January 2001. The median dose of recombinant human granulocyte colony-stimulating factor was 8 microg/kg/day (range 8 - 10) over 3 days. The target number of CD34+ cells used in this study was > or = 3 x 10(6) cells/kg of recipient body weight. The median apheresis volume was 12 L. Except for one 60 year old man, we obtained an adequate number of stem cells. In the regression analysis, a negative correlation was seen between donor age and the number of CD34+ cells/kg of recipient body weight per 12 L volume (Y = aX + b; a = -0.07507; b = 6.629996; r = -0.50985; p = 0.000252). Significantly higher apheresis results were obtained in donors younger than 45 years compared with donors 45 years old and older (p < 0.0227). There were no correlations among the number of CD34+ cells, donor body weight, and the number of leukocytes in peripheral blood on the first day of apheresis.

Is there a role for dose-intensive chemotherapy with stem cell rescue in breast cancer?

Over the past decade, high-dose chemotherapy with autologous bone marrow and/or peripheral blood rescue has been increasingly used to treat women with breast cancer. Laboratory and clinical studies have shown that dose intensity may be important in treating selected patients with breast cancer. Initial phase I studies showed good response rates of short durations. Further trials in metastatic disease with high-dose chemotherapy and stem cell rescue earlier in the treatment course had been encouraging. However, the optimal timing of high-dose chemotherapy remains a question. In addition, randomized trials in high-risk early-stage breast cancer have completed accrual. Technologic improvements in stem cell procurement and hematopoietic growth factors have contributed to decreased morbidity and mortality. This review will discuss the role of such therapy in the treatment of women with breast cancer.

[Hematopoietic stem cells: source, indications and perspectives]

The haematopoietic stem cell (HSC) has been first described in the mouse and now identify in human as well. Exposed to a cocktail of growth factor, this HSC can self re-new and/or differentiate into the three lineages we have in the peripheral blood. These HSC are of major importance in the clinics since they can be used for some marrow (or stem cell) transplantation, and lead to the cure of a number of malignant and non malignant hemopathies. We have today three sources of HSC: the bone marrow, the mobilized peripheral blood stem cell and the cord blood. Bone marrow used to be the classical source of HSC after harvesting by aspirations in the iliac crest. However, this approach is now supplanted by the recovery of HSC in peripheral blood using a cell separation after four days of G-CSF administration. These are several advantages of this technique, but the most important one is the more rapid hematopoietic recovery after transplantation, reducing the risk of infection and transfusion. A recent source of HSC is the umbilical cord blood. At the moment of delivery, the cord blood is extremely enriched in HSC due to the migration of these cells from the liver to the bone marrow stroma, where they will persist after birth. We have learned that the marrow stroma display a major role in the regulation of hematopoiesis and the pathogenesis of several malignant hemopathies can be explained by disturbance in the function of stromal cell. We have particularly studied the patho-genesis of chronic lymphocytic leukaemia. We have also observed that a subpopulation of stromal cells, the mesenchymal cells are of major importance in the microenvironment. In addition, the plasticity of these cells is demonstrated in vitro and we have currently a research program investigating its differentiation in neural cells. All these observations bring new promises in the treatment of hemopathies but also in some other neurological degenerative diseases.

Sequential high-dose chemotherapy with autologous stem cell support in patients with limited-stage small cell lung cancer

To determine the feasibility and safety of multiple sequential courses of high-dose chemotherapy with peripheral blood progenitor cells (PBSCs) followed by thoracic irradiation (54 Gy) and prophylactic cranial irradiation (PCI 30 Gy) in patients with limited disease (LD) small cell lung cancer (SCLC), six patients received one cycle of conventional-dose chemotherapy followed by four cycles of high-dose chemotherapy with stem cell support. Neither significant adverse side-effects nor treatment mortality were observed. CR and almost CR (> 90%) was obtained in five out of six patients while one patient had a partial response (PR). The median survival was 21.3 months (range 8-34). However, the benefit of the high CR rate and prolonged survival did not result in cure even in these favorable circumstances, because all the patients died of recurrence in the cerebral nervous system. According to our data we stopped this chemotherapy regime because it was not able to prevent cerebral disease.

AC133+ umbilical cord blood progenitors demonstrate rapid self-renewal and low apoptosis

Umbilical cord blood (UCB) provides immediate access to haemopoietic stem/progenitor cells (HSPC) but low cell number restricts use in full adult bone marrow reconstitution. This study investigated early ex vivo expansion kinetics of UCB AC133+ cells (2-4 x 10(4)/ml), mononuclear cells (MNC, 1-2 x 10(6)/ml) and AC133negative cells (AC133(neg), 2-4 x 10(4)/ml) in stroma-free 8 d liquid culture (fetal bovine serum-supplemented Iscove's-modified Dulbecco's medium (IMDM) with either 'K36EG'[c-Kit ligand, interleukin 3 (IL-3), IL-6, erythropoietin, granulocyte colony-stimulating factor] or 'TPOFL' (thrombopoietin, Flt-3 ligand). Cell enumeration, apoptosis assay and AC133/CD34/CD38 antigen immunophenotyping were performed at d 0, 3, 5 and 8. All three cell populations went through a proliferation lag phase between d 3 and d 5. AC133+ cells recovered better from lag phase with significantly higher fold increase (FI) when compared with MNC and AC133(neg) populations (K36EG FI: 15.04 +/- 5.46; TPOFL FI: 8.59 +/- 2.92, P < 0.05). After 8 d, populations lacking AC133+ cells were significantly more inclined to undergo apoptosis under proliferative conditions (P < 0.01). Also, when compared with K36EG, 8 d TPOFL-expanded AC133+ cells encompassed a significantly higher percentage of AC133+ and CD34+ early HSPC (K36EG: 20.50 +/- 2.36; TPOFL: 47.00 +/- 7.69; P < 0.05). In conclusion, TPOFL synergism demonstrated the potential for AC133+ HSPC ex vivo expansion inducing self-renewal, early HSPC maintenance and promoting cell survival status.

[New developments in hematopoietic stem cell transplantation]

Transplantation of hematopoetic stem cells is established therapy today. It includes transplants from bone marrow, peripheral blood or cord blood. Leukemias, lymphoproliferative disorders, aplastic anemia and congenital disorders of the bone marrow are main indications for allogeneic, lymphoproliferative disorders, leukemias, solid tumors and severe autoimmune disorders main indications for autologous transplants. New developments, such as reduced intensity conditioning approaches and selective donor lymphocyte infusions open the procedure to older patients and to those with coexisting other morbidities. Whenever possible, the transplant is integrated into the treatment plan from diagnosis. The individual risk profile determines choice of procedure and time point. Diagnosis and age as sole criteria no longer suffice. Hematopoetic stem cell transplantation might serve in the future as a model for stem cell transplants for other organs.

Predictive value of circulating immature cell counts in peripheral blood for timing of peripheral blood progenitor cell collection after G-CSF plus chemotherapy-induced mobilization

BACKGROUND

Enumeration of CD34+ cells in peripheral blood (PB) before apheresis predicts the number of CD34+ cells collected, although flow cytometric techniques used are complex and expensive. In an attempt to determine the optimal timing for peripheral blood progenitor cell (PBPC) collection, the usefulness of circulating immature cell (CIC) counts in PB was evaluated.

STUDY DESIGN AND METHODS

CIC counts in PB and CD34+ cell counts in the apheresis product from 249 collections were assessed, and the relationship between these two parameters was evaluated by with the Pearson rank correlation analysis, the Fisher exact test, and the U-test.

RESULTS

CIC counts were correlated significantly with the number of CD34+ cells per kg of patient's body weight in the apheresis product (Pearson rank correlation analysis: r = 0.635, p < 0.0001). When a level of 1 x 10(9) CICs per L was selected as a cutoff value, the sensitivity and specificity for collecting more than 1 x 10(6) CD34+ cells per kg of body weight were 75.7 and 85.5 percent, respectively.

CONCLUSION

The present study strongly suggests that the number of CICs in PB may estimate the number of CD34+ cells collected. The data indicate that CIC counts above 1 x 10(9) per L can be used as a good predictor for PBPC collections containing more than 1 x 10(6) CD34+ cells per kg of body weight in a single apheresis procedure.

Stem cells--clinical application and perspectives

BACKGROUND

Augmentation of myocardial performance in experimental models of therapeutic infarction and heart failure has been achieved by transplantation of exogenous cells into damaged myocardium. The quest for suitable donor cells has prompted research into the use of both embryonic stem cells and adult somatic stem cells.

MULTIPOTENT SOMATIC STEM CELLS

Recently, there has been a growing body of evidence that multipotent somatic stem cells in adult bone marrow exhibit tremendous functional plasticity and can reprogram in a new environmental tissue niche to give rise to cell lineages specific for new organ site. This phenomenon has made huge impact on myocardial biology, while multipotent adult bone marrow hematopoeitic stem cells and mesechymal stem cells can repopulate infarcted rodent myocardium and differentiate into both cardiomyocytes and new blood vessels.

CONCLUSION

These data, coupled with the identification of a putative primitive cardiac stem cell population in the adult human heart, may open the way for novel therapeutic modalities for enhancing myocardial performance and treating heart failure.

Stem cell transplantation and hematopoietic growth factors

Hematopoietic growth factors are commonly used in allogeneic and autologous stem cell transplantation. The growth factors most frequently used are human recombinant erythropoietin, filgrastim, and sargramostim, and a number of trials have been done using them either singly or in various combinations for mobilization, post-transplant, and for delayed engraftment. Filgrastim and sargramostim can shorten the neutropenic period and decrease infectious complications post-transplant, thus lowering the cost of both autologous and allogeneic transplants. Erythropoietin has not been particularly effective for mobilization, and studies have not shown its efficacy in reducing red blood cell transfusions in autologous transplants. However, they have been clinically beneficial in allogeneic transplantation and in delayed erythropoiesis post-transplantation. Stem cell factor remains investigational at this time but seems promising. The new long-acting erythropoietin and filgrastim are also introduced here and briefly discussed.

Tumor necrosis factor-alpha inhibits generation of glycophorin A+ cells by CD34+ cells

OBJECTIVE

The inhibitory effects of tumor necrosis factor-alpha (TNF-alpha) on cytokine-induced proliferation and differentiation of normal human erythroid progenitors have been characterized extensively, yet little is known about the maturation level of erythroid progenitors that are sensitive to TNF-alpha or of the expression of TNF receptors (TNFRs) in erythroid lineage. The aim of this study was to determine the extent to which human erythroid progenitor cells are sensitive to TNF-alpha, and to relate this to the expression of TNFRs in the erythroid lineage.

MATERIALS AND METHODS

Highly purified human CD34+ cells underwent erythroid differentiation, with or without TNF-alpha. We used colony assay as well as a method by which colony-forming unit-erythroid (CFU-E) and glycophorin A (GPA; a specific marker for erythroid lineage) positive cells can be generated in liquid phase from purified human CD34+ cells in the presence of multiple cytokines, including stem cell factor (SCF), interleukin-3 (IL-3), and erythropoietin (EPO). During erythroid differentiation of CD34+ cells, TNFRs expression were monitored.

RESULTS

TNF-alpha inhibited the generation of GPA+ cells by CD34+ cells as well as the proliferative capacity of GPA+ cells supported by EPO, IL-3, and SCF. Erythroid progenitors became resistant to the inhibitory effect of TNF-alpha as they matured. The detectable expression of TNFR-I was transient in the early phase of erythroid differentiation, whereas TNFR-II was expressed through the entire course of erythroid differentiation of CD34+ cells.

CONCLUSIONS

TNF-alpha suppresses erythropoiesis by inhibiting the generation of GPA+ cells derived from CD34+ cells as well as by inhibiting the proliferative capacity of GPA+ cells. Although the presence of TNFRs does not directly indicate that the receptor(s) mediates death signaling, altered expression of TNFRs depending on the level of maturation may imply altered sensitivities to TNF-alpha in various stage of erythroid progenitors.

Collection of peripheral blood stem cells in newly diagnosed myeloma patients without any prior cytoreductive therapy: the first step towards an 'operational cure'?

We have shown that primary therapy with non-myeloablative (140 mg/m(2)) high-dose melphalan (HDM) without hematopoietic support results in high response rates in untreated myeloma and very long-term survival of some patients. This study was designed to see if sufficient CD34 (+) cells can be harvested at presentation in newly diagnosed patients to administer myeloablative HDM (200 mg/m(2); HDM200) with autograft as primary therapy. This may improve outcome by rapid achievement of complete remission (CR) and possible avoidance of late myelodysplasia as a consequence of non-transplant induction chemotherapy. Thirty untreated patients received 1 g/m(2) methylprednisolone daily (days 1-6) and 12-16 micro g/kg G-CSF daily (days 3-6), and underwent leukapheresis on days 6 and 7. The median CD34(+) cell yield was 1.31 x10(6)/kg (range, 0.23-5.63), and was > or =1 x10(6)/kg in 73%. Cell yields were significantly lower than in 82 historical controls apheresed after completion of induction chemotherapy (median 2.16 x 10(6)/kg), and improved in patients who were apheresed again after induction chemotherapy. Three patients received primary therapy with HDM200 and autograft using these cells and attained CR. We conclude that it is possible to harvest stem cells in three-quarters of untreated myeloma patients. Increasing the number of apheresis procedures is needed to improve the number of CD34(+) cells collected.

Treatment for the decline of ionized calcium levels during peripheral blood progenitor cell harvesting

BACKGROUND

ACD-A solution containing sodium citrate and citric acid is used as an anticoagulant agent during peripheral blood progenitor cell (PBPC) harvesting, and in rare cases can cause fatal citrate intoxication. The aim of this study was to establish effective methods for stabilizing ionized calcium (ICa) levels during PBPC harvesting.

STUDY DESIGN AND METHODS

ICa was measured during 46 apheresis procedures conducted in 26 patients. Four patients in four procedures were infused with calcium gluconate solution before PBPC harvesting; three patients in six procedures were infused with calcium gluconate when symptoms of citrate intoxication appeared; and four patients in five procedures received a continuous infusion. Five patients in five procedures took an isotonic sports drink containing calcium when hypocalcemic symptoms appeared. The ICa level, blood pressure, and pulse rate were measured.

RESULTS

ICa declined rapidly from the preapheresis level of 1.081(+/-0.092) mM to 0.937(+/-0.081) mM (13.3%, p < 0.0001) 10 minutes after the start of apheresis and continued to decline until the completion of the procedure. When patients received a continuous infusion of calcium during apheresis, ICa was relatively stabilized. ICa significantly rose (6.1 +/- 3.6%, p < 0.02) within 2 to 5 minutes after oral intake of an isotonic sports drink containing calcium and was maintained within normal range for 31 to 55 minutes.

CONCLUSION

An isotonic sports drink containing calcium has a quick stabilizing and a longer maintenance effect on ICa. Thus, we recommend the intake of an isotonic sports drink containing calcium as the easiest and best method for preventing hypocalcemia during apheresis.