A systematic review of calcium channel antagonists in bipolar disorder and some considerations for their future development.

l-type calcium channel (LTCC) antagonists have been used in bipolar disorder for over 30 years, without becoming an established therapeutic approach. Interest in this class of drugs has been rekindled by the discovery that LTCC genes are part of the genetic aetiology of bipolar disorder and related phenotypes. We have therefore conducted a systematic review of LTCC antagonists in the treatment and prophylaxis of bipolar disorder. We identified 23 eligible studies, with six randomised, double-blind, controlled clinical trials, all of which investigated verapamil in acute mania, and finding no evidence that it is effective. Data for other LTCC antagonists (diltiazem, nimodipine, nifedipine, methyoxyverapamil and isradipine) and for other phases of the illness are limited to observational studies, and therefore no robust conclusions can be drawn. Given the increasingly strong evidence for calcium signalling dysfunction in bipolar disorder, the therapeutic candidacy of this class of drugs has become stronger, and hence we also discuss issues relevant to their future development and evaluation. In particular, we consider how genetic, molecular and pharmacological data can be used to improve the selectivity, efficacy and tolerability of LTCC antagonists. We suggest that a renewed focus on LTCCs as targets, and the development of 'brain-selective' LTCC ligands, could be one fruitful approach to innovative pharmacotherapy for bipolar disorder and related phenotypes.

The group II metabotropic glutamate receptor 3 (mGluR3, mGlu3, GRM3): expression, function and involvement in schizophrenia.

Group II metabotropic glutamate receptors (mGluRs) comprise mGluR2 (mGlu2; encoded by GRM2) and mGluR3 (mGlu3; encoded by GRM3) and modulate glutamate neurotransmission and synaptic plasticity. Here we review the expression and function of mGluR3 and its involvement in schizophrenia. mGluR3 is expressed by glia and neurons in many brain regions and has a predominantly presynaptic distribution, consistent with its role as an inhibitory autoreceptor and heteroceptor. mGluR3 splice variants exist in human brain but are of unknown function. Differentiation of mGluR3 from mGluR2 has been problematic because of the lack of selective ligands and antibodies; the available data suggest particular roles for mGluR3 in long-term depression, in glial function and in neuroprotection. Some but not all studies find genetic association of GRM3 polymorphisms with psychosis, with the risk alleles also being associated with schizophrenia-related endophenotypes such as impaired cognition, cortical activation and glutamate markers. The dimeric form of mGluR3 may be reduced in the brain in schizophrenia. Finally, preclinical findings have made mGluR3 a putative therapeutic target, and now direct evidence for antipsychotic efficacy of a group II mGluR agonist has emerged from a randomised clinical trial in schizophrenia. Together these data implicate mGluR3 in aetiological, pathophysiological and pharmacotherapeutic aspects of the disorder.

CTLA-4 blockade by a human MAb enhances the capacity of AML-derived DC to induce T-cell responses against AML cells in an autologous culture system.

BACKGROUND: Cells from AML patients can differentiate into the phenotype of DC when cultured with GM-CSF and IL-4. Such cytokine-treated AML-derived DC (AML-DC) can stimulate autologous T cells. In this study we examined whether an anti-CTLA-4 MAb (MDX-010) could enhance the generation of autologous anti-AML T cells. METHODS: MAb MDX-010 was added to AML PBMC cultures in the presence of GM-CSF and IL-4, a previously reported AML-DC culture method of generating anti-AML T cells. T-cell activation and proliferation were examined thereafter. RESULTS: Addition of MDX-010 to GM-CSF/IL-4-conditioned AML-DC cultures induced a mean seven-fold increase in the numbers of autologous T cells compared with cultures without MDX-010 (P < 0.007). T cells stimulated by AML-DC with CTLA-4 blockade were significantly more cytotoxic towards autologous AML cells than those without MDX-010 (42 +/- 23% vs. 26 +/- 15%, E:T ratio of 20). T cells stimulated by AML-DC with CTLA-4 blockade had significantly greater proportions of T cells producing IFN-gamma in response to autologous AML cells than those cultured with AML-DC alone (10.7 +/- 4.7% vs. 4.5 +/- 2.4% for CD4+ IFN-gamma+ CD69+ and 9.8 +/- 4.1% vs. 4 +/- 2.1% for CD8+ IFN-gamma+ CD69+ with or without MDX-010; n = 7; P < 0.007, P < 0.003, respectively). DISCUSSION: CTLA-4 blockade enhances the activity and numbers of AML-reactive T cells that can be stimulated by autologous AML-DC and may enhance the efficacy of adoptive immunotherapy of AML.

Improving the efficiency of PBPC collection by pre-apheresis peripheral blood and mid-apheresis product measurements of CD34 cells.

BACKGROUND: The adequacy of HPC collection for BMT is typically assessed by the number of CD34 cells. However, during a series of leukapheresis procedures (LP) the CD34 value on the final HPC product may not be available for testing until late evening, sometimes resulting in additional, retrospectively unnecessary, LP in order to ensure an adequate HPC collection (>5x10(6) CD34/kg). We hypothesized that an estimate of the CD34 content of HPC products prior to 16:00 h on the day of LP would permit improved HPC collection planning. We therefore assessed the effectiveness of predicting the total amount of CD34 cells that would be collected in a given LP by either (a) the concentration of CD34 cells/microL in peripheral blood prior to LP (pre-CD34) or (b) the predicted total amount of CD34 cells to be collected based on sampling the LP product at the mid-point of each LP. We also compared the number of LP per patient and total HPC collected for the study group with data from the previous calendar year. METHODS: Allogeneic and autologous BMT donors who completed a 20-L HPC collection between September 2002 and February 2003 were eligible. CD34 cells were measured on blood drawn prior to LP and from the HPC product at the mid-point (10 L) of LP. The CD34 content of the final LP was predicted by doubling the value of total CD34 cells at the mid-run (MRp-CD34). The MRp-CD34/kg and the cumulative CD34/kg collected were made available before 16:00 h and used to determine the need for additional LP. The true CD34 content of each HPC collection was also measured from the final product the next day (CD34-FP). RESULTS: A 20-L LP was completed and data were available from 31 patients and nine allogeneic donors who underwent a total of 85 LP for diagnoses, including 11 myeloma, 10 lymphoma, seven HD, three acute leukemia and five others. The mean (range) and correlation (R2) vs. the CD34-FP were, for pre-CD34, 54 CD34/microL (0.3-232), R2=0.66 (P<0.01), and for MRp-CD34, 3.2x10(6) CD34/kg (0.04-22.48), R2=0.90 (P<0.01). The mean number of CD34/kg collected per LP in the patients/donors was 3.4x10(6) CD34/kg (0.05-18.94). The median number of CD34 cells employed for transplant in the study group vs. controls (5.7 vs. 5.6x10(6)/kg) and the time to engraftment of neutrophils (12 vs. 11 days) and platelets (12 vs. 12 days) was similar to historical controls. However, the study group had a significantly lower median number of LP (three vs. two; P<0.02) to obtain the required collection of 5x10(6) CD34 cells/kg. DISCUSSION: Both the pre-CD34 and the MRp-CD34 were significantly correlated with CD34-FP. However, the CD34-FP was more reliably predicted by MRp-CD34. Early availability of mid-run CD34 values was associated with a significant reduction in the number of LP required to collect 5x10(6) CD34 cells/kg, without reduction in the number of CD34 cells for transplant or prolongation of days to neutrophil or platelet engraftment.

Leukocyte-reduced red blood cell transfusions in patients with anemia and human immunodeficiency virus infection: the Viral Activation Transfusion Study: a randomized controlled trial.

CONTEXT: Allogeneic blood transfusions have immunomodulatory effects and have been associated with activation of human immunodeficiency virus (HIV) and cytomegalovirus (CMV) in vitro and of HIV in small pilot studies. Retrospective studies suggest that transfusions adversely affect the clinical course of HIV. Data in selected non-HIV-infected patients requiring blood transfusion have suggested clinical benefit with leukocyte-reduced red blood cells (RBCs). OBJECTIVE: To compare the effects of leukoreduced and unmodified RBC transfusions on survival, complications of acquired immunodeficiency syndrome, and relevant laboratory markers in HIV-infected patients. DESIGN AND SETTING: Double-blind randomized controlled trial conducted in 11 US academic medical centers from July 1995 through June 1999, with a median follow-up of 12 months (24 months in survivors). PATIENTS: A total of 531 persons infected with HIV and CMV, aged 14 years or older, who required transfusions for anemia; 259 received leukoreduced transfusions and 262 received unmodified transfusions (10 did not receive the planned transfusion). MAIN OUTCOME MEASURES: Survival and change in plasma HIV RNA level 7 days after transfusion, compared by type of transfusion. RESULTS: At entry, the groups were similar in demographic, clinical, and relevant laboratory characteristics. A total of 3864 RBC units were transfused. Two hundred eighty-nine deaths occurred (151 with leukoreduced transfusion; 138 with unmodified transfusion); median survival was 13.0 and 20.5 months, respectively (relative hazard [RH], 1.20; 95% confidence interval [CI], 0.95-1.51; log-rank P =.12). Analyses adjusted for prognostic factors suggested possible worse survival with leukoreduction (RH, 1.35; 95% CI, 1.06-1.72). There was no difference in time to new opportunistic event/death or frequency of transfusion reactions. No changes in plasma HIV RNA level were seen in either group at days 7, 14, 21, or 28, even in patients not taking antiretroviral drugs. There were no differences in trends between groups in CMV DNA, CD4 cell counts, activated (CD38% or human leukocyte antigen-DR) CD8 cell counts, or plasma cytokine levels. CONCLUSIONS: We found no evidence of HIV, CMV, or cytokine activation following blood transfusion in patients with advanced HIV infection. Leukoreduction provided no clinical benefit in these patients. These data demonstrate the importance of conducting controlled studies of effects of leukoreduction in different patient populations, since smaller studies in other patient populations have suggested leukoreduction may be beneficial.

A phase II study of two cycles of high-dose chemotherapy with autologous stem cell support in patients with metastatic breast cancer who meet eligibility criteria for a single cycle.

Multi-cycle high-dose chemotherapy with autologous stem cell support (HDC-ASCS) may improve the results obtained with single-cycle HDC-ASCS in metastatic breast cancer (MBC). However, the tolerability and efficacy of additional cycles of HDC-ASCS in patients selected using standard eligibility criteria for single cycle HDC-ASCS is uncertain. Twenty-nine patients with MBC and a CR or PR to induction chemotherapy were selected by standard institutional eligibility criteria for single-cycle HDC-ASCS. Cycle 1 HDC-ASCS (cyclophosphamide 6 g/m2; mitoxantrone 70 mg/m2; carboplatin 800 mg/m2) was followed by a planned second cycle (etoposide 1.6 g/m2; thiotepa 800 mg/m2; carboplatin 800 mg/m2 modulated by tamoxifen 120 mg/m2/day x 5 days) with a median interval of 3.2 months. CR rate was 20% after induction chemotherapy and 33% and 54% after HDC cycles I and II, respectively. Sixteen patients (55%) failed to complete HDC cycle II within 200 days because of disease progression, toxicity, inadequate stem cell collection, insurance denials or patient choice. Median progression-free survival (PFS) for all 29 patients entered is 301 days from date of HDC cycle I and actuarial PFS at 2 years is 35%. For the 13 patients who received the two cycles of HDC-ASCS, actuarial PFS at 2 years was 54% (P = NS compared to those receiving only one cycle). These data show that a second cycle of full-dose intensity HDC-ASCS may increase the proportion of patients with MBC that achieve CR and may increase PFS. However, a large proportion of patients that complete HDC-ASCS cycle I may fail to proceed to cycle II in a timely fashion. Bone Marrow Transplantation (2000) 25, 519-524.

Immune response to blood transfusion invery-low-birthweight infants.

BACKGROUND: Allogeneic blood transfusion is common in the treatment of neonatal anemia of prematurity or anemia due to multiple phlebotomies. The immune response of neonates to passenger leukocytes from allogeneic red cells was investigated. STUDY DESIGN AND METHODS: Fourteen infants (4 male, 10 female) prospectively were randomly assigned to receive either white cell-reduced (Group 1) or non-white-cell reduced (Group 2) irradiated blood. Blood samples were taken before and at various time intervals after transfusion (Days 1, 5-7,and 10-14). Cord blood from 11 healthy term infants was used for comparison. The following surface markers were used to assess immune modulation by flow cytometry: CD45RA/CD45RO, CD4/CD8, CD25/CD28, CD3/DR, CD14/B7, and CD3/CD56+CD16. Donor cell microchimerism was studied using semi-quantitative polymerase chain reaction Y-chromosome detection in female infants who received male donor blood. Donor and recipient HLA class II typing was performed with polymerase chain reaction with sequence specific primers. RESULTS: The lymphocyte counts in both groups were significantly increased after transfusion, and there was a significant increase in lymphocytes expressing CD45RA, CD3-/CD16+CD56, CD80, and CD3-/DR on Day 14. The premature infants' pretransfusion natural killer cell population (CD3-/CD16+CD56) was significantly lower than that of term infants, but it reached a similar level by Days 10-14. CD8 subpopulations were increased but not CD4+ cells. Two female infants (of 6) had circulating Y chromosomes 1 day after transfusion, and most of the infants effectively cleared the donor cells within 24 hours of transfusion. Two Group 2 infants who by chance received presumably HLA-haploidentical donor blood developed necrotizing enterocolitis. CONCLUSION: Blood transfusion alters immune cell antigen expression in premature neonates and may initially be immunostimulatory and later immunosuppressive.

Simultaneous administration of G-CSF and GM-CSF for re-mobilization in patients with inadequate initial progenitor cell collections for autologous transplantation.

BACKGROUND: A proportion of candidates for high-dose chemotherapy with autologous PBPC support (HDC-PBPCS) will not provide an adequate PBPC yield from their first mobilization. The value of re-mobilization and the best regimen for re-mobilization in these patients is unclear. METHODS: In 23 patients who failed to provide > or = 3 x 10(6) CD34+ cells/kg after their first mobilization, PBPC were re-mobilized using a regimen of simultaneous administration of G-CSF and GM-CSF (10 microg/kg/day each) with leukaphereses (LP) starting Day 4 or 5 of CSF administration. Yields of WBC/kg, MNC/kg and CD34+ cells/kg/L of processed blood were compared between the first and second mobilization in each patient. The ability of the combined yield from the two mobilizations to achieve the desired threshold PBPC yield and the tolerability of the re-mobilization were determined. RESULTS: The re-mobilization regimen was well-tolerated and no patient discontinued the regimen because of toxicity. Median collected WBC/kg/L (1.37 x 10(7) versus 2.62 x 10(7), p = 0.0065), MNC/kg/L (0.77 x 10(7) versus 1.97 x 10(7), p = 0.0003), CD34+ cells/kg/L (1.64 x 10(7) versus 4.18 x 10(7), p = 0.001) were significantly higher after the second mobilization (G-CSF/GM-CSF combination). Percentage of CD34+ cells in the leukapheresis was also significantly higher after the second mobilization (median 0.104% versus 0.195%, p = 0.036). Twelve of 22 patients achieved the target PBPC dose (> 3 x 10(6)/CD34+ cells/kg) after two mobilizations (six patients achieved the target from the second mobilization alone). A further eight underwent HDC-PBPCS without achieving the target PBPC dose. These patients experienced a significant delay in neutrophil and platelet engraftment when compared with those patients achieving the target dose. DISCUSSION: This study demonstrates that the combination of G-CSF and GM-CSF is an effective and tolerable method for re-mobilization of PBPC in patients who fail to provide an adequate yield from their first mobilization.

Mobilization of blood-derived stem and progenitor cells in normal subjects by granulocyte-macrophage- and granulocyte-colony-stimulating factors.

BACKGROUND: It was previously reported that the combination of granulocyte-macrophage-colony-stimulating factor (GM-CSF) and granulocyte-CSF (G-CSF) for 4 days mobilized more primitive CD34+ subsets than did either G-CSF or GM-CSF alone. STUDY DESIGN AND METHODS: The studies determine the optimal number of days of growth factor dosing for mobilization and collection of peripheral blood progenitor cells, by increasing the days of administration of GM-CSF and/or G-CSF or employing the sequential administration of GM-CSF followed by G-CSF. Sixty normal subjects were given injections of G-CSF or GM-CSF alone; GM-CSF and G-CSF concurrently for 4, 5, or 6 days; or a sequential regimen of GM-CSF for 3 or 4 days followed by G-CSF for 2 or 3 days. A 10-L apheresis was performed 24 hours after the last dose. RESULTS: The three most efficacious mobilization regimens consisted of sequential GM-CSF for 3 days followed by G-CSF for either 2 or 3 days and G-CSF alone for 5 days. Each of these regimens resulted in the collection of significantly greater numbers of CD34+ cells by apheresis than any of the 4-day dosing regimens with G-CSF and/or GM-CSF (sequential GM-CSF/G-CSF: 3 days/2 days = 3.58 +/- 0.53 x 106 CD34+ cells/kg; GM-CSF/G-CSF: 3 days/3 days = 4.45 +/- 1.08 x 10(6) CD34+ cells/kg; G-CSF: 5 days = 3.58 +/- 0.97 x 10(6) CD34+ cells/kg; all p<0.05 vs. G-CSF and/or GM-CSF for 4 days). Clonogenic assays generally paralleled the level of CD34+ cells. Regimens containing GM-CSF resulted in a higher percentage of the cells from primitive CD34+/CD38-/HLA-DR+ subset than G-CSF alone. CONCLUSION: Compared with 4-day dosing regimens with G-CSF and/or GM-CSF, mobilization of CD34+ cells in normal subjects using sequential GM-CSF for 3 days followed by G-CSF for 2 or 3 days or using G-CSF alone for 5 days increased the number CD34+ cells that can be collected by a single 10-L apheresis 24 hours after the last dose of cytokine.

Mobilization of peripheral blood progenitor cells for human immunodeficiency virus-infected individuals.

Gene therapy is becoming one of the most promising modalities for the treatment of acquired immunodeficiency syndrome. The purpose of this study was to investigate the mobilization and collection of peripheral blood progenitor cells from human immunodeficiency virus (HIV)-infected individuals using granulocyte colony-stimulating factor (G-CSF). A total of 10 patients (9 male, 1 female; median age 36.5 years) with varying circulating CD4+ cell counts (13.9-1467/microL) were administered 10 microg/kg G-CSF daily for 6 days. Peripheral white blood cells (WBCs), CD34+ cell counts, lymphocyte subsets, and plasma viremia were monitored before each G-CSF injection. An average sixfold increase in WBCs was observed, which stabilized on day 4 or thereafter. The level of CD34+ cells was increased by 20-fold, and did not differ between days 5 and 6. Smaller increases in CD4+, CD8+, and CD4+CD8+ cells were observed. HIV viral load, as measured by RNA copy number in plasma, was not significantly altered by G-CSF administration. The leukapheresis product (LP), collected on day 7, contained an average of 6.25+/-4.52 (mean +/- standard deviation) x 10(10) WBCs and 3.08+/-2.98 x 10(6) CD34+ cells/kg. The levels of different CD34+ cell subsets were similar to those in the LPs of G-CSF-mobilized healthy individuals from an earlier study. Primitive hematopoietic cells (CD38- and CD38-HLA-DR+ cells) were detected in LPs (1.19+/-0.46% and 0.87+/-0.23%, respectively, of CD34+ cells). All parameters (WBC counts, lymphocyte populations, CD34+ cells, and HIV-1 RNA copies) measured 3 weeks after leukapheresis returned to baseline values. The administration of G-CSF was well tolerated by the HIV patients; side effects included bone pain, headache, flulike symptoms, and fatigue. There were no correlations between baseline CD4+ cell count and the WBCs, mononuclear cells, or CD34+ cells collected in the LP. Similarly, no correlation existed between baseline CD4+ and CD34+ cells, peak CD34+ cells, or days to achieve peak CD34+ cell counts after G-CSF mobilization. Our results showed that: (1) maximal mobilization can be achieved after 4 days of G-CSF administration; (2) therapeutic quantities of hematopoietic cells can be collected and used for gene therapy; and (3) G-CSF administration is well tolerated and does not cause a clinically significant increase in viremia.

A novel strategy to limit blood donor exposure and blood waste in multiply transfused premature infants.

UNLABELLED: Small, premature infants require frequent small-volume transfusions. Traditional methods of transfusion expose these infants to multiple blood donors. It has recently been demonstrated that multiple donor exposures can be safely prevented in these infants by the assignment of fresh units to them and by the use of a sterile connecting device to remove blood for transfusion, as needed until the expiration of the unit. However, the program resulted in the wasting of approximately 60 percent of the blood in each unit. STUDY DESIGN AND METHODS: To minimize blood waste without compromising the goal of limiting donor exposure, a model designed to predict each infant's transfusion requirements was investigated. The model assigned infants predicted to have high transfusion requirements to receive blood from a unit dedicated to their individual use. All other infants were assigned to receive blood from a unit that could be shared among as many as four similar infants. Infant donor exposure and blood unit wastage after institution of the infant assignment model were compared with the same measurements obtained before the use of the model, during which time infants were assigned to dedicated units at the discretion of the physician. RESULTS: The numbers of transfusions per infant (3.5 +/- 2.3) and of donor exposures per infant (1.5 +/- 0.7) under the assignment model were unaltered from those in controls (4.1 +/- 2.9 transfusions and 1.6 +/- 0.8 donor exposures); however, there was significantly less blood wastage in the group assigned to shared units (32 +/- 28%) than in the group assigned to dedicated units (62 +/- 17%; p < 0.05) or than was seen in an earlier study (60 +/- 23% wasted; p < 0.05). CONCLUSION: Improved management of blood resources can be achieved within the context of a transfusion program designed to safely limit donor exposure in infants who require frequent transfusion.

Stem cells as vehicles for gene therapy: novel strategy for HIV infection.

Restoration of bone marrow and immune function by means of allogeneic bone marrow transplantation has been attempted in AIDS patients but has not been successful as the donor-derived cells, or their progeny, inevitably became infected. A hairpin ribozyme that specifically cleaves HIV-1 RNA has been developed by F. Wong-Staal et al. and has been demonstrated to confer resistance against HIV-1 infection. Allogeneic transplantation of CD34+ cells or their pluripotent subsets, transduced by vectors bearing this ribozyme gene, can protect the stem cells and their progeny from HIV-1 infection and eventually restores immune function. We have provided evidence that long-term repopulating stem cells can be mobilized into peripheral blood by growth factors. The combination of G-CSF and GM-CSF seems to yield a high frequency of pluripotent stem cells with a CD34+ subset profile that is similar to placental and umbilical cord blood (PUCB). We have then demonstrated a highly efficient transduction of CD34+ cells from PUCB and mobilized leukapheresis products by retroviral vectors bearing the ribozyme gene. Expression of the ribozyme gene, as shown by reverse transcriptase-polymerase chain reaction, was of similar magnitude (70%-90% of cells that grow into colonies). Challenge of the progeny macrophages from such transduced CD34+ cells with monocyte-trophic strains of HIV-1 showed that they were resistant to infection. Thus allogeneic transplantation of CD34+ cells or their pluripotent subsets, transduced with ribozyme gene, can be a promising strategy for the treatment of HIV infection.

Perfluorochemical-based artificial oxygen carrying red cell substitutes.

There has been rapid progress in research on artificial oxygen-carrying red blood cell substitutes composed of perfluorochemical emulsions (PFE). PFE are capable of delivering significant amounts of oxygen to tissues, but FDA approval is given for routine human use they must first overcome concerns regarding adverse effects and then clearly demonstrate efficacy in human trials. Infusion of the first commercial product used in humans, Fluosol-DATM, which contained a relatively low concentration of perfluorochemical, was associated with immediate adverse effects in some individuals and failed to demonstrate efficacy in a prospective clinical trial. A second generation PFE artificial oxygen carrier, Oxygent-HTTM, should be more effective since it carries five-fold more oxygen than Fluosol, does not require mixing, and is more stable. Initial clinical trials of this and other second generation PFE were accompanied by mild, transient flu-like side effects. PFE are also being investigated for regional organ perfusion, tumor oxygenation prior to radiotherapy, contrast imaging, and for liquid ventilation of infants with respiratory distress syndrome. The development of a safe, effective, artificial oxygen carrier at reasonable cost will have a major effect on transition practice. Since PFE have a brief intravascular survival they are unlikely to supplant the use of red blood cells in treatment of anemia.

Harvesting and enrichment of hematopoietic progenitor cells mobilized into the peripheral blood of normal donors by granulocyte-macrophage colony-stimulating factor (GM-CSF) or G-CSF: potential role in allogeneic marrow transplantation.

To explore the use of stem/progenitor cells from peripheral blood (PB) for allogeneic transplantation, we have studied the mobilization of progenitor cells in normal donors by growth factors. Normal subjects were administered either granulocyte-macrophage colony-stimulating factor (GM-CSF) at 10 micrograms/kg/d, or G-CSF at 10 micrograms/kg/d, or a combination of G- and GM-CSF at 5 micrograms/kg/d each, administered subcutaneously for 4 days, followed by leukapheresis on day 5. Mononuclear cells expressing CD34 (CD34+ cells) were selectively enriched by affinity labeling using Dynal paramagnetic microspheres (Baxter Isolex; Baxter Healthcare Corp, Santa Ana, CA). The baseline CD34+ cells in peripheral blood before mobilization was 0.07% +/- 0.05% (1.6 +/- 0.7/microL; n = 18). On the fifth day after stimulation (24 hours after the fourth dose), the CD34+ cells were 0.99% +/- 0.40% (61 +/- 14/microL) for the 8 subjects treated with G-CSF, 0.25% +/- 0.25% (3 +/- 3/microL, both P < .01 v G-CSF) for the 5 subjects administered GM-CSF, and for the 5 subjects treated with G- and GM-CSF, 0.65% +/- 0.28% (41 +/- 18/microL, P < .5 v GM-CSF). Parallel to this increase in CD34+ cells, clonogenic assays showed a corresponding increase in CFU-GM and BFU-E. The total number of CD34+ cells collected from the G-CSF group during a 3-hour apheresis was 119 +/- 65 x 10(6) and was not significantly different from that collected from the group treated with G- and GM-CSF (101 +/- 35 x 10(6) cells), but both were greater than that from the group treated with GM-CSF (12.6 +/- 6.1 x 10(6); P < .01 for both comparisons). Analysis of the CD34+ subsets showed that a significantly higher percentage of cells with the CD34+/CD38- phenotype is found after mobilization with G- and GM-CSF. In the G-CSF group, immunomagnetic selection of CD34+ cells permitted the enrichment of the CD34+ cells in the apheresis product to 81% +/- 11%, with a 48% +/- 12% yield and to a purity of 77% +/- 21% with a 51% +/- 15% recovery in the G- and GM-CSF group. T cells were depleted from a mean of 4.5 +/- 2.0 x 10(9) to 4.3 +/- 5.2 x 10(6) after selection, representing 99.9% depletion. We conclude that it is feasible to collect sufficient numbers of PB progenitor cells from normal donors with one to two leukapheresis procedures for allogeneic transplantation.(ABSTRACT TRUNCATED AT 250 WORDS)

Leukocyte depletion of cellular blood components.

Clinical studies have indicated that the use of leukocyte-reduced cellular blood components produced in the laboratory may prevent febrile reactions and delay or prevent alloimmunization to HLA antigens and refractoriness to platelet transfusion. Additional investigations regarding the effects of the use of leukocyte-reduced blood components were reported during the past year. A recent study in patients with hematologic malignancy that employed the commonly used bedside leukocyte-reduction filters failed to confirm a decrease in the rate of alloimmunization, except in a subgroup of patients with acute myelogenous leukemia. Another major multicenter trial confirmed the effectiveness of leukocyte-reduced blood components in the prevention of cytomegalovirus infection. The effect of allogeneic leukocytes in transfused blood on immune function in patients undergoing colorectal surgery continues to receive attention. Whereas one study failed to demonstrate an adverse effect of standard blood components on disease recurrence or survival, a second study demonstrated a marginally significant decrease in infectious complications in patients who received only leukocyte-reduced blood. Increasingly efficient leukocyte-reduction filters have been developed for cellular blood components, many of which are best suited for laboratory filtration of unstored blood. Laboratory studies indicate that prestorage leukocyte-reduction of cellular blood components does not impair erythrocyte or platelet function and will not increase the incidence of microbial contamination of blood. New methods that employ flow cytometry should enable improved quality control of blood components rendered leukocyte-reduced by the newer, more efficient filters. Finally, a cost-benefit analysis suggests that the appropriate use of leukocyte-reduction filters for acute leukemia patients may reduce the cost of health care to these patients.

Effect of storage and ultraviolet B irradiation on CD14-bearing antigen-presenting cells (monocytes) in platelet concentrates.

BACKGROUND: Ultraviolet B (UVB) irradiation of platelet concentrate (PCs) reduces platelet alloimmunization, but the mechanism of the effect is unclear. Evidence suggests that UVB may downregulate the expression of surface adhesion molecules on passenger antigen-presenting cells in PCs. STUDY DESIGN AND METHODS: The effect of blood bank storage, platelet preparation from whole blood, and UVB irradiation on the quantitative expression of intercellular adhesion molecule-1 (ICAM-1, or CD54), HLA-DR, CD45, and CD11c on CD14-positive antigen-presenting cells (monocytes) was studied by using two-color flow cytometry. RESULTS: Blood bank storage for 4 days resulted in upregulation of ICAM-1 and HLA-DR and downregulation of CD14 but left the expression of CD11c and CD45 unchanged. Preparation of PCs from fresh whole blood was associated with a rapid increase in CD11c without upregulation of ICAM-1 and HLA-DR. UVB irradiation before storage inhibited the upregulation of ICAM-1 and HLA-DR, resulted in accelerated downregulation of CD14, and was associated with increased loss of monocytes. Agitation of the PC bag during irradiation was of critical importance, since omission of agitation resulted in largely uninhibited upregulation of ICAM-1 but was still associated with significantly higher cell loss than that seen in unirradiated controls. CONCLUSION: UVB exposure nonspecifically affects monocytes in PCs, resulting in downregulation of surface molecules that are important for antigen presentation, as well as in significant cell loss.