Poly(vinyl alcohol) synthetic polymer foams as scaffolds for cell encapsulation

Poly(vinyl alcohol) (PVA) foams were used as scaffolds in hollow fiber membrane-based cell encapsulation devices. The surrounding permselective membrane serves as an immunoisolation barrier while allowing metabolites and other small molecules to be freely transported. The internal matrix defines the microenvironment for the encapsulated cells. PC12 cell-containing devices represent one possible strategy for safe transplantation of dopamine-secreting cells for the treatment of dopamine-deficient diseases such as Parkinson's disease. PC12 cells--a dopamine-secreting cell line--were encapsulated with PVA foam as a matrix material in the lumen of these hollow fibers. In this work, we demonstrate the presence of the PVA matrix increased the catecholamine secretion efficiency of the cells as compared to devices containing a chitosan matrix. Devices were implanted in vivo into rodent striatum and device output of catecholamines was measured preimplant and post-explant. Evoked stores of dopamine remained constant (preimplant vs explant) for devices encapsulated with the foam matrix and increased with devices encapsulated with chitosan matrix. Cell proliferation within devices was inhibited in the presence of the foam matrix. Cell viability and distribution was significantly improved with the inclusion of the foam matrix in both in vitro and in vivo studies. In comparison to chitosan--a typical matrix material for PC12 cells--addition of a foam-type matrix altered the encapsulated cell microenvironment and resulted in more efficient secretion of catecholamines and improved distribution within the device resulting in smaller necrotic regions and a lower rate of cell proliferation.     

In vitro stimulation of human peripheral blood B cells from normal individuals by activated T cells increases the efficiency of hybridoma generation

Peripheral blood B cells from normal individuals have been less than ideal as a resource for "fusible" cells for the generation of human hybridoma antibodies. In vitro stimulation of normal peripheral blood B cells by CD4+ T cells (HUT 78) that had been activated by a solid phase anti-CD3 monoclonal antibody (OKT3) was investigated to see if differentiation of B cells would result in an increased pool of B cells that could be immortalized. A comparison of the rate of successful fusion, an estimation of the frequency of the fusible cells from the input peripheral blood, and the amount of immunoglobulin secreted both in vitro, prior to fusion, and by the resulting clones in two different in vitro immunization protocols, with and without activated T cells indicated that inclusion of the activated T cells provided the necessary help to drive the B cells to a fusible state. Stimulation by activated T cells improves the efficiency of generating B cell hybrid clones from peripheral blood 10-fold compared to in vitro immunization with antigen alone.     

Modulation of human T lymphocyte proliferation by 4-hydroxynonenal, the bioactive product of neutrophil-dependent lipid peroxidation

The proliferative capacity of immune cells is known to be sensitive to conditions of oxidative stress and lipid peroxidation. We tested the hypothesis that activated neutrophils can induce peroxidation in extracellular lipid substrates, and evaluated the effects of 4-hydroxy-2,3-trans-nonenal (4-HNE)--the most reactive aldehydic product of lipid peroxidation--on mitogen-induced proliferation of human T lymphocytes. Neutrophils activated in the presence of extracellular lipid substrates (liposomes, cellular membranes) induced lipid peroxidation. By means of cytoimmunofluorescent labeling and confocal microscopy, the binding of 4-HNE to surface and cytoplasmic proteins of activated neutrophils was observed. Short (20 min) pre-treatment of cells with low concentrations of 4-HNE were able to dose-dependently decrease the proliferation of human peripheral blood lymphocytes challenged with PHA or anti-CD3 monoclonal antibody OKT3, as well as the proliferation of a tetanus specific human T-cell line challenged with tetanus toxoid. In these conditions, the binding of 4-HNE to surface and cytoplasmic proteins of lymphocytes was also observed. When the proliferative capacity of peripheral blood lymphocytes was monitored over several days after 4-HNE treatment and PHA challenge, a recovery and a rebound in cell proliferation was observed. Data reported indicate that the lipid peroxidation promoted by activated neutrophils can exert modulatory effects on the responsivity of human T cells, through the action of its most reactive product, 4-HNE.     

Concentration-dependent block of sodium current in guinea pig ventricular myocytes by a class III antiarrhythmic agent, MS-551

The 32P-post-labelling assay for DNA adduct quantification gives the opportunity to examine endogenous exposure to DNA reactive compounds. Most human biomonitoring studies applied white blood cells (WBC) or cells obtained by broncho-alveolar lavages (BAL) as source of DNA, but still it is not clear what cell type represents the most reliable indicator for exposure to cigarette smoke-associated genotoxins. At first, we examined DNA adduct levels by means of nuclease P1 (NP1) enriched 32P-post-labelling in separated WBC subpopulations after in vitro incubations for 18 h with 10 microM benzo[a]pyrene (B[a]P). DNA adduct levels were highest in monocytes (10.7 +/- 2.9 adducts/10(8) nucleotides, n = 8), followed by lymphocytes (5.9 +/- 1.7, n = 8), and granulocytes (0.5 +/- 0.2, n = 8). Secondly, aromatic-DNA adduct levels were determined in BAL cells and WBC-subsets from (non-)smoking volunteers. In smoking individuals, adduct levels were in the ranking order: BAL cells (3.7 +/- 1.0, n = 5) > monocytes (2.0 +/- 0.5, n = 8) > or = lymphocytes (1.6 +/- 0.4, n = 8) > granulocytes (0.8 +/- 0.2, n = 8) by NP1-enrichment and monocytes (9.0 +/- 3.2, n = 5) > or = lymphocytes (8.0 +/- 2.1, n = 6) > granulocytes (2.1 +/- 0.3, n = 7) by butanol-enriched 32P-post-labelling. Aromatic-DNA adduct levels were significantly higher in WBC-subsets of smokers as compared with non-smokers, except for DNA adducts in granulocytes using butanol enrichment. Thirdly, dose-response relationships were investigated in mononuclear white blood cells (MNC, i.e. monocytes plus lymphocytes) and BAL-cells of a larger group of smoking individuals (n = 78). Adduct levels in MNC were related to daily exposure to cigarette-tar (r = 0.31, P < 0.01). Adduct levels in BAL cells seemed to be correlated with pack-years, but after correction for age this relationship was lost. Butanol extraction resulted in 5-6-fold higher DNA adduct levels in MNC, whereas butanol extraction of BAL-DNA of the same individuals yielded only 2-fold higher adduct levels. The two enrichment procedures of 32P-post-labelling were correlated in BAL cells (r = 0.86, P < 0.001, n = 12). We conclude that particularly MNC are good surrogates for the detection of smoking-related DNA adducts.     

Chronically HIV-1-infected monocytic cells induce apoptosis in cocultured T cells

We have previously developed a human macrophage hybridoma model system to study the effect of HIV-1 infection on monocytic function. Upon coculture of one chronically (35 days postinfection) HIV-1-infected human macrophage hybridoma cell line, 43HIV, there was a dose-dependent decrease in the viability of cocultured Ag-stimulated T cells associated with an increase in DNA strand breaks. Enhanced apoptosis was determined by labeling with biotinylated dUTP and propidium iodide, increased staining with annexin V, increased side light scatter and expression of CD95, and decreased forward light scatter and expression of Bcl-2. There was also increased DNA strand breaks as determined by propidium iodide staining in unstimulated T cells cocultured with 43HIV and in T cells stimulated with anti-CD3 mAb and PHA. Pretreatment with 5145, a human polyclonal anti-gp120 Ab that recognizes the CD4 binding region, as well as with an anti-Fas ligand mAb blocked apoptosis in CD4+ T cells but not in CD8+ T cells. A soluble factor with a Mr below 10,000 Da was defined that induced apoptosis in CD4+ and CD8+ T cells and B cells. SDS-PAGE analysis of the active fractions revealed a band of 6000 Da that, after electroelution, had proapoptotic activity. The pI of the activity was estimated to be between 6.5 and 7.0. In conclusion, chronically HIV-1-infected monocytic cells induce apoptosis in bystander-, Ag-, anti-CD3-, and mitogen-stimulated T cells by multiple factors, which may contribute to the depletion of lymphocytes induced by HIV-1.     

T cell activation modulates retrovirus-mediated gene expression

Important considerations for T lymphocyte-based gene therapy include efficient gene delivery and expression in primary, human T cells. In this study, retrovirus-mediated gene transfer and the fate of proviral gene expression were evaluated in human T cells activated using (1) immobilized anti-CD3 monoclonal antibody (MAb) plus interleukin 2, or (2) cis costimulation using beads carrying coimmobilized anti-CD3 and anti-CD28 MAbs. By cross-linking the CD3 and CD28 receptors, these MAbs mimic in vivo signaling events, leading to cytokine production and proliferation. A modified human interleukin 1beta (IL-1beta) cDNA inserted into the MFG retroviral vector served as an indicator gene. Retroviral transduction frequencies were similar for T lymphocytes activated by the respective methods. However, early after MAb stimulation and virus exposure, proviral gene expression was greater at the RNA and protein levels in optimized anti-CD3/anti-CD28 bead-activated T cells, corresponding with augmented endogenous cytokine responses and mitogenesis. Proviral gene expression was not regulated by extrinsic cell factors present in activated T cell supernatants. Regardless of the MAb stimulation method, proviral IL-1beta expression declined in later T cell cultures concomitant with a decrease in cellular cytokines. Restimulation by either method reinduced both T cell activity and vector expression. Our finding that proviral gene regulation is downmodulated in the absence of T cell signaling events has implications for clinical strategies using retrovirus-modified T cells.     

Rapid nuclear translocation and increased activity of cyclin-dependent kinase 6 after T cell activation

To elucidate the roles of cyclin-dependent kinase 6 (cdk6) in T cells, we examined its intracellular localization, kinase activity, and associated proteins in the Jurkat T lymphoblastoid cell line. Jurkat cells had a high level of cdk6, which was associated with cyclin D3, but not cyclin D2, the member of the cyclin D family. When stimulated by a combination of PHA and anti-CD28 mAb, cdk6 activity was up-regulated, as measured by an in vitro kinase assay using recombinant, truncated retinoblastoma tumor suppressor gene protein (Rb protein) as substrate. Activation was most prominent when cells were stimulated with the combination of PHA and anti-CD28, although significant increases were detected after stimulation with PHA alone. The combination also resulted in maximal activation of c-Jun kinase and IL-2 production. Costimulation resulted in a rapid translocation of cdk6 to the nucleus, as demonstrated by both confocal immunofluorescence microscopy and biochemical fractionation techniques. Cdk6 activation and nuclear translocation were also observed after stimulation of Jurkat cells using the anti-CD28 Ab in combination with a mAb to CD3 (OKT3). Furthermore, nuclear translocation was observed in normal human T lymphocytes isolated from peripheral blood and stimulated in vitro with PHA. Two potential endogenous cdk6 substrates (with apparent molecular masses of 75-80 and 55-60 kDa), which were immunoprecipitated with cdk6 and phosphorylated in the in vitro kinase assay, were also identified. These data demonstrate the rapid activation and intracellular translocation of cdk6, implicating this kinase in early signal transduction events in T cells.     

T cells of patients with the Wiskott-Aldrich syndrome have a restricted defect in proliferative responses

The Wiskott-Aldrich syndrome (WAS) is a disease of profound thrombocytopenia and severe immune defects caused by an unidentified defective X chromosome gene. In this study, T lymphocyte function is examined using a panel of allospecific WAS patient T cell lines, previously found to express the abnormal disease gene and the cytoarchitectural defect characteristic of the disease. Although T cell lines from normal individuals proliferate vigorously in response to immobilized anti-CD3 mAb OKT3 and SPV-T3b, five of seven WAS patient T cell lines failed to proliferate and two lines showed significantly decreased proliferation when challenged with the immobilized anti-CD3 mAb. The deficient responsiveness of the WAS T cell lines to immobilized anti-CD3 mAb is a restricted defect, because the cells proliferate normally when challenged with allospecific Ag, PHA, or PMA plus ionomycin. Addition of anti-CD28 mAb did not correct the deficient proliferation of the WAS cells challenged with immobilized anti-CD3. Deficient response of the WAS T cell lines to immobilized anti-CD3 was detected also when earlier events of the proliferation process, IL-2 production and up-regulation of activation Ag CD69 and CD28, were measured. On the other hand, WAS cell lines did not differ from normal cell lines in binding of anti-CD3 mAb, mobilization of Ca2+ in response to soluble OKT3, and tyrosine phosphorylation and GTP binding of the CD3 zeta-chain in response to OKT3. Cumulatively, these findings demonstrate a striking restricted defect in the proliferative response of WAS T cells, which because it is found in cell lines free of secondary changes that occur in the patient circulation must be a reflection of the inherited defective disease gene product.     

Preclinical antitumor activity of an antibody against the leukocyte antigen CD48

We have evaluated the antitumor activity of a murine antibody (IgG2a) against the leukocyte antigen CD48. CD48 is expressed on T and B lymphocytes, monocytes, and a wide range of lymphoid malignancies. To assess the therapeutic potential of an anti-CD48 antibody, we established a reproducible model of human B-cell (Raji) leukemia/lymphoma in C.B17/scid mice, where untreated mice develop hind leg paralysis due to tumor engraftment. Using this model, the murine anti-CD48 antibody HuLy-m3 was shown to mediate a strong in vivo antitumor effect. Long-term survival (>1 year) of scid mice was obtained after treatment with three 200-microg i.v. doses of anti-CD48 antibody on days 0, 2, and 4 after i.v. injection of tumor cells. In contrast, mice treated with an isotype control antibody developed hind leg paralysis after 34 +/- 3 days. A strong antitumor response was still observed when a dose of 20 microg of HuLy-m3 antibody was used. During preclinical investigations, we also examined a number of properties of the CD48 antigen. CD48 is present at high levels on the surface of T and B cells, but most (>95%) CD34-positive cells do not express CD48. Anti-CD48 antibodies are maintained on the surface of antigen-positive cells for extended periods (>24 h). These properties suggest that anti-CD48 antibodies may be useful in the treatment of a number of diseases including lymphoid leukemias and lymphomas.     

In vitro and in vivo targeting of immunoliposomal doxorubicin to human B-cell lymphoma

The ability to selectively target liposomal anticancer drugs via specific ligands against antigens expressed on malignant cells could improve the therapeutic effectiveness of the liposomal preparations as well as reduce adverse side effects associated with chemotherapy. Long-circulating formulations of liposomes containing lipid derivatives of poly(ethyleneglycol) [sterically stabilized liposomes (SLs)] have been described previously, and new techniques have recently been developed for coupling monoclonal antibodies (Abs) at the poly(ethyleneglycol) terminus of these liposomes. Ab-targeted SLs [immunoliposomes (SILs)] containing entrapped anticancer drugs are predicted to be useful in the treatment of hematological malignancies such as B-cell lymphomas or multiple myeloma, in which the target cells are present in the vasculature. The specific binding, in vitro cytotoxicity, and in vivo antineoplastic activity of doxorubicin (DXR) encapsulated in SILs coupled to monoclonal Ab anti-CD19 (SIL[anti-CD19]) were investigated against malignant B cells expressing CD19 surface antigens. Binding experiments with SIL[anti-CD19] resulted in a 3-fold higher association of the SILs with a human CD19+ B lymphoma cell line (Namalwa) in comparison with nontargeted SLs. Using flow cytometry, fluorescently labeled SIL[anti-CD19] bound to B cells with no recognition of T cells in a mixture of B cells and T cells in culture. Nontargeted SLs demonstrated significantly lower recognition of either B cells or T cells. Targeted DXR-SIL[anti-CD19] displayed a higher cytotoxicity to B cells relative to DXR entrapped in nontargeted SLs. Therapeutic experiments in severe combined immunodeficient mice implanted with Namalwa cells by the i.v. or i.p. routes resulted in significantly increased effectiveness of DXR-SIL[anti-CD19] compared to similar amounts of free DXR, DXR-SL (no Ab), or isotype-matched nonspecific Abs attached to DXR-SL. Single doses (3 mg/kg) of DXR-SIL[anti-CD19] administered i.v. resulted in a significantly improved therapeutic benefit, including some long-term survivors. From our results, we infer that targeted anti-CD19 liposomes containing the anticancer drug DXR may be selectively cytotoxic for B cells and may be useful in the selective elimination of circulating malignant B cells in vivo.     

Monoclonal antibodies OKT 11 and OKT 11A have pan-T reactivity and block sheep erythrocyte "receptors"

Monoclonal antibodies OKT11 (gamma 1) and OKT11A (gamma 2) are described and appear to have similar binding specificities. They bind, in immunofluorescence, with greater than 95% of infant thymocytes, staining both cortical and medullary cells, 65-80% of blood lymphocytes and selectively stain the T cell-dependent paracortical areas of tonsil. A small proportion (9-12%) of bone marrow lymphocytes stain, but this population excludes the terminal transferase-positive cells. Both the gamma 1 and gamma 2 antibodies stain the surface membrane Ig-negative lymphocytes in blood and tonsil and are to block sheep E rosette formation (to normal or leukemic T cells). In contrast, other monoclonal anti-T reagents tested (OKT1, OKT3, OKT4, OKT6, OKT8, OKT9, OKT10) did not block E rosette formation. E rosette formation and OKT11 bindings are coincident on T-ALL cell lines and both are trypsin-sensitive. In a series of 145 leukemias and 26 leukemic cell lines investigated, only leukemias with a T cell phenotype including E rosette positivity were reactive with OKT11 and OKT11A. OKT11A binds to a polypeptide of approximately 50 000 molecular weight on thymic lymphocytes. This structure may carry the recognition site for sheep erythrocytes. These antibodies provide additional useful markers for T cell analysis and are of potential therapeutic value.     

The effects of human seminal plasma and PGE2 on mitogen induced proliferation and cytokine production of human splenic lymphocytes and peripheral blood mononuclear cells

The effects of human seminal plasma (HSP) and prostaglandin E2 (PGE2) on the proliferative responses of human splenic lymphocytes and peripheral blood mononuclear cells (PBMCs) to phytohaemagglutinin (PHA), anti-CD3 and anti-CD3 plus anti-CD28 mAb have been studied. Th1 and Th2 cytokines were also measured in the supernatants of selected cultures. Both HSP and PGE2 reproducibly inhibit the proliferative response to PHA and anti-CD3 mAb in a dose dependent manner. These effects were observed with both fresh and frozen human PBMCs and splenic lymphocytes. HSP and PGE2 however were less effective in inhibiting the co-stimulatory response induced by anti-CD3 plus anti-CD28 mAb. In addition, the HSP and PGE2 treatment used inhibited the production of the Th1 cytokines IL-2 and IFNg but had a differential modulatory effect on Th2 cytokine production, namely enhancing the production of IL-6 whilst simultaneously impairing the synthesis of IL-4 and IL-10.     

Methacholine induces wheal-and-flare reactions in human skin but does not release histamine in vivo as assessed by the skin microdialysis technique

A number of investigations have indicated that cholinergic agonists release histamine from isolated mast cells and suggested that cholinergic stimulation releases histamine in vivo. The purpose of this study was to investigate whether the cutaneous wheal-and-flare reaction induced by methacholine challenge in human skin involves histamine release as measured by the skin microdialysis technique. Five hollow dialysis fibers were inserted intradermally in forearm skin in eight healthy subjects. Each fiber was perfused with Kreb's-Ringer bicarbonate at a rate of 3 microliters/min. Dialysates were collected in 2-min fractions before skin challenge and for 20 min after intradermal injection of methacholine 10(-3)-10(-1) M, the vehicle, and a positive control, codeine phosphate 0.3 mg/ml. Histamine was assayed spectrofluorometrically. Methacholine caused a statistically significant dose-related wheal-and-flare reaction, the flare reaction to methacholine 10(-1) M being comparable with that seen with codeine 0.3 mg/ml. No significant histamine release was observed with methacholine, cumulative histamine release of 16 +/- 8 nM by methacholine 10(-1) M being similar to vehicle responses of 15 +/- 9 nM. Histamine release by codeine was 2524 +/- 435 nM. In conclusion, methacholine-induced wheal-and-flare reactions in human skin appeared not to involve histamine release from skin mast cells.     

Hydroxyapatite fiber reinforced poly(alpha-hydroxy ester) foams for bone regeneration

A process has been developed to manufacture biodegradable composite foams of poly(DL-lactic-co-glycolic acid) (PLGA) and hydroxyapatite short fibers for use in bone regeneration. The processing technique allows the manufacture of three-dimensional foam scaffolds and involves the formation of a composite material consisting of a porogen material (either gelatin microspheres or salt particles) and hydroxyapatite short fibers embedded in a PLGA matrix. After the porogen is leached out, an open-cell composite foam remains which has a pore size and morphology defined by the porogen. By changing the weight fraction of the leachable component it was possible to produce composite foams with controlled porosities ranging from 0.47 +/- 0.02 to 0.85 +/- 0.01 (n = 3). Up to a polymer:fiber ratio of 7:6, short hydroxyapatite fibers served to reinforce low-porosity PLGA foams manufactured using gelatin microspheres as a porogen. Foams with a compressive yield strength up to 2.82 +/- 0.63 MPa (n = 3) and a porosity of 0.47 +/- 0.02 (n = 3) were manufactured using a polymer:fiber weight ratio of 7:6. In contrast, high-porosity composite foams (up to 0.81 +/- 0.02, n = 3) suitable for cell seeding were not reinforced by the introduction of increasing quantities of hydroxyapatite short fibers. We were therefore able to manufacture high-porosity foams which may be seeded with cells but which have minimal compressive yield strength, or low porosity foams with enhanced osteoconductivity and compressive yield strength.     

In vivo and ex vivo evaluation of the antithrombogenicity of human thrombomodulin immobilized biomaterials

Human thrombomodulin (hTM) is a newly described endothelial cell associated protein that functions as a potent natural anticoagulant by converting thrombin from a procoagulant protease to an anticoagulant. Focusing on the establishment of the practical evaluation of hTM immobilized materials, the activity of immobilized hTM was evaluated by in vivo and ex vivo blood contacting tests. As the basis for immobilization, regenerated cellulose films and hollow fibers were used. For the in vivo test, hTM immobilized cellular hollow fibers were implanted into dog blood vessels. Using hTM immobilized cellulose hollow fibers, a small scale dialyzer was assembled and its antithrombogenic activity was studied using human blood. As a result, it was revealed that the immobilized hTM still has co-enzymatic activity for activation of Protein C and anticoagulant activity. The coagulation time of the human blood passed through the hTM immobilized small dialyzer was effectively prolonged. It is expected that hTM immobilized cellulose should be a useful antithrombogenic biomaterial.     

Long-term protein exposure reduces albumin binding and uptake in proximal tubule-derived opossum kidney cells

BACKGROUND/AIMS: Xenogeneic hepatocytes encapsulated in semipermeable membranes could be used in the future for the treatment of acute liver failure and congenital liver defects. However, host immune response could affect the viability and function of transplanted cells. The purpose of this study was to investigate the immunological consequences of intraperitoneal implantation of encapsulated xenogeneic hepatocytes and their effects. METHODS: Recipient Lewis rats received 2 x 10(7) human hepatocytes encapsulated in semipermeable hydrogel-based hollow fibers, 2 x 10(7) free human hepatocytes or 2 x 10(7) encapsulated Lewis rat hepatocytes. The presence of human albumin in rat sera was assessed by Western blot and the presence of anti-human hepatocytes and anti-human albumin antibodies by ELISA. RESULTS: Anti-hepatocyte antibodies were detected on the 7th day, and their level increased progressively on days 21 and 28 in rats grafted with encapsulated or free human hepatocytes. Anti-albumin antibodies were detected on day 7 and increased progressively in rats grafted with encapsulated human hepatocytes, but were not detected in the other groups. No immune complexes or complement components of donor origin were detected by immunofluorescence in the recipients' tissues. Despite immunization of the host, encapsulated xenogeneic hepatocytes survived and produced albumin, whereas free hepatocytes had been lysed. CONCLUSION: Transplantation of encapsulated xenogeneic hepatocytes resulted in immunization of the host with production of anti-hepatocyte and anti-albumin antibodies. However, hepatocytes could be efficiently protected by the membrane and remained viable and functional during the study.     

Efficient retroviral-mediated gene transfer to human cord blood stem cells with in vivo repopulating potential

Recent studies have shown efficient gene transfer to primitive progenitors in human cord blood (CB) when the cells are incubated in retrovirus-containing supernatants on fibronectin-coated dishes. We have now used this approach to achieve efficient gene transfer to human CB cells with the capacity to regenerate lymphoid and myeloid progeny in nonobese diabetic (NOD)/severe combined immunodeficiency (SCID) mice. CD34(+) cell-enriched populations were first cultured for 3 days in serum-free medium containing interleukin-3 (IL-3), IL-6, granulocyte colony-stimulating factor, Flt3-ligand, and Steel factor followed by two 24-hour incubations with a MSCV-NEO virus-containing medium obtained under either serum-free or serum-replete conditions. The presence of serum during the latter 2 days made no consistent difference to the total number of cells, colony-forming cells (CFC), or long-term culture-initiating cells (LTC-IC) recovered at the end of the 5-day culture period, and the cells infected under either condition regenerated similar numbers of human CD34(+) (myeloid) CFC and human CD19(+) (B lymphoid) cells for up to 20 weeks in NOD/SCID recipients. However, the presence of serum increased the viral titer in the producer cell-conditioned medium and this was correlated with a twofold to threefold higher efficiency of gene transfer to all progenitor types. With the higher titer viral supernatant, 17% +/- 3% and 17% +/- 8%, G418-resistant in vivo repopulating cells and LTC-IC were obtained. As expected, the proportion of NEO + repopulating cells determined by polymerase chain reaction analysis of in vivo generated CFC was even higher (32% +/- 10%). There was no correlation between the frequency of gene transfer to LTC-IC and colony-forming unit-granulocyte-macrophage (CFU-GM), or to NOD/SCID repopulating cells and CFU-GM (r2 = 0.16 and 0.17, respectively), whereas values for LTC-IC and NOD/SCID repopulating cells were highly and significantly correlated (r2 = 0.85). These findings provide further evidence of a close relationship between human LTC-IC and NOD/SCID repopulating cells (assessed using a >/= 6-week CFC output endpoint) and indicate the predictive value of gene transfer measurements to such LTC-IC for the design of clinical gene therapy protocols.