Sensitization of lymphocytes against pooled allogeneic cells. II. Characterization of effector cells cytotoxic for autologous lymphoblastoid cell lines

Stimulation of human lymphocytes in mixed leukocyte culture (MLC) with x-irradiated pooled allogeneic normal cells (poolx) was previously shown to result in generation of effector cells cytotoxic for autologous Epstein-Barr virus- (EBV) transformed lymphoblastoid cell lines (LCL). This study was undertaken to determine whether lysis of the autologous EBV- transformed LCL cells by pool-stimulated cells is mediated by cytotoxic Tc lymphocytes (Tc) or natural killer- (NK) like cells, both of which are generated in MLC. In the first series of experiments, proliferating cells were eliminated by treatment of pool-stimulated cells with 5 X 10(-5) M 5-bromodeoxyuridine (BUdR) and light. The remaining cells failed to lyse allogeneic normal lymphocytes and autologous LCL cells, whereas cytotoxicity against NK-sensitive K562 leukemia cells was retained. In the second series of experiments, pool-stimulated effector cells were treated with monoclonal anti-human Tc cell antibodies, OKT3 or OKT8, and complement (C). The cells recovered after antibody and C treatment were diminished in their ability to lyse allogeneic normal lymphocytes as well as autologous LCL cells, whereas their cytotoxicity against K562 leukemia cells was unaffected. These combined results provide strong evidence that lysis of autologous LCL cells by lymphocytes stimulated with pooled allogeneic normal cells is mediated by Tc rather than NK-like cells.     

Distinction of anti-K562 and anti-allocytotoxicity in in vitro-stimulated populations of human lymphocytes.

The properties of lymphocytes cultivated with K562 (MKC)—a cell line which lacks HLA antigens and is sensitive to natural cytotoxicity—was compared to conventional mixed lymphocyte cultures (MLC). The characteristics of the two cultures differed. In the MKC there were fewer E positive blasts and more FcR-positive cells, and a higher proportion of the T cells was nylon adherent. The cells of both cultures were cytotoxic against K562. Against the sensitizer alloblasts, MLC populations were regularly more active than lymphocytes derived from the same donor but cultivated with K562. As indicated by the relative cytotoxic efficiencies of MLC subsets, part of the the killer cells affecting K562 and alloblasts differed in the expression of E receptors. Acting similarly to natural killers in the fresh blood, anti-K562 effectors were more abundant in the subsets which did not sediment as SRBC rosettes. In contrast, the specific alloreactivity was more pronounced with the SRBC-rosetting cells.     

Depletion of human NK cells with monoclonal antibodies allows the generation of cytotoxic T lymphocytes without NK-like cells in mixed cultures

In vitro stimulation of human mononuclear cells with x-irradiated autologous lymphoblastoid cell line (LCL) or allogeneic normal cells in mixed leukocyte cultures (MLC) was previously shown to result in the generation of OKT3+ OKT8+ cytotoxic T lymphocytes (CTL) lytic for allogeneic and autologous LCLs and also of natural killer- (NK) like cells that are OKT3- and primarily OKT8- and are lytic for HLA- NK-sensitive K562 cells. The origin of the NK-like cells was not previously known because, although the majority of fresh human NK cells react with monoclonal antibodies OKM1 and B73.1, lymphocytes bearing these markers are not detected several days after the onset of MLC, when NK-like cells are present. In this study, experiments were undertaken to determine whether NK-like cells generated after stimulation with x-irradiated pooled allogeneic normal cells (poolx) or with autologous LCL are derived from cells expressing antigens reactive with monoclonal antibodies OKM1 or B73.1, which react with fresh NK cells. Mononuclear cells, depleted of monocytes, were stained with OKM1 or B73.1 and fluorescein-labeled goat anti-mouse IgG. Lymphocytes depleted of OKM1+ or B73.1+ cells, by fluorescence-activated cell sorting, and lymphocytes that were stained but not sorted were stimulated for 7 days with either poolx or autologous LCL. The generation of NK-like activity was decreased at least 90% after depletion of cells reactive with OKM1 or B73.1, whereas the generation of CTL against autologous and allogeneic LCL was minimally affected. These findings show that NK-like cells generated in MLC are derived from cells that express the phenotype of fresh NK cells (OKM1+ or B73.1+) and that CTL can be generated in cultures in which relatively little NK-like activity is concomitantly detected, by depleting NK cells with monoclonal antibodies before stimulation.     

Regulatory substances produced by lymphocytes. III. Evidence that lymphotoxin and proliferation inhibitory factor are identical and different from the inhibitor of DNA synthesis.

L cell mutant lines which were considerably more resistant to rat lymphotoxin (LT) than the original cell line were obtained by periodic additions of LT, partially purified from sensitized lymph node cell culture supernatants by DEAE-cellulose chromatography and Sephadex gel filtration. Addition of actinomycin D to cultures of these mutant cells abrogated resistance to LT, suqgesting that resistance was not due to a loss of LT receptors but probably to increased activity of a repair mechanisms. These mutant lines were also more resistant to the proliferation inhibitory effect of LT in low concentration and to that of diluted culture supernatants of lymph node cells stimulated with antigen (ovalbumin) than the original cell line, but they remained as sensitive to inhibitor of DNA synthesis (IDS) as the original line. The mutant lines also remained fully sensitive to both complement-dependent lysis by antibody and antibody-dependent cellular cytotoxicity, but showed increased resistance to the killing effect of rat lymph node cells sensitized with orginal L cells in vivo. These findings suggest that the lymphotoxic substance partially purified and characterized in this and in the previous paper may be an important mediator of T cell-mediated cytotoxicity.     

Mechanisms of lymphocyte-mediated cytotoxicity. I. The effects of anti-human lymphotoxin antisera on the cytolysis of allogeneic B cell lines by MLC-sensitized human lymphocytes in vitro

Goat and rabbit anti-human lymphotoxin sera, IgG and F(ab')2 reagents were investigated for their capacity to effect a specific alloimmune lymphocyte-mediated cytotoxic reaction. The cytotoxic reaction employed human peripheral blood or adenoid lymphocytes sensitized in MLC to allogeneic B lymphocyte cell lines and lysis was measured in a short-term 51Cr-release assay. A polyspecific anti-LT sera (anti-WS), made against unfractionated whole supernatants from lectin-activated lymphocytes and its IgG and F(ab')2 fragments, was found to be a potent inhibitor of this reaction when the anti-WS reagent was present throughout the assay period. Absorption studies indicated the anti-WS was inhibiting cytolysis at the level of effector cell or its products. Two broadly defined antibody specificities were involved in the cytolytic-inhibitory activity of the polyspecific anti-LT; i) antigens present on the normal lymphocyte cell surface; and ii) lymphocyte surface antigens associated with activated cells. These results correlate with the previously defined antigenic structure of the LT Cx and alpha H classes. Anti-LT sera reactive with the smaller m.w. alpha and beta classes and subclasses were not inhibitory, although the anti-beta sera showed a moderate enhancing activity. The results indicated that several anti-LT antibody specificities may be required to inhibit alloimmune cytolysis. The results suggest LT molecules may mediate lymphocyte-induced alloimmune cytolysis as a multi-component toxin system, rather than as an individual toxin.     

8-Oxoguanine DNA-glycosylase repair activity and expression: a comparison between cryopreserved isolated lymphocytes and EBV-derived lymphoblastoid cell lines

Several lines of evidence suggest an association between oxidative DNA-damage repair capacity and cancer risk. In particular, a DNA-glycosylase assay for removal of 8-oxoguanine (8-oxoG) in peripheral blood mononuclear cells (PBMC) has been successfully applied to identify populations with increased risk for lung cancer and squamous cell carcinomas of head and neck. In order to verify whether EBV-transformed lymphoblastoid cell lines (LCL) are a suitable surrogate for PBMC in specific DNA-repair phenotypic assays, a validation trial was conducted. PBMC from 20 healthy subjects were collected and an aliquot was transformed with EBV to obtain LCL. The ability of cell-free extracts from both cell types to incise a 3'-fluorescently labelled duplex oligonucleotide containing a single 8-oxoG (OGG assay) was evaluated. Since this activity is mediated predominantly by OGG1, the OGG1 gene expression was also measured. 8-oxoG DNA-glycosylase activity and OGG1 expression were significantly higher (p<0.0001) in LCL than in PBMC. However, while this assay was shown to be robust and reproducible when used on PBMC (intra-assay CV=8%), a high intra-culture variability was observed with LCL (intra-culture CV=16.8%). Neither differences on OGG1 gene expression nor the cell-cycle distribution seemed to account for this variability. Inter-individual variability of OGG activity in PBMC and LCL was not associated with OGG1 gene expression. We have therefore established a non-radioactive cleavage assay that can be easily applied to measure OGG activity in human PBMC. The use of LCL for DNA-repair genotype-phenotype correlation studies seems to be inappropriate, at least with cell-free based functional assays.     

Differential production of interferon and lymphotoxin by human tonsil lymphocytes.

Lymphotoxin (LT) production, interferon (IF) production, and DNA synthesis were investigated after mitogen stimulation and in the mixed lymphocyte culture (MLC) reaction using human tonsil lymphocytes. Both LT and IF were assayed in parallel and from the same lymphocyte supernatants. An analysis of the PHA, PWM, one-way and two-way MLC reactions showed that the amounts of LT and IF produced could not be correlated. Polyriboinosinic: polyribocytidylic acid (poly(I: C)) failed to induce either LT production or [³H]TdR incorporation but did induce IF production. Removal of glass-adherent cells (GAC) had no effect on mitogen induced LT production but their removal reduced LT production in MLC reactions. GAC were necessary for IF production and optimal [³H]TdR incorporation in both mitogen stimulated cultures and in MLC reactions. IF and LT activities were shown to be the result of different molecules by using a Sephadex G-75 column. These results indicate that mitogen stimulation differs from MLC reactions in the cell type or control mechanisms involved for LT production, and that in mitogen stimulated cultures all three of these in vitro phenomena are probably the results of either different cell types or of different cell to cell interactions.     

In vitro growth of B lymphocytes infiltrating human melanoma tissue by transformation with EBV: evidence for secretion of anti-melanoma antibodies by some transformed cells

Epstein Barr virus was used to transform the B lymphocytes infiltrating metastatic tumor tissue from seven patients with melanoma. In this way it was possible to establish continuously growing B lymphoblastoid cell lines (LCL) derived from the tumor-infiltrating B lymphocytes from each of the seven patients. Antibody production of up to 50 micrograms/ml could be achieved by such cultures, and the lymphoblastoid cells could be cloned readily by limit dilution on a feeder layer of irradiated fetal fibroblasts. Preliminary analysis of the antibodies produced by lymphoblastoid cell lines established from tumors from two of the patients indicated that most were of IgM type and bound to a panel of melanoma cell target cells, as well as to some nonmelanoma tumor cell lines. Cloned LCL were produced from the tumor-infiltrating B cells from one of the patients, and of 100 such clones tested, 9% secreted antibody that bound to autologous tumor cells, and one of these clones produced antibody that appeared to be melanoma specific.     

Herpesvirus-lymphoid cell interactions: comparative studies on the biology of herpes simplex virus-induced Fc receptors in B, T, and "null" lymphoid cell lines

We have investigated the induction of Fc receptor (FcR) in different types of lymphoid cell lines (LCL) infected with herpes simplex virus (HSV). Subpopulations of certain of these LCL normally express FcR unrelated to herpetic infection. Differentiation of virus-induced FcR from that related to normal cell function was therefore possible. FcR detection was carried out by means of a rosette assay using ox erythrocytes coated with 7S immunoglobulin G (EA rosettes). Both HSV types 1 and 2 were found to induce FcR in B, T, and “null” (i.e., non-B, non-T) type LCL; however, in all the LCL tested, this HSV-induced FcR expression appeared to be more restricted in the responding T LCL than in responding B and null type LCL. In addition, kinetic experiments revealed that the time course of HSV-induced FcR expression differed among these LCL types tested. Interestingly, a number of LCL were resistant to HSV infection or restricted HSV gene expression, including expression of the viral products responsible for FcR induction. In all the responding HSV-infected LCL, induction of FcR always paralleled the expression of HSV antigens. Synthesis of HSV-induced FcR was shown to be inhibited by phosphonoacetic acid, an inhibitor of herpesvirus DNA polymerase activity, whereas FcR of non-HSV origin was found to be resistant to inhibitor. This would infer that HSV codes for an FcR which can be differentiated from that of cellular origin by using phosphonoacetic acid. Therefore, two different mechanisms of FcR synthesis may be suggested, one virus mediated and the second probably under cellular control. In addition, the data obtained using Epstein-Barr virus producer as well as isogeneic monoclonal cell lines, with and without the Epstein-Barr virus genome, indicated that the resident Epstein-Barr virus genome in the target cell did not have a detectable effect in the induction of FcR by HSV.     

Potentiation of cytotoxic effect of lymphotoxin by anti-cancer drugs and elevated temperatures

The cytotoxic lymphokine, lymphotoxin (LT), has been shown to possess antitumor effect in vitro and in vivo. We examined the effect of the combination of partially purified LT with anti-cancer drugs and elevated temperatures on mouse transformed fibroblast cell line, L-929, and two human carcinoma of the cervix cell lines, HeLa and ME180. The cells were treated for 7 hr with Adriamycin, cisplatin, or bleomycin. These cells were then incubated for 24 hr in the presence of LT. At the end of the incubation period, cytotoxicity was measured by the neutral red dye uptake assay. There was 10- to 47-fold potentiation of cytotoxicity of LT on L-929 cells. The potentiation of cytotoxicity on human carcinoma of cervix cell lines ranged from 3- to 23-fold. L-929 cells and ME180 cells were incubated for 7 hr at 40 or 42 degrees C followed by 24 hr of incubation in the presence of LT. The elevated temperature treatment also enhanced (5- to 9-fold) the cytotoxic effect of LT. DNA, RNA, and protein syntheses of the ME180 cells was measured following incubation at 42 degrees C. It was observed that all three parameters were suppressed by incubation at this temperature. It was, therefore, possible that the repair of LT damaged cells was hampered by the elevated temperature treatment. It is suggested that LT may have a potential as an anti-tumor agent in combination with selected therapeutic drugs and hyperthermia.     

Efficient transduction with recombinant adenovirus in EBV-transformed B lymphoblastoid cell lines

The Epstein-Barr-transformed B lymphoblastoid cell lines, LCL, which express antigens, are potential antigen-presenting cells (APCs) for the induction of cytotoxic T lymphocytes in vitro. However, transfecting LCL with subsequent selection by antibiotics is notoriously difficult because the plating efficiencies of LCL are reported to be 1% or less. Therefore, this study investigated the optimal conditions for increasing the transduction efficiency of a recombinant adenovirus to LCL for use as a source of APCs. The transduction efficiencies were < 13% (SD +/- 2.13) at a multiplicity of infection (MOI) of 100, while it was increased to 28% (SD +/- 9.43) at an MOI of 1000. Moreover, its efficiencies to LCL that expressed the coxsackie adenovirus receptor were increased to 60% (SD +/- 6.35) at an MOI of 1000, and were further increased to 70% (SD +/- 4.56) when combined with the centrifugal method. The cationic liposome or anionic polymer had no effect on the transduction efficiency when compared to that of the centrifugal method. These results may be used as a convenient source of target cells for a CTL assay and/or autologous APCs for the induction of the in vitro CTL responses that are specific to viral and tumor antigens.     

Evaluation of human immunodeficiency virus type 1 (HIV-1)-specific cytotoxic T-lymphocyte responses utilizing B-lymphoblastoid cell lines transduced with the CD4 gene and infected with HIV-1.

Analysis of major histocompatibility complex-restricted cytotoxic T lymphocytes (CTL) capable of killing human immunodeficiency virus type 1 (HIV-1)-infected targets is essential for elucidating the basis for HIV-1 disease progression and the potential efficacy of candidate vaccines. The use of primary CD4+ T cells with variable infectivity as targets for such studies has significant limitations, and immortal autologous cells with high levels of CD4 expression that can be consistently infected with HIV-1 would be of much greater utility. Therefore, we transduced Epstein-Barr-virus-transformed B-lymphoblastoid cell lines (LCL) with a retroviral vector, LT4SN, containing the human CD4 gene. Stable LCL in which more than 95% of cells expressed membrane CD4 were obtained. Aliquots were infected with HIV-1, and, after 4 to 7 days, nearly all of the cells contained cytoplasmic gag and produced high levels of p24 antigen. The ability of major histocompatibility complex-restricted CD8+ CTL to lyse such HIV-1-infected CD4-transduced LCL (LCL-CD4HIV-1) was evaluated. These autologous targets were lysed by CTL generated from an HIV-1-uninfected vaccinee over a broad range of effector-to-target ratios. Similarly, the LCL-CD4HIV-1 were efficiently lysed by fresh circulating CTL from HIV-1-infected individuals, as well as by CTL activated by in vitro stimulation. Both HIV-1 env- and gag-specific CTL effectors lysed LCL-CD4HIV-1, consistent with the cellular expression of both HIV-1 genes. The LCL-CD4HIV also functioned as stimulator cells, and thus are capable of amplifying CTL against multiple HIV-1 gene products in HIV-1-infected individuals. The ability to produce HIV-1-susceptible autologous immortalized cell lines that can be employed as target cells should enable a more detailed evaluation of vaccine-induced CTL against both homologous and disparate HIV-1 strains. Furthermore, the use of LCL-CD4HIV-1 should facilitate the analysis of the range of HIV-1 gene products recognized by CTL in seropositive persons.     

Characterization of a serum inhibitor of MLC reactions. III. Specificity: HL-A-related antibodies.

A mixed leukocyte culture (MLC)-inhibitory serum from a healthy multipara, JH, has been characterized with regard to the specificity of its inhibitory antibody. When added directly to MLC, JH serum will inhibit most combinations. However, when lymphocytes intended as responder or stimulator cells in MLC were preincubated with this serum, the specificity narrowed considerably. Four groups of lymphocyte donors were recognized, depending upon whether their lymphocytes were inhibited as responders, as stimulators, as both, or as neither. Absorptions of inhibitory activity, followed by assay of the absorbed sera in pretested MLC combinations, yielded reliable data for determining which donors' cells shared pertinent antigens. An association of MLC inhibition by JH serum with the HL-A types of the involved lymphocytes was observed and these relationships are summarized in Table 4. The three HL-A specificities identified, W19, W29, and 12, correspond with the HL-A typing of the husband of the serum donor. Various cell types absorbed relevant inhibitory activity (against responder and stimulator functions) in the following order of efficiency: LCL cells, B lymphocytes, T lymphocytes, fibroblasts, and erythrocytes. When the above three HL-A specificities were removed by absorption, the serum was no longer inhibitory in any combinations. Whether the inhibitory activity of JH serum is directly related to anti-HL-A antibodies or to antibodies against closely related MLR determinants will depend to a large extent upon the degree of linkage disequilibria found between W19, W29, and 12 antigens and the MLR locus.     

Human helper T cell factor(s) (ThF). II. Induction of IgG production in B lymphoblastoid cell lines and identification of T cell-replacing factor- (TRF) like factor(s)

IgG-PFC was induced in Epstein-Barr virus-transformed B lymphoblastoid cell lines (LCL) by the addition of allogeneic T cells. T cells involved in the induction of IgG-PFC were shown to belong to the Leu 3a+/2a- T cell subset. Furthermore, partially purified soluble factors obtained from the culture supernatant of PPD-stimulated pleural T cells or PWM-stimulated tonsillar mononuclear cells was shown to induce IgG-PFC in LCL across the major histocompatibility complex barrier. The induction of IgG-PFC was observed only in surface IgG-positive LCL cell populations and was not accompanied by the increase in the number of LCL cells. The factors with such a TRF-like activity were found in two fractions corresponding to the m.w. range of 18,000 to 25,000 (22K fraction) and 28,000 to 38,000 (36K fraction) by gel filtration. Isoelectric focusing of these fractions revealed that TRF-like activity of both 22K and 36K fractions distributed in the pI range of 5.0 to 6.0, and both fractions were found to be devoid of TCGF activity. These results appear to indicate that the factors act on the B cells in terminal stages to trigger final differentiation to Ig-producing cells.     

Two distinct human cloned T cell lines that exhibit natural killer-like and anti-human effector activities

Cloned T cell lines from mixed lymphocyte cultures stimulated with autologous Epstein Barr virus- (EBV) transformed lymphoblastoid cell line (LCL) cells were established using a limiting dilution technique in the presence of T cell growth factor (TCGF). The T cell lines included two distinct clones of cytotoxic T cells (Tc) in addition to EBV-specific Tc. A cytotoxic profile of one cloned line was similar to that of endogenous NK cells in peripheral blood. The other cloned Tc line showed an anti-human cytotoxicity. The susceptible targets for this latter Tc line were various human cells, including autologous LCL and peripheral blood lymphocytes (PBL), stimulated with pokeweed mitogen, along with NK-sensitive and NK-resistant cell lines. Weak cytotoxic activity was detected against various xenogeneic cell lines. Furthermore, autologous and allogeneic cloned T cell lines were resistant to killing by the anti-human effector clone. These t wo distinct cloned Tc lines expressed the Leu-1 and Leu-2a antigens, which are markers of suppressor/cytotoxic T cells.     

Suppressor T cells activated by lymphoblastoid cell lines inhibit pokeweed mitogen-lnduced immunoglobulin synthesis

EBV-transformed B-cell lines of normal or malignant origin suppressed pokeweed mitogen-induced immunoglobulin synthesis of normal B cells, measured by the protein A plaque assay method. Autologous and allogeneic LCL were equally effective. Allogeneic irradiated B cells were ineffective or slightly enhancing. EBV-negative hematopoietic cell lines derived from myeloid leukemia (K562 and HL-60) were ineffective or slightly enhancing. The suppressive effect of the Burkitt lymphoma line Raji was partly due to released soluble suppressor factors, but to a larger extent to the generation of radiosensitive suppressor T cells in the responder population. Autologous and allogeneic LCL were equally effective in generating suppressor T cells. It is postulated that the suppressor circuit reflects the existence of regulatory mechanisms that govern the proliferation of B lymphocytes.     

Stimulation of peripheral human lymphocytes by autologous EBV genome-carrying lymphoblastoid cell lines.

EBV-carrying lymphoblastoid cell lines (LCL) can stimulate lymphocytes of the autologous donor [autologous stimulation (AS) assay] to blast transformation and generation of killer cells of broad-range cytotoxicity. We have tested the possibility of developing an EBV-specific AS assay for use in the demonstration of EBV-specific memory cells in the peripheral blood of normal donors. For this purpose, the stimulating lines were treated by heat and protein synthesis inhibitors to prevent the release of possible nonspecifically mitogeneic factors. Moreover, an extensive purification of the effector cells was achieved in the hope of removing a possible cellular contributor to the observed nonspecific cytotoxicity. None of these approaches was able to narrow down this nonspecific cytotoxicity to an EBV-specific response. We have shown that AS reaction (1) is not related to the release of lymphocyte mitogeneic factors by stimulating LCL, (2) is mediated by Fc receptor-negative T cells, and (3) does not require macrophage nor any other non-T helper cells.     

T cell growth factor from human splenic cell cultures: conditions for its production, and its utilization for maintenance of cytotoxic T cell lines

We prepared the T cell growth factor (TCGF) from human spleen cell cultures stimulated with phytohemagglutinin (PHA). Various cell culture conditions and agents supporting the active TCGF production of the spleen cells were examined. The highest TCGF activity was obtained in the supernatants under the conditions that 2 x 10(6)/ml spleen cells were stimulated with PHA for 48 hr. Production of TCGF from spleen cells depended markedly on their individual sources. Addition of indomethacin to the culture or irradiation of the responding spleen cells increased TCGF activity in the supernatant of the culture. Further, addition of irradiated cells of an Epstein-Barr virus (EBV)-transformed lymphoblastoid cell line (LCL) to spleen cell cultures stimulated with PHA greatly enhanced TCGF production. Human splenic TCGF facilitated the establishment of human cytotoxic T cell (Tc) lines specific for EBV-transformed LCL cells when those Tc line cells were stimulated periodically with irradiated autologous LCL cells but not with the other two types (K-562 or Molt-4) of cells. Allogeneic LCL stimulators allowed the Tc line cells to proliferate. However, Tc line cells cocultured once with allogeneic LCL stimulators no longer exhibited EBV-specificity in their cytotoxicities.     

beta-Glucosidase isoenzymes in Epstein-Barr virus-transformed lymphoid cell lines from normal subjects and patients with type 1 Gaucher disease

Lymphoid cell lines (LCL) from 3 adult patients with non-neuropathic Gaucher disease were established by Epstein-Barr virus (EBV) transformation and were investigated from the view of enzymology. Glucosylceramide-beta-glucosidase (GlcCer-beta-glucosidase) was present in soluble and particulate fraction of LCL from normal subjects and was deficient in type 1 Gaucher LCL; the deficiency of all molecular forms, shown by electrofocusing, indicates that they are coded by the same gene. The existence of two non-specific beta-glucosidases, one soluble (minor), the other membrane-bound (major), was demonstrated in leucocytes and LCL from normals; in Gaucher LCL, these were also present in a normal range. Characteristic properties of the non-specific membrane-bound beta-glucosidase were defined: lability at acidic pH and strong inhibitory effect by detergents. These properties allowed to discriminate it from the lysosomal GlcCer-beta-glucosidase and to define optimal assay conditions for determination of residual GlcCer-beta-glucosidase activity in Gaucher disease, using artificial substrate, without interference of non-specific membrane-bound beta-glucosidase. These results demonstrate that EBV-transformed LCL represent an accurate model system for enzymatic studies of Gaucher disease.     

Establishment of Epstein-Barr Virus Growth-transformed Lymphoblastoid Cell Lines

Infection of B cells with Epstein-Barr virus (EBV) leads to proliferation and subsequent immortalization, resulting in establishment of lymphoblastoid cell lines (LCL) in vitro. Since LCL are latently infected with EBV, they provide a model system to investigate EBV latency and virus-driven B cell proliferation and tumorigenesis¹. LCL have been used to present antigens in a variety of immunologic assays^{2, 3}. In addition, LCL can be used to generate human monoclonal antibodies^{4, 5} and provide a potentially unlimited source when access to primary biologic materials is limited^{6, 7}.A variety of methods have been described to generate LCL. Earlier methods have included the use of mitogens such as phytohemagglutinin, lipopolysaccharide⁸, and pokeweed mitogen⁹ to increase the efficiency of EBV-mediated immortalization. More recently, others have used immunosuppressive agents such as cyclosporin A to inhibit T cell-mediated killing of infected B cells^{7, 10-12}.The considerable length of time from EBV infection to establishment of cell lines drives the requirement for quicker and more reliable methods for EBV-driven B cell growth transformation. Using a combination of high titer EBV and an immunosuppressive agent, we are able to consistently infect, transform, and generate LCL from B cells in peripheral blood. This method uses a small amount of peripheral blood mononuclear cells that are infected in vitroclusters of cells can be demonstrated. The presence of CD23 with EBV in the presence of FK506, a T cell immunosuppressant. Traditionally, outgrowth of proliferating B cells is monitored by visualization of microscopic clusters of cells about a week after infection with EBV. Clumps of LCL can be seen by the naked eye after several weeks. We describe an assay to determine early if EBV-mediated growth transformation is successful even before microscopic clusters of cells can be demonstrated. The presence of CD23^hiCD58⁺ cells observed as early as three days post-infection indicates a successful outcome.