Depletion of B cells in vivo by a chimeric mouse human monoclonal antibody to CD20

Murine monoclonal antibody 2B8 specifically recognizes the CD20 phosphoprotein expressed on the surface of normal B lymphocytes and B-cell lymphomas. The light- and heavy-chain variable regions of 2B8 were cloned, after amplification by the polymerase chain reaction, into a cDNA expression vector that contained human IgG1 heavy chain and human kappa-light chain constant regions. High-level expression of chimeric-2B8 antibody (C2B8) was obtained in Chinese hamster ovary cells. Purified C2B8 exhibited antigen binding affinity and human-tissue reactivity similar to the native murine antibody. In vitro studies showed the ability of C2B8 to bind human C1q, mediate complement-dependent cell lysis of human B-lymphoid cell lines, and lyse human target cells through antibody-dependent cellular cytotoxicity. Infusion of macaque cynomolgus monkeys with doses ranging from 1.6 mg/kg to 6.4 mg/kg resulted in greater than 98% depletion of peripheral blood (PB) B cells and 40% to 70% depletion of lymph node B cells. Recovery of PB B cells usually started at 2 weeks after treatment and required 60 to greater than 90 days to reach normal levels. As much as 95% depletion of B cells in peripheral lymph nodes and bone marrow was observed following weekly injections of 16.8 mg/kg antibody. No toxicity was observed in any of the animals. These results offer the possibility of using an "immunologically active" chimeric anti-CD20 antibody as an alternative approach in the treatment of B-cell lymphoma.     

Differential CD95 expression and function in T and B lineage acute lymphoblastic leukemia cells

CD95 (Fas/APO-1) is a cell surface receptor able to trigger apoptosis in a variety of cell types. The expression and function of the CD95 antigen on leukemic blasts from 42 patients with B lineage and 53 patients with T lineage acute lymphoblastic leukemia (ALL) were investigated using immunofluorescence staining and apoptosis assays. The CD95 surface antigen was expressed in most ALL cases, with the T lineage ALL usually showing a higher intensity of surface CD95 expression as compared with the B lineage ALL cells (relative fluorescence intensity, RFI: 4.8 +/- 0.47 vs 2.2 +/- 0.23, respectively, P < 0.01). Functional studies disclosed that upon oligomerization by anti-CD95 monoclonal antibodies the CD95 protein was either not able to initiate apoptosis of leukemic cells (75% of cases) or induced low rates of apoptosis (20% of cases). Only in 5% of cases did the apoptosis rate exceed the 20% level of the CD95-specific apoptosis. Most of the CD95-sensitive cases were found among T lineage ALLs (38% of T lineage vs 10% of B lineage ALLs). Overall, the extent of CD95-induced apoptosis did not correlate with the expression level of CD95. Similarly, no significant correlation between expression level and functionality of CD95 in human leukemia cell lines of B and T cell origin could be observed. Bcl-2 protein has been associated with prolonged cell survival and has been shown to block partially CD95-mediated apoptosis, but for ALL cells no correlation between bcl-2 expression and spontaneous or CD95-mediated apoptosis could be found. The results obtained in this study indicate that, despite constitutive expression of CD95, the ALL cells are mainly resistant to CD95-triggering. More detailed investigations of the molecular mechanisms involved in the intracellular apoptotic signal transduction, such as interactions of the bcl-2 and the other members of the bcl-2 family, and functionality of the interleukin-1beta converting enzyme (ICE) like-proteases, may give new insights into key events responsible for the resistance or sensitivity to the induction of apoptosis in acute leukemia.     

Ligation of CD40 potentiates Fas-mediated activation of the cysteine protease CPP32, cleavage of its death substrate PARP, and apoptosis in Ramos-Burkitt lymphoma B cells

The proliferation and survival of a B cell population is necessarily tightly controlled to prevent the arisal of malignancy or autoimmunity. The expansion or elimination of a B cell clone is determined through a complex interaction of the tumour necrosis factor receptor/nerve growth factor receptor family members CD40 and Fas, which are expressed on the B cell surface, with their respective physiological ligands (CD40L and FasL) expressed on the surface of CD4+ T cells. The regulation of B cell growth by signals transduced through CD40 and Fas contributes to the maintenance of peripheral tolerance and likely takes place and in the germinal centres (GC) of secondary lymphoid tissues. In this study, we investigate the relationship between the expression of Fas and B cell survival following engagement of CD40 and Fas in the Epstein-Barr virus-genome-negative Ramos-Burkitt lymphoma (Ramos-BL) B cell line model of GC B lymphocyte selection during maturation of the humoral immune response. We now present evidence that Ramos-BL B cells constitutively express both Fas and FasL on their surface and that expression of Fas, but not FasL, is enhanced following ligation of CD40. Coligation of CD40 and Fas, triggers for growth inhibition, activation of the interleukin-1 beta-converting enzyme, now caspase, family member CPP32 (caspase-3) but not Ich-1L (caspase-2), cleavage of its death substrate poly(ADP-ribose) polymerase, and apoptosis from the G1 phase of cell cycle; engagement of Fas alone fails to trigger for growth inhibition and apoptosis but enhances AgR-mediated cellular death. This CD40-potentiated Fas-triggered growth inhibition and apoptosis occurs in the presence of CD40-induced expression of the anti-apoptotic proteins Bcl-xL and Bcl-2. Taken together, these data indicate that ligation of CD40 facilitates efficient coupling of Fas to the caspase-mediated pathway of apoptosis.     

CD4+ T cells inhibit growth of Epstein-Barr virus-transformed B cells through CD95-CD95 ligand-mediated apoptosis

Greater than 90% of the human population acquire Epstein-Barr virus (EBV) in infancy and retain a lifelong latent infection without any clinical consequences. Nevertheless EBV has been identified as the causal agent of infectious mononucleosis, and is associated with several tumours including endemic Burkitt's lymphoma and B cell lymphomas in immunosupressed patients. B cells infected with EBV are transformed in vitro and grow continuously as lymphoblastoid cell lines. The growth of EBV-transformed B cells in vivo is controlled by the immune system. Studies on immunity to EBV have mainly focused on MHC class I-restricted CD8+ cytotoxic T cells specific for viral latent antigens. Here it is reported that in vitro stimulation of peripheral blood lymphocytes by autologous EBV-infected B cells, which have been induced to express lytic cycle antigens, gives rise to a predominantly CD4+ T cell response. Furthermore, the growth of EBV-infected B cells can also be regulated by these activated CD4+ T cells through apoptosis mediated by CD95-CD95 ligand (CD95L). CD95-CD95L-mediated apoptosis is an important mechanism of normal B cell growth regulation. As EBV-transformed B cells remain susceptible to this mechanism, the control of EBV in vivo may be not only by virus-specific CD8+ cytotoxic T cell immunity but also by normal mechanisms of immune regulation of B cell growth.     

Unmethylated CpG-containing oligodeoxynucleotides inhibit apoptosis in WEHI 231 B lymphocytes induced by several agents: evidence for blockade of apoptosis at a distal signalling step

Certain oligodeoxynucleotides (ODN) containing cytosine followed by guanosine (CpG) protect B cells from apoptosis, and induce B-cell proliferation and cytokine production. We investigated the effect of phosphorothioate CpG-containing ODNs (5'-ATAATCGACGTTCAAGCAAG-3' or 5'-TCCATGACGTTCCTGACGTT-3') and control ODNs (which did not contain CpG) on apoptosis and cell growth in WEHI 231 murine B lymphoma cells. Anti-surface (alpha-s)IgM antibody induces 40-60% DNA degradation and growth arrest of WEHI 231 cells in 24 h. Both of these effects were substantially reversed by 30 ng/ml CpG-ODN added up to 8 hr after alpha-sIgM. Control ODNs not containing the CpG motif were without effect. We explored various hypotheses to account for these effects. The phorbol ester, 12-O-tetradecanoyl phorbol-13-acetate, inhibits apoptosis induced by alpha-sIgM, but the anti-apoptotic effect of CpG-ODN was not affected by inhibitors of protein kinase C, indicating that CpG-ODN does not act via protein kinase C. CpG-ODN inhibited apoptosis and growth arrest induced by C2- and C8-ceramide, sphingomyelinase and an intracellular Ca2+ pump inhibitor thapsigargin, indicating that inhibition is not mediated via suppression of the ceramide cycle or suppression of Ca2+ mobilization. CpG-ODN partially inhibited apoptosis induced by okadaic acid, a protein phosphatase inhibitor, and by menadione, a free radical generator. CpG-ODN also inhibited apoptosis and growth arrest induced by ultraviolet-irradiation, glucocorticoid, vinca alkaloids, and doxorubicin. CpG-ODN significantly protected cells from DNA fragmentation induced by alpha-sIgM in the presence of cycloheximide, but cycloheximide itself induces apoptosis which was unaffected by CpG-ODN. These results suggest that CpG-ODNs powerfully modulate the process by which immune cells are committed to death or proliferation by a mechanism acting on distal cell signalling events. CpG-ODNs may be able to decrease immunosuppression in patients undergoing cancer chemotherapy.     

CD40 cross-linking inhibits specific antibody production by human B cells

Ligation of CD40 on B cells is a co-stimulatory signal for proliferation, antibody secretion, heavy chain switching and rescue from apoptosis after somatic mutation in the germinal centre. The importance of these manifold responses to CD40 activation for humoral immunity is exemplified by the inability of boys with X-linked hyper IgM syndrome to make IgG, IgE or IgA due to a mutation in in the gene coding for CD40 ligand (CD40L). In the present study, we have investigated the effect of CD40 ligation on specific antibody production by human B cells to influenza virus. The antibody response was T cell dependent and specific for the strain of influenza virus used as antigen. Addition of either CD40 mAb or recombinant trimeric CD40L profoundly inhibited specific antibody production. Antibody production by unseparated tonsillar mononuclear cells and by T-depleted B cells stimulated with antigen in the presence of T cell replacing factor were equally inhibited with CD40 antibody showing that the effect was due to ligation of CD40 on B cells rather than blocking of T cell help. The specific antibody detected in these experiments was mostly IgG with little or no IgM and was obtained from surface IgM B cells consistent with activation of a secondary (memory) response. Co-stimulation of tonsillar B cells with CD40 antibody and anti-IgG induced proliferation of IgG+ B cells. These results suggest that CD40 ligation can inhibit specific antibody responses and stimulate proliferation in the same IgG+ (memory) B cell subpopulation. Addition of CD40 antibody during the first 24-48 h of the response was required for inhibition, suggesting that the effect was on early B cell activation and/or proliferation required for antibody production. There was no correlation, however, between the ability of CD40 mAb to stimulate proliferation and inhibit antibody production. We suggest that early activation of CD40 in the specific antibody response inhibits the formation of plasma cells and promotes instead the generation of memory cells.     

Expression of costimulatory molecules, B7-1 and B7-2 on human gastric carcinoma

Costimulation of T cells via B7-1 and B7-2 molecules on a tumor has been shown to be important for eliciting cell-mediated antitumor immunity. We studied the surface expression of B7-1 and B7-2 in 24 cases of gastric carcinoma from the primary locus, 20 cases of metastatic carcinoma from malignant ascites, 20 cases of benign gastric mucosa and 7 gastric carcinoma cell lines by two-color flow cytometry with mAb CD80 and CD86. The B7-1 and B7-2 molecules were expressed by 6 cell lines, and 1 cell line showed the predominant expression of B7-2 but not B7-1. Almost all patients with primary gastric carcinoma and benign gastric mucosa showed high levels of expression of the B7-1 and B7-2, revealing approximately 40%-60% positive cells. However, the percentage of B7-1-positive cells of poorly differentiated primary carcinomas was significantly lower than that of well-differentiated carcinoma and normal mucosa (P < 0.01). Furthermore, all of the metastatic carcinoma cells revealed consistently very low or undetectable levels of expression of the B7-1 molecule, only 8% (mean) of cells being positive, despite showing higher levels of B7-2 expression. Thus, it seems likely that decreased or deleted expression of B7-1 correlates with the grade of tumor differentiation, tumor progression and metastasis. These results suggest that the B7-1 molecule on the gastric carcinoma bearing CD80+CD86+ is abrogated during tumor invasion and/or metastasis, and the tumor finally acquires the CD80-CD86+ phenotype. Consequently, inadequate B7-1 costimulation may contribute to the escape of tumors from destruction by the host's immune system.     

Epitope specificity of the anti-(B cell lymphoma) monoclonal antibody, LL2

LL2 is a murine monoclonal antibody IgG2a reactive with B cells and non-Hodgkin's B-cell lymphoma, which, in a radioiodinated form, induces responses in lymphoma patients [Goldenberg et al. (1991) J Clin Oncol 9:548-564]. In this report we identify LL2 as a member of the CD22 cluster. The molecular size of the antigen, its expression profile, and competitive blocking studies were used to establish this identification. By Western blot analysis and immunoprecipitation studies using the Raji Burkitt's lymphoma cell line metabolically labelled with [3H]leucine, the LL2 antigen was determined to correspond to a molecular mass of 140 kDa. The molecular mass of the LL2 antigen, and the B-cell-restricted reactivity of the LL2 antibody, were consistent with both the CD21 and CD22 clusters. To assess additional similarities and differences between LL2 and anti-CD22 and anti-CD21, the binding of these mAb to cultured cell lines, Nalm-6 and Molt-4, was compared by flow cytometry. The binding profile of LL2 on these cell lines was consistent with anti-CD22, but not anti-CD21. Sequential immunoprecipitation and cross-blocking studies with anti-CD22 monoclonal antibodies recognizing established CD22 epitopes were performed to confirm that LL2 reacts with CD22 and to determine which epitope LL2 recognizes. Binding of 131I-LL2 to Raji cells is inhibited over 90% by prior incubation of the target cells with unlabelled RFB4, indicating that LL2 belongs to the same epitope group as RFB4, i.e., epitope B.     

In vitro suppression of programmed cell death of B cells by tissue inhibitor of metalloproteinases-1

Cellular pathways for induction of programmed cell death (PCD) have been identified, but little is known about specific extracellular matrix processes that may affect apoptosis along those pathways. In this study, a series of Burkitt's lymphoma (BL) cell lines were assayed for their expression of tissue inhibitor of metalloproteinases (TIMP)-1. Results indicate that TIMP-1-positive BL lines show resistance to cold-shock-induced apoptosis. Furthermore, recombinant TIMP-1, but not TIMP-2 or a synthetic metalloproteinase inhibitor (BB-94), confers resistance to apoptosis induced by both CD95-dependent and -independent (cold shock, serum deprivation, and gamma-radiation) pathways in TIMP-1-negative BL lines. TIMP-1 suppression of PCD is not due to metalloproteinase inhibition, as reduction and alkylation of the TIMP-1 did not abolish this activity. Retroviral induction of TIMP-1 not only resulted in cell survival but also in continued DNA synthesis for up to 5 d in the absence of serum, while controls underwent apoptosis. This resistance to apoptosis is reversed by anti-TIMP-1 antibodies, demonstrating that secreted TIMP-1 is active in blocking apoptosis. Furthermore, TIMP-1 upregulation induced expression of Bcl-XL but not Bcl-2 as well as decreased NF-kappaB activity as compared with controls. These results demonstrate that TIMP-1 suppresses apoptosis in B cells and suggests a novel activity for TIMP-1 in tissue homeostasis.     

A radiographic quality control system for the dental office

The sensitivity of 18 permanent hemopoietic cell lines to Cyclosporin A (CsA) was tested in a 3H-thymidine incorporation rate assay. Two human T cell lines (Molt4 and CEM) were significantly inhibited by a CsA concentration of 0.5 microgram/ml. Not affected at all or only inhibited by 10 to 20 times higher CsA concentrations were: three human B cell lines (4413a, Daudi, Raji), a monkey B cell line (B95-8), a mouse plasmocytoma line (X63-Ag8/653), a human non-B T cell line (Reh), four human myeloid lines (HL-60, ML-1, ML-2, ML-3), a human myelomonocytic line (Karpas 230), four human monoblastic lines (U 937, SU-DHL-1, THP-1, Karpas 241) and a human erythroid line (K 562). It therefore seems that among permanently growing hemopoietic cells a cell type specificity for T cells also exists.     

Negative regulation of apoptotic death in immature B cells by CD45

Cross-linking of membrane IgM receptor on B cells induces tyrosine phosphorylation within 1 min. This biochemical alteration triggers a cascade of signaling events which ultimately leads to activation in mature B cells but growth arrest and cell death by apoptosis in immature B cells. To study the mechanisms underlying the bifurcation of signals, we chose to examine the role of receptor-type protein tyrosine phosphatase (PTP) CD45 using CD45- clones isolated from an immature B cell line WEHI-231. Here we report that in CD45- clones, tyrosine phosphorylation was constitutively induced but not enhanced by anti-IgM stimulation and anti-IgM-induced Ca2+ flux was slightly delayed but evidently prolonged. Further, the degree of growth arrest and DNA fragmentation induced by anti-IgM antibody was more evident in CD45- clones than the parental cells. These results indicate that initial alterations in signaling are effectively transduced into effector signals and that IgM receptor-mediated growth arrest and apoptosis in immature B cells are negatively regulated by CD45.     

Clinical comparison of an enhanced-sensitivity branched-DNA assay and reverse transcription-PCR for quantitation of human immunodeficiency virus type 1 RNA in plasma

We investigated whether inhibition of the BCR-ABL tyrosine kinase by the CGP57418B compound would render chronic myeloid leukaemia (CML) cells susceptible to Fas (CD95, Apo-1)-mediated cell death. Only two (AR230 and SD1) out of 10 BCR-ABL positive cell lines were found to express the CD95 protein. No change in Fas expression was observed in any of the 10 cell lines after 48 h exposure to CGP57418B. AR230 cells were resistant and SD1 cells were partially resistant to Fas-mediated apoptosis induced by ligation of the Fas receptor to an anti-Fas IgM antibody. Pre-incubation with 1 microM CGP57418B did not change the susceptibility of these cell lines to Fas-mediated cell death. Similar results were observed in experiments with CD34+ cells from CML patients and from normal individuals. The data suggest that, in contrast to some cytotoxic drugs, the CGP57148B tyrosine kinase inhibitor utilizes a pathway other than the CD95 system in order to induce apoptosis in CML cells.     

Overexpression of bcl-2 or bcl-XL fails to inhibit apoptosis mediated by a novel retinoid

Overexpression of bcl-2 or bcl-XL has been found to inhibit the induction of apoptosis in malignant cells by a large number of agents including a wide variety of chemotherapeutic drugs. CD437 ?6-[3-(1-adamantyl)-4 hydroxyphenyl]-2-naphthalene carboxylic acid? is a novel retinoid that induces apoptosis in a number of malignant cells through a unique mechanism of action. The addition of 1 microM CD437 to HL-60/NEO cells resulted in capase 3 (CPP32) activation and poly(ADP-ribose) polymerase (PARP) cleavage in 3 h whereas in bcl-2- or bcl-XL-overexpressing HL-60 cells CD437 induced CPP32 activation and PARP cleavage in 6 h. Although 50 and 300 nM CD437 were required to induce PARP cleavage in HL-60/NEO and HL-60/bcl-2, HL-60/bcl-XL cells, respectively, maximal apoptosis in both cell lines was achieved utilizing 300 nM CD437. All three cell lines, however, share identical dose-response curves in terms of their growth inhibition, suggesting that CD437-mediated inhibition of growth and induction of apoptosis represent two distinct and separable processes. In addition, CD437 induces GI arrest as well as p21WAFI/CIPI mRNA expression in these cells despite the overexpression of bcl-2 or bcl-XL. CD437 induced mitochondrial instability as indicated by cytochrome c leakage into the cytoplasm in all three cell lines. CD437 also induced growth inhibition and apoptosis of an apoptosis-resistant variant of the HL-60 cell line (HCW-2), which switched expression from bcl-2 to bcl-XL. CD437-mediated apoptosis is not accompanied by downregulation of bcl-2 or bcl-XL or upregulation of bax. The reason for the inability of bcl-2 or bcl-XL overexpression to inhibit CD437-mediated apoptosis is unclear. The ability of CD437 to initiate apoptosis in a spectrum of malignant cells without interference from bcl-2 or bcl-XL overexpression suggests that CD437 may possess significant therapeutic potential in the treatment of malignancy.     

Apoptosis of malignant human B cells by ligation of CD20 with monoclonal antibodies

CD20 is a nonglycosylated 33 to 37 kD phosphoprotein involved in B-cell signaling that subserves important functions in the regulation of B-cell proliferation and differentiation. In addition, this B-cell surface antigen has been shown recently to be an effective target for immunotherapy of B-cell malignancies using chimeric (mouse/human) or radiolabeled murine monoclonal anti-CD20 antibodies. In this report we show that extensive crosslinking of CD20 with murine anti-CD20 monoclonal antibodies (MoAbs) in the presence of either goat anti-mouse IgG or Fc receptor (FcR)-expressing cells directly inhibits B-cell proliferation, induces nuclear DNA fragmentation, and leads to cell death by apoptosis. The apoptotic effects of these MoAbs can be inhibited by chelation of extracellular or intracellular Ca2+ by EGTA or Bapta AM, indicating that anti-CD20-mediated apoptosis may be related to changes in Ca2+ concentration. These findings suggest that ligation of CD20 in vivo by anti-CD20 antibodies in the presence of FcR-expressing cells may initiate signal transduction events that induce elevation of [Ca2+]i and lead to apoptosis of malignant B cells, thereby contributing to the impressive tumor regressions observed in mouse models and clinical trials using anti-CD20 MoAbs.     

Induction of death (CD95/FAS), activation and adhesion (CD54) molecules on blast cells of acute myelogenous leukemias by TNF-alpha and IFN-gamma

Leukemic growth is determined by the balance of cell proliferation, differentiation and cell death. In vitro, the blasts of acute myelogenous leukemia (AML) proliferate under the influence of certain positive and negative regulators (cytokines). We conducted this study to determine whether cytokines could induce markers of cell death (FAS/Apo-1/CD95), of cell activation (HLA-DR) and cell adhesion (ICAM-1, CD54) in AML cell lines and primary AML samples. As inducers, tumor necrosis factor (TNF)-alpha and interferon (IFN)-gamma were chosen. At baseline, CD95 and CD54 were weakly and HLA-DR was strongly expressed. CD95 was induced by TNF in 6/12 myeloid leukemia cell lines, and by IFN in 9/12 cell lines. Taken together, CD95 was upregulated by at least one cytokine in 11/12 cell lines. HLA-DR was inducible in 10/12 cell lines, with IFN being more potent than TNF. CD54 showed the strongest induction: TNF resulted in a more than 20-fold induction in positive cell lines, and IFN resulted in a more than 20-fold induction. In primary AML samples, CD95 was induced in 14/14 samples examined, with TNF being more potent than IFN. HLA-DR expression was increased by IFN in 12/15 samples and by TNF in 11/13 samples. The inducibility of HLA-DR by IFN was inversely correlated with baseline expression. As in the cell lines, CD54 was induced in most cases of AML. In addition to the induction of surface markers by cytokines, the culture of leukemia cells with fetal calf serum increased the expression of these markers, especially CD95 and CD54. Our results demonstrate that CD95 is not downregulated when TNF binds to its receptors, but is induced in cell lines and patient samples. Despite the induction of expression of CD95 (all cases of AML and most cell lines), 7/8 myelogenous leukemia lines and 6/7 patient samples remained resistant to CD95 triggering by antibody or by CD95 ligand, which suggests a lesion in normal cell signaling. As a positive control, a T-cell line (Jurkat) with 60% to > 90% apoptotic cells after a 22 h incubation was used. The number of CD95-binding sites was not correlated with the induction of apoptosis. The resistance of most cases of AML to CD95 triggering despite inducible expression may also be related to leukemia-specific antagonists of CD95 signal transduction, and requires further investigation. Altogether, our results indicate that surface markers related to apoptosis, activation and adhesion can be induced on AML blasts, and could be relevant to treatment strategies that exploit ligand binding to these surface epitopes.     

The B7/BB1 antigen is expressed by Reed-Sternberg cells of Hodgkin's disease and contributes to the stimulating capacity of Hodgkin's disease-derived cell lines

The B7/BB1 molecule has recently been found to be expressed on professional antigen-presenting cells and to be the natural ligand for CD28 and CTLA-4 on T cells. On binding of B7/BB1, CD28 transduces a signal that synergizes with triggering of the T-cell antigen receptor, resulting in enhanced cytokine secretion. In view of the data supporting an antigen-presenting function of Reed-Sternberg cells, we evaluated the expression of B7/BB1 in lymph nodes affected by Hodgkin's disease. B7/BB1 was found to be strongly expressed by the Reed-Sternberg cells in all 47 cases of Hodgkin's disease studied. Moreover, Reed-Sternberg cells were frequently surrounded by CD28-expressing T cells. Evidence for a functional role of B7/BB1 on Reed-Sternberg cells was obtained by our findings that T-cell proliferation and interleukin-2 (IL-2) production in the primary allogenic mixed lymphocyte reaction (MLR), using the B7/BB1-expressing Hodgkin's disease-derived cell lines L428 and KM-H2 as stimulators, could be partially blocked by adding anti-B7 monoclonal antibody. B7/BB1 expression was also evaluated in a group of non-Hodgkin's lymphomas (n = 46). Whereas B7/BB1 was not expressed by the neoplastic cells of most non-Hodgkin's lymphomas, including T-cell-rich B-cell lymphoma (n = 11), it was present on the neoplastic cells of anaplastic large-cell lymphoma (Ki-1 lymphoma) (n = 5) and follicular lymphoma (n = 4). Our data provide further evidence for an accessory cell function of Reed-Sternberg cells. The accessory cell function of Reed-Sternberg cells might lead to pronounced T-cell activation in vivo, which might contribute to the Hodgkin's syndrome. In addition, our study indicates that B7/BB1 may be a useful marker for differentiating Hodgkin's disease from morphologically similar conditions such as T-cell-rich B-cell lymphoma.     

A regulatory role for Fcgamma receptors CD16 and CD32 in the development of murine B cells

Early in development, murine B-lineage progenitor cells express two classes of IgG Fc receptors (FcgammaR) designated as FcgammaRII (CD32) and FcgammaRIII (CD16), but mature B lymphocytes only express FcgammaRII (CD32), which functions as an inhibitor of B-cell activation when it is induced to associate with mIgM. The functions of CD16 and CD32 on B-lineage precursor cells have not previously been investigated. To search for FcgammaR functions on developing B-lineage cells, normal murine bone marrow cells were cultured in the presence of 2.4G2, a rat monoclonal antibody that binds to CD16 and CD32, or in the presence of control normal rat IgG, and then the B-lineage compartment was analyzed for effects. Cultures that contained 2.4G2 showed enhanced growth and differentiation of B-lineage cells compared with control cultures. The enhancing effect of 2.4G2 also occurred when fluorescence-activated cell-sorted B-cell precursors (B220(+), sIgM-, HSAhigh, FcgammaR+) from normal bone marrow were cocultured with BMS2, a bone marrow stromal cell line, but not when they were cultured in BMS2-conditioned media. The enhancement of B-lineage development induced by 2.4G2 was CD16-dependent and CD32-dependent, because 2.4G2 did not effect B-lineage growth or differentiation in cultures of bone marrow from mice in which either the gene encoding CD16 or CD32 had been disrupted. Analysis of fresh bone marrow from the CD16 gene-disrupted mice showed normal numbers and distribution of cells within the B-cell compartment, but in CD32 gene-disrupted mice, the B-cell compartment was significantly enlarged. These experiments provide several lines of evidence that the FcgammaR expressed on murine B-cell precursors can influence their growth and differentiation.