Analysis of effector cells in human antibody-dependent cellular cytotoxicity with murine monoclonal antibodies

We examined purified human large granular lymphocytes, peripheral monocytes, and T cells for their ability to mediate antibody-dependent cellular cytotoxicity (ADCC) with murine monoclonal antibodies. We also evaluated the effects of pretreatment of cells with interleukin 2 and interferon to augment ADCC activity. MB3.6, a murine monoclonal antibody directed against the GD3 ganglioside, induced high levels of ADCC. This ADCC was mediated predominantly, if not completely, by human killer cells (large granular lymphocytes) whereas other effector cell populations demonstrated no significant cytotoxic activity in 6- or 18-hr assays. The IgG2a an anti-melanoma antibody 9.2.27 generated low or no ADCC with most normal donors or melanoma patients. IL 2 was a very potent booster of ADCC activity. Interferon alpha also was effective, whereas interferon gamma did not augment but rather inhibited reactivity. We tested a large panel of antibodies of various isotype against colon carcinoma cells and found that gamma-3 isotype antibodies more frequently generated ADCC and produced higher levels of cytotoxic activity than did IgG1 or IgG2 antibodies. It appears that a variety of parameters can affect ADCC reactions, including the type of effector cell and its level of activation, the isotype of the antibody, and properties of the target cell line such as its susceptibility to lysis.     

Treatment of a murine B cell lymphoma with monoclonal antibodies and IL 2

A transplantable murine B cell lymphoma was used to study combination therapy with anti-idiotype antibody and interleukin 2 (IL 2). Class-switched IgG2a and IgG2b antibodies were compared. A marked additive and sometimes synergistic effect was seen when IL 2 was combined with either IgG2a or IgG2b anti-idiotype antibodies. A synergistic effect was also seen when similar experiments were performed in nude mice. In vitro antibody-dependent cellular cytotoxicity (ADCC) assays showed that IL 2 enhanced antibody-mediated lysis by peritoneal cells exposed to IL 2 in vitro in a dose-related manner. Peritoneal cells harvested from mice treated in vivo with IL 2 contained an increased number of T cells and asialo GM+ natural killer cells, and also mediated enhanced ADCC. Depletion of natural killer cells with anti-asialo GM and complement resulted in a marked decrease in the antibody-dependent cytotoxicity mediated by these peritoneal cells. The mechanism of synergy between monoclonal antibody and IL 2 may be due to the direct or indirect activation of natural killer cells mediating ADCC.     

Production and biological activity of murine monoclonal antibodies against GnRH

Immunization against GnRH represents a nonsurgical means of castrating domestic species. However, clear target antibody titres for bioactivity have not been established. The aims of this study were to produce characterized anti-GnRH monoclonal antibodies and to determine a threshold titre. Three murine monoclonals were developed which produced IgG2a class immunoglobulins and bound 50% I(125)-GnRH at a 10(6) to 10(7) dilution. The antibodies were specific to GnRH, showed a strong affinity (Ka values from 1.99 to 2.60 x 10(10) litres/mole), and were directed towards the amino terminus. In female mice all 3 antibody clones interrupted ovarian cyclicity, causing an extension in diestrus followed by prolonged estrus/metestrus (12 to 30 d). Throughout this period circulating titres were greater than 15% I(125)-GnRH binding at a 5 x 10(4) dilution. In male mice, immunization with 0.2 ml of ascites significantly reduced testes (P < 0.05), epididymides (P < 0.001) and seminal vesicle (P < 0.01) weights. A 0.1 ml dose (61.4 +/- 18.6% binding at a 10(6) dilution) was ineffective. A serial dilution study indicated that a titre of 50% binding at 2 x 10(6) dilution (antigen binding capacity of 268 +/- 35 ng/ml) was required to completely block GnRH activity. This is a higher tire than threshold levels determined previously. Identification of factors determining the titre required for bioactivity is needed.     

Development of monoclonal antibodies that specifically interact with necrotic lymphoma cells

The immune system has evolved mechanisms to sense not only microbes, but also necrotic cells. The pattern-recognition receptors in macrophages/dendritic cells that stimulate the acquired immune system are closely associated with danger signaling. In this study monoclonal antibodies (mAbs) that specifically interact with necrotic cells were developed. One IgG1 and two IgM mAbs were established, and they recognized a 80 kDa protein expressed in necrotic, but not live or apoptotic, cells. These mAbs, which serve as a probe for necrosis, facilitate analyses of the role of the immune complex that consists of necrotic cells and Ab and contributes to the formation of the inflammatory milieu induced by necrotic cell death.     

Cytolytic antibodies to murine lymphomas elicited by immunization with allogenic and syngenic tumors

C57BL/6 mice immunized with allogenic L#2 tumor cells or syngenic EL-4 tumor cells produced lytic antibodies directed against cell-surface antigens present on EL-4 tumor cells but absent from normal C57BL/6 tissues. Such immunized C57BL mice also exhibited prolonged survival after challenge with syngenic EL-4 tumor cells.     

Tritrichomonas foetus: preparation of monoclonal antibodies with effector function

Monoclonal antibodies were prepared against Tritrichomonas foetus and characterized with regard to binding and immune effector activities. Nine of 27 monoclonal antibodies which reacted with T. foetus appeared to bind to the surface of live parasites. Immunoelectron microscopy confirmed the surface binding of two of these. At least six of these surface reactive monoclonal antibodies facilitated complement mediated lysis of T. foetus and one acted as an opsonin for phagocytosis by peripheral blood bovine monocytes. Five surface reactive monoclonal antibodies identified a molecule of approximately 150,000 relative molecular weight on Western blots of whole parasite preparations. These results collectively suggest the 150,000 relative molecular weight molecule may be an important target antigen for the immune response to T. foetus.     

Monoclonal anti-human tumor antibodies of six isotypes in cytotoxic reactions with human and murine effector cells

Eighty-seven murine monoclonal antibodies (MAb) produced against human tumors of various origins and representing six different immunoglobulin classes were tested for antitumor reactivity in antibody-dependent cell-mediated cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC) assays. Mouse splenocytes, thioglycolate-elicited mouse peritoneal macrophages, freshly obtained nonadherent human peripheral blood lymphocytes, and human monocytes were used as effector cells, and human or rabbit serum as the source of complement. Of all four effector cell types tested, mouse macrophages showed the highest cytotoxic activity, based on net cytotoxicity, minimum requirement for Mab concentration, and effector cell number. Different immunoglobulin classes were associated with characteristic patterns of reactivity with the various effector cells or complement, independent of the target cell type used. MAb able to mediate ADCC were found among all IgG subclasses, with IgG2a and IgG3 MAb inducing lysis with all effector cell types. IgM and IgA MAb were nonreactive in the various ADCC assays, but IgM MAb were highly cytotoxic with complement.     

Cytolytic activity of antigen-specific T cells with helper phenotype

We have investigated an unusual cytolytic activity displayed in vitro by cloned T cells which have the cell surface phenotype of helper T cells. When the cloned T cells are cultured with the appropriate antigen and antigen-presenting cells (APC), the T cells become activated in that they produce lymphokines and proliferate in an antigen-specific and major histocompatibility complex-restricted manner. At the same time, these T cells cause lysis of the APC. In addition, innocent non-histocompatible bystander cells present in the cultures can also be killed. The cytolytic activity may be involved in a mechanism of immune regulation.     

Treatment of murine B cell lymphoma with bispecific monoclonal antibodies (anti-idiotype x anti-CD3).

It has previously been reported that T lymphocytes can be targeted by using bispecific antibodies consisting of anti-target antibody and anti-CD3. In the present study, a bispecific mAb was developed by somatic hybridization of mouse hybridomas, one producing a mAb against the Id determinant of the mouse B cell lymphoma 38C13 and the other a mAb against a polymorphic determinant on murine CD3. The bispecific antibody, anti-38C13 x anti-CD3, is bi-isotypic (IgG1 x IgG2a) and was purified by ion exchange and affinity chromatography. The dual specificity of the hybrid hybridoma-produced mAb could be demonstrated by flow cytometry, the induction of T cell proliferation, the induction of IL-2 secretion by polyclonal T cells, and redirected lysis of the relevant target cells. The hybrid (bi-isotypic) Fc part of the bispecific antibodies was nonfunctional in FcR-dependent redirected lysis. In vivo studies demonstrate that this bispecific mAb could efficiently target T cells towards the tumor cells, resulting in long term survival and cure of the lymphoma.     

Construction of humanized anti-ganglioside monoclonal antibodies with potent immune effector functions

 Gangliosides GD3, GD2 and GM2, which are the major gangliosides expressed on most human cancers of neuroectodermal and epithelial origin, have been focused on as effective targets for passive immunotherapy with monoclonal antibodies. We previously developed a chimeric anti-GD3 mAb, KM871, and a humanized anti-GM2 mAb, KM8969, which specifically bound to the respective antigen with high affinity and showed potent immune effector functions. Humanization of anti-ganglioside antibody is expected to enhance its use for human cancer therapy. In the present study, we generated a chimeric anti-GD2 mAb, KM1138, and further developed the humanized form of anti-GD2 and anti-GD3 mAbs by the complementarity-determining regions grafting method. The resultant humanized anti-GD2 mAb, KM8138, and anti-GD3 mAb, KM8871, showed binding affinity and specificity similar to those of their chimeric counterparts. In addition, both humanized mAbs had functional potency comparable to the chimeric mAbs in mediating the immune effector functions, consisting of antibody-dependent cellular cytotoxicity and complement-dependent cytotoxicity. The production of these humanized anti-ganglioside mAbs, with potent effector functions and low immunogenicity, precedes the evaluation of the therapeutic value of anti-ganglioside mAbs in passive immunotherapy and the target validation for ganglioside-based vaccine therapy. Received: 30 November 2000 / Accepted: 30 January 2001     

Comparative activity of Sant7 and anti-IL-6, IL-6R monoclonal antibodies in a murine model of B-cell lymphoma

Interleukin-6 (IL-6) plays a central role in the pathogenesis of several autoimmune and inflammatory diseases as well as B-cell lymphoproliferative disorders. This work describes the effects of the recombinant or adenovirally-delivered IL-6 superantagonist Sant7, anti-IL-6 and IL-6 receptor monoclonal antibodies in a severe murine model of human B-cell lymphoma induced in SCID mice by transplantation of an LCL-41 cell line variant (isotype-switched IgM>IgG). Survival of 60% of the animals treated with anti-gp130 was observed up to day 33, while about 20% of the animals survived with anti-gp80 and Sant7 treatment. No survival was observed with the anti-IL-6 monoclonal antibody treatment. No significant change in serum and peritoneal levels of human IL-6 (hIL-6) and soluble human IL-6 receptor (shIL-6R) was observed in the recombinant Sant7-treated group towards the control group. The anti-gp80 monoclonal antibody induced significant increase of both hIL-6R and hIL-6 in serum and peritoneum. The anti-gp130 monoclonal antibody treatment determined a reduction of the seric shIL-6R and a significant increase of the seric hIL-6. Anti-IL-6 monoclonal antibody administration resulted in a reduction of serum and in an increase of peritoneal hIL-6. Treatment with adenoviral Sant7 was associated with a reduction of circulating shIL-6R, hIgG and mSAP. However, only marginal anti-tumor efficacy of the adenoviral Sant7 was observed. Overall, the present data suggest a potential for anti-hIL-6 therapy in B-cell lymphomas. Less severe animal models might be useful to better evaluate Sant7 efficacy alone or in combination with other anti-IL-6 therapeutics.     

Immunotherapy of murine sarcomas with auto-anti-idiotypic monoclonal antibodies which bind to tumor-specific T cells

Hybridomas producing monoclonal antibodies (mAb) were obtained from BALB/c mice immunized against either of two transplanted, chemically induced syngeneic sarcomas, MCA-1490 or MCA-1511. Two mAb, 4.72 and 5.96, were obtained, one from each immunization. They were found to have apparent anti-idiotypic specificity in that they, when injected s.c., primed naive BALB/c mice for delayed-type hypersensitivity that was specific for the immunizing tumor and required homology at genes linked to the Igh-1 allotype locus. Neither mAb bound tumor antigen. When mice with established transplants of MCA-1490 or MCA-1511 were treated by repeated i.p. injections of the appropriate anti-idiotypic mAb (4.72 and 5.96, respectively), a significant reduction in tumor growth was observed in those mice that had received the appropriate mAb. The idiotope defined by mAb 4.72 was expressed by T cells in mice responding to MCA-1490. mAb 4.72 bound to T cell suppressor factors that were specific for MCA-1490 and were derived from T cell hybridomas or sera of mice bearing MCA-1490. mAb 4.72 also bound to cells from lymph nodes draining the area of a growing MCA-1490 tumor. It was used, in combination with cell sorting, to establish a T cell line, which mediated delayed-type hypersensitivity to MCA-1490 and inhibited the outgrowth of MCA-1490 in BALB/c mice. Thus, mAb specific for idiotopes on T cells responding to syngeneic tumor antigen had both direct immunotherapeutic activity and could be used to establish cultures of tumor-reactive T cells.     

Analysis of the murine sperm surface with monoclonal antibodies

Hybridomas secreting monoclonal antibodies reactive with murine spermatozoa were produced by fusion of myeloma cells with spleen cells from C57BL/6J mice immunized with spermatozoa from mice of the same strain. All antisperm antibodies were of the mu (mu) immunoglobulin heavy chain class; only one (MS-1) bound S. aureus protein A. Antibody MS-1 recognized an antigen present on the sperm acrosomal cap, on the surface of cells from liver and kidney and from some cultured cell lines. The subunit molecular weight (69000) of the polypeptide reactive with MS-1 was determined by SDS-PAGE analysis of sperm membrane proteins followed by their electrophoretic transfer to nitrocellulose.     

Natural killing and antibody-dependent cellular cytotoxicity: characterization of effector cells by E-rosetting and monoclonal antibodies

Recent investigations have indicated that the OKM1 hybridoma monoclonal antibody reactive with cells of the myelomonocytic series identifies a subpopulation of human peripheral blood mononuclear cells (PBMNC) which mediate natural and antibody-dependent cellular cytotoxicity (ADCC). However, it was not clear whether this OKM1+ group was heterogeneous with regard to cytotoxic function or the presence of receptors for sheep erythrocytes. Thus, the purpose of the present study was to further define the phenotype of the ADCC effector cell and natural killer (NK) cell using a combination of reactivity with hybridoma antibodies and separation of subsets by sheep erythrocyte rosette (E+) formation. Furthermore, the phenotypes of the NK population were assessed directly by performing two-color immunofluorescent staining on tumor cell conjugates. These studies led to the following conclusions: (1) that NK activity is mediated by both E+ OKM1+ and E- OKM1+ cells; the E+ OKT3+ cell possessed essentially no ADCC or NK activity; (2) that E+ OKM1+ cells mediated more NK activity on a per cell basis than E- OKM1+ cells; this was verified by separating OKM1+ cells on a cell sorter into E+ and E- with the OKT11 monoclonal antibody (anti-E-receptor antibody); (3) that E+ OKM1+ cells mediated both ADCC and NK activity; (4) that the phenotypes of PBMNC forming tumor cell conjugates were (a) OKM1+ (both E-receptor positive and negative) and (b) OKM1- E-receptor positive.     

Engineered Fc variant antibodies with enhanced ability to recruit complement and mediate effector functions

Engineering the antibody Fc region to enhance the cytotoxic activity of therapeutic antibodies is currently an active area of investigation. The contribution of complement to the mechanism of action of some antibodies that target cancers and pathogens makes a compelling case for its optimization. Here we describe the generation of a series of Fc variants with enhanced ability to recruit complement. Variants enhanced the cytotoxic potency of an anti-CD20 antibody up to 23-fold against tumor cells in CDC assays, and demonstrated a correlated increase in C1q binding affinity. Complementenhancing substitutions combined additively, and in one case synergistically, with substitutions previously engineered for improved binding to Fc gamma receptors. The engineered combinations provided a range of effector function activities, including simultaneously enhanced CDC, ADCC, and phagocytosis. Variants were also effective at boosting the effector function of antibodies targeting the antigens CD40 and CD19, in the former case enhancing CDC over 600-fold, and in the latter case imparting complement-mediated activity onto an IgG1 antibody that was otherwise incapable of it. This work expands the toolkit of modifications for generating monoclonal antibodies with improved therapeutic potential and enables the exploration of optimized synergy between Fc gamma receptors and complement pathways for the destruction of tumors and infectious pathogens.Key words: antibody, Fc, complement, CDC, C1q, ADCC, phagocytosis, CD20, CD19, CD40     

Engineered Fc variant antibodies with enhanced ability to recruit complement and mediate effector functions

Engineering the antibody Fc region to enhance the cytotoxic activity of therapeutic antibodies is currently an active area of investigation. The contribution of complement to the mechanism of action of some antibodies that target cancers and pathogens makes a compelling case for its optimization. Here we describe the generation of a series of Fc variants with enhanced ability to recruit complement. Variants enhanced the cytotoxic potency of an anti-CD20 antibody up to 23-fold against tumor cells in CDC assays, and demonstrated a correlated increase in C1q binding affinity. Complement-enhancing substitutions combined additively, and in one case synergistically, with substitutions previously engineered for improved binding to Fc gamma receptors. The engineered combinations provided a range of effector function activities, including simultaneously enhanced CDC, ADCC, and phagocytosis. Variants were also effective at boosting the effector function of antibodies targeting the antigens CD40 and CD19, in the former case enhancing CDC over 600-fold, and in the latter case imparting complement-mediated activity onto an IgG1 antibody that was otherwise incapable of it. This work expands the toolkit of modifications for generating monoclonal antibodies with improved therapeutic potential, and enables the exploration of optimized synergy between Fc gamma receptors and complement pathways for the destruction of tumors and infectious pathogens.