Syngeneic monoclonal antimelanoma antibodies and their application for analysis of tumor antigens, gene cloning, and in vitro/in vivo diagnosis

In this article, we summarized syngeneic monoclonal antimelanoma antibodies and their application for chemical characterization of mouse melanoma antigens, cloning of genomic DNA controlling antigen expression, and in vivo/in vitro tumor diagnosis. The melanoma antigen is composed of a protein complex in association with GM3(NeuAc)-like sugar moiety. The GM3 structure expresses the cross-species epitopes shared in various mammalian species, whereas the mouse specific melanoma epitope is present on protein molecules. By using the monoclonal antimelanoma reactive with GM3 epitope, we developed a very sensitive sandwich radioimmunoassay system detecting soluble melanoma antigens equivalent to 10(2)-10(3) cells/ml. The antibody was also useful in imaging tumor in vivo. These results indicate that the antibody with cross-species reactivity has a potential for tumor targeting. The monoclonal antibody M562 recognizing protein molecule with species specific epitope but not other antimelanoma antibodies, however, effectively inhibited experimental lung metastasis of melanoma cells, indicating that the M562 epitope seems to possess important biological functions. Recently, the genomic DNA controlling the antigen expression was successfully isolated by DNA transfection and expression technique with monoclonal anti-melanoma M562 and the fluorescence-activated cell sorter. We also found that genomic DNA possesses transformation-related activity in NIH3T3 cells.     

Significance of antigen, drug, and tumor cell targets in the preclinical evaluation of doxorubicin, daunorubicin, methotrexate, and mitomycin-C monoclonal antibody immunoconjugates

We tested drug monoclonal antibody immunoconjugates in vitro in 72 h 3H-thymidine assays and in vivo in athymic mice bearing human tumor xenografts of the same target cells. Experimental arms included control, monoclonal antibody, drug, drug + antibody, the test immunoconjugate, and a negative control immunoconjugate with an equivalent molar amount of drug for in vitro experiments, and the amount of drug conjugated to 500 micrograms of antibody in the animal experiments. Monoclonal antibodies included T101, an IgG2a that reacts with a rapidly modulating antigen, 9.2.27, an IgG2a that reacts with a slowly modulating antigen, and ME7, an IgG1 that reacts with a slowly modulating antigen. Cells used in testing included MOLT-4 (T lymphoma), 8392 (B lymphoma), and M21 (melanoma). Drugs tested were doxorubicin, daunorubicin, methotrexate, and mitomycin-C. M21 cells were resistant to daunorubicin in vitro but were inhibited by the 9.2.27 daunorubicin immunoconjugate. T101, 9.2.27, and ME7 cis-aconitate anthracycline immunoconjugates and mitomycin-C-glutarate immunoconjugates were specifically cytotoxic only for antigen positive cells in vitro and were superior to free drug in vivo. These results confirm that antigen specific-cytotoxic drug immunoconjugates can be produced that are superior to the same dose of free drug. However, each monoclonal antibody drug target system is unique and must be well-characterized for appropriate interpretation of data.     

Idiotype vaccine for tumor by anti-idiotypic antibody prepared against anti-(bacillus Calmette Guèrin)BCG monoclonal antibody

Summary The anti-idiotypic antibody (Ab2) prepared against the anti-BCG monoclonal antibody (mAb) (Ab1) exhibited potential vaccine activity against Meth A fibrosarcoma that shared a common antigen(s) withMycobacterium bovis strain bacillus Calmette Guèrin (BCG). Mice vaccinated with the anti-idiotypic antibody (Ab2) were protected significantly against growth of the transplanted Meth A tumor (66%), and the presence of anti-(anti-idiotypic antibody) (Ab3) was proved in the Ab2-vaccinated mice by enzyme-linked immunosorbent assay and indirect immunofluorescence analyses using unabsorbed or absorbed sera against the BCG antigen(s) and Meth A tumor cells. This indicated that the anti-idiotypic antibody (Ab2) mimicked the structures of the BCG antigen(s) and behaved as the BCG antigen(s) to induce the Abl-like antibody (Ab3) in vivo. Presumably the Ab2-induced Ab3 plays a significant role in preventing growth of the transplanted tumor in animals. By contrast, the control mice treated with normal mouse serum failed to inhibit the tumor growth. These results suggest the possible development of a tumor vaccine from the anti-idiotypic antibody (Ab2) prepared against the anti-BCG monoclonal antibody, for tumors sharing a common antigen(s) withMycobacterium bovis strain BCG.

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Idiotype vaccine for tumor by anti-idiotypic antibody prepared against anti-(bacillus Calmette Guèrin)BCG monoclonal antibody

     

Description of a murine B lymphoma tumor-specific antigen

By using monoclonal antibodies, a tumor-specific antigen (TSA 41.5) was detected on the cell surface of a B lymphoma CH-1 tumor variant, CH-1.1. This antigen is not expressed by normal lymphocytes (spleen cells, lymph node cells, thymocytes, bone marrow cells, or blast cells) of B10.A mice, the host strain of CH-1.1, or by the CH-1 lymphoma. Immunoprecipitation and biochemical characterization of TSA 41.5 with the use of two-dimensional gel electrophoresis showed this antigen to be a surface protein of CH-1.1 cells with an Mr of 80k and pI of 4.6. TSA 41.5 is not related to the murine transferrin receptor, and not to gp70, a viral envelope protein expressed by CH-1.1 cells, shown by comparative peptide map analysis of these three proteins. TSA 41.5 is a surface antigen unique to the CH-1.1 tumor, which is not expressed by the 19 different murine tumor lines that were tested nor by spleen cells of 15 independent mouse strains. In addition, treatment of spleen cells with bacterial lipopolysaccharide did not induce the expression of TSA 41.5. These characteristics of TSA 41.5 make it unlikely to be a product of viruses. Additional evidence against TSA 41.5 being a viral protein was obtained by the observation that antisera against viral proteins could not block the binding of the anti-TSA monoclonal antibody to its antigen. In vitro treatment of CH-1.1 cells with anti-TSA monoclonal antibody specifically inhibited the in vitro growth of the tumor cells in a dose-dependent fashion. The CH-1.1 tumor and monoclonal antibodies could be a useful murine model system for the exploration of the use of monoclonal antibodies for the in vivo treatment of cancer.     

A recombinant, fully human monoclonal antibody with antitumor activity constructed from phage-displayed antibody fragments

A single-chain Fv antibody fragment specific for the tumor-associated Ep-CAM molecule was isolated from a semisynthetic phage display library and converted into an intact, fully human IgG1 monoclonal antibody (huMab). The purified huMab had an affinity of 5 nM and effectively mediated tumor cell killing in in vitro and in vivo assays. These experiments show that nonimmunized phage antibody display libraries can be used to obtain high-affinity, functional, and clinically applicable huMabs directed against a tumor-associated antigen.     

Anti-idiotype responses abrogate anti-CD4–induced tolerance to a tumor-specific antigen and promote systemic tumor immunity

Purpose: Immunologic-based cancer treatment modalities represent an active area of investigation. Included in these strategies are passive administration of monoclonal antibodies which recognize tumor-associated antigens and active vaccination with identified tumor antigens. However, several problems associated with these types of treatment strategies have been identified. Methods: In this report, we address certain issues by employing a murine model for experimental pulmonary metastasis and a tumor antigen vaccination strategy that induces complete tumor immunity in this system. Utilizing this model, we attempt to address issues related to unresponsiveness to tumor antigen immunization induced by passive administration of a rat monoclonal anti-CD4 and the induction of anti-idiotype responses to a passively administered monoclonal antibody and the effects on the induction of tumor immunity. Results: The results presented indicate that passive administration of rat monoclonal anti-CD4 exhibits immunosuppressive effects that inhibit the production of antibodies to the tumor antigen immunization and abolishes tumor immunity. Repeated administration of the rat monoclonal anti-CD4 results in an anti-idiotype response that can abrogate unresponsiveness to tumor antigen immunization and promote systemic tumor immunity. Conclusions: The data examine a number of potential problems associated with immunologic-based treatments for cancer. These problems include the potential for tolerance to the tumor antigen and establishing an immunocompromised state where immunization with a tumor antigen failed to generate tumor immunity. Approaches to eliminate tolerant T cells by targeting anti-CD4 via anti-idiotype responses that could be generated in vivo without CD4⁺ T cells allowed for recovery of nontolerant T cells, and an antibody response to the tumor antigen that results in tumor immunity.Abbreviations CTL Cytotoxic T lymphocyte - FITC Fluorescein isothiocyanate - OD Optical density - PBS Phosphate-buffered saline - SV40 Simian virus 40     

Targetted localisation and imaging of a murine lymphoma using 131I-labelled monoclonal antibody

In vivo tumor targetting with radiolabelled monoclonal antibodies is a promising approach for the diagnosis and therapy of tumors. A specific monoclonal antibody (mAb), DLAB was generated to the Dalton's lymphoma associated antigen (DLAA) from Haemophilus paragallinarum-induced spontaneous fusion. In order to study the tumor localisation and biodistribution properties of the monoclonal antibody, scintigraphic studies were performed using the radiolabelled DLAB. 131-labelled DLAB was administered intravenously into Swiss mice bearing Dalton's lymphoma and external scintiscanning was performed at different time intervals. Clear tumor images were obtained which revealed selective and specific uptake of radiolabel and the results were compared with biodistribution data. The radioiodinated monoclonal antibody showed fast tumor uptake which increased significantly to 14.6% injected dose (ID)/g at 12 hr post-injection. Enhanced blood clearance of radioactivity resulted in higher tumor/blood ratio of 5.96 at 48 hr. 131I-labelled DLAB resulted in selective and enhanced uptake of the radioactivity by the tumor compared to the non-specific antibody and the results suggest the potential use of spontaneous fusion for producing specific monoclonal antibodies for tumor detection and therapy.     

A monoclonal antibody to the carbohydrate chain on human hepatocellular carcinoma-associated antigen which suppressed tumor growth in nude mice

Summary There have been few reports stating that monoclonal antibody alone inhibits human solid tumor growth in vivo. The present study demonstrated that monoclonal antibody S1 (IgG2a), which recognized the antigenic determinant of the carbohydrate moiety, showed antibody-dependent cell (or macrophage)-mediated cytotoxicity (ADCC or ADMC) in conjunction with murine splenocytes of both BALB/c and athymic mice. In vivo experiments demonstrated that the antibody S1 clearly prolonged the survival of athymic mice which had been inoculated with a human liver carcinoma cell line. In addition, the antibody S1 significantly suppressed the human hepatoma line transplanted s.c. into nude mice. ¹²⁵I-Labeled monoclonal antibody S1 revealed that the antibody accumulated significantly in the tumor mass. Many mononuclear cells were observed surrounding tumor cells when the antibody was given. This model system might be useful for analyzing the ADCC (or ADMC) mechanism in vivo.     

Antibody-mediated modulation of the immune response

We have studied the ability of monoclonal IgM and IgG antibodies to enhance or suppress immune responses and attempted to dissect the underlying mechanisms. Both IgM and IgG1 antibodies increased the rate of clearance of antigen from the circulation. Monoclonal IgM antibody to SRBC was found to specifically increase antibody responses, enhancement being insensitive to low doses of irradiation (150 R). IgM antibody specifically depressed the delayed hypersensitivity response to SRBC in vivo. Following administration of IgM in vivo, in vitro responses to SRBC were also enhanced. This in vitro enhancement appeared to depend on both T cells and B cells. In contrast, monoclonal IgG1 antibody to SRBC specifically depressed antibody responses in vivo. Such depressed antibody responses were also seen in vitro following IgG1 in vivo and did not appear to be due to the induction of suppressor T cells.     

Radioimmunodetection of human melanoma tumor xenografts with human monoclonal antibodies

We established a human IgM monoclonal antibody that defines a tumor-associated membrane antigen expressed on human melanoma cells. The antigen has been identified as the ganglioside GD2. In this paper, we describe the potential usefulness of the human monoclonal antibody for radioimaging. Nude mice bearing tumors derived from a human melanoma cell line were used as a model. Antibody activity was degradated significantly after labeling with ¹³¹I by the use of a modified chloramine-T method. After testing various concentrations, labeled antibody of a specific activity of 2.8 μCi/ μg produced the best results. Balb/c nude mice bearing a GD2-positive M14 melanoma cell line were injected with 10–30 μg of labeled antibody, and its radiolocalization in different organs and in the whole body were evaluated. The best tumor image was obtained on Day 6. The labeled antibody uptake ratio between tumor and muscle was 9.2:1; the ratio between tumor and liver was 1.4:1. These studies represent the first report of experimental tumor imaging with human monoclonal antibody. Human monoclonals will probably prove to be superior reagents for tumor imaging in melanoma patients if the problem of antibody radiolysis is resolved.     

Expression of markers shared between human natural killer cells and neuroblastoma lines

Summary Neuroblastoma is a tumor of neuroectodermal origin arising most commonly from the adrenal medulla. We have examined the ability of several monoclonal antibodies which recognize markers predominantly expressed on human natural killer (NK) cells to react with neuroblastoma cell lines in vivo derived sections of tumor. HNK-1 (Leu 7) is a monoclonal IgM antibody which recognizes a carbohydrate epitope on NK cells and a wide range of tumor cell types. We have shown that HNK-1 recognizes the human neuroblastoma lines SMS-KCNR, SMS-KAN, NMB/N7, and IMR/5. Expression of this antigen on cell lines can be slightly increased by retinoic acid-induced differentiation of the cells. N901 (NKH1), a monoclonal antibody raised against interleukin 2-dependent human NK cell lines also recognizes all human neuroblastoma cell lines examined. This expression is independent of differentiation induction and levels remain unaltered following retinoic acid treatment of the cell lines. Lastly, with monoclonal antibody 49H.8, it has been found that reactivity of the lines is weak until induction of differentiation, after which highly significant increases of reactivity are seen. 49H.8 recognizes several cryptic carbohydrate antigens with varying affinities, shown to identify mouse and rat NK cells. In contrast to other NK markers, human neuroblastoma cell lines did not express significant reactivity with B73.1, Leu 11b, or Leu 18. Immunohistochemical staining of sections of human neuroblastoma tumors correlated with the in vitro findings; however, staining with N901 and 49H.8 was only seen on frozen sections, not paraffin-embedded. The significance of shared NK cell-neuroblastoma/neuron antigens is currently under investigation.     

鼠抗人hMIC-l单克隆抗体抑制裸鼠移植人胰腺癌体内研究

目的：初步研究鼠抗人hMIC-l单克隆抗体对胰腺癌体内给药的抗肿瘤活性,为hMIC-l抗体应用于肿瘤治疗提供实验依据。方法2种人胰腺癌细胞株PANC-1和SW1990各腋窝皮下接种24只Balb/c裸鼠,共计48只皮下接种荷瘤裸鼠分别随机共分为8组,每组6只荷瘤鼠。模型对照组荷瘤裸鼠腹腔注射0.9％氯化钠注射液（10 mL/kg,NS,Biw,ip ×8）,阳性对照组荷瘤裸鼠腹腔注射键择（50 mg/kg,qw,ip ×4）,鼠抗人hMIC-l单克隆抗体组分别荷瘤鼠尾静脉内注射鼠抗人hMIC-l单克隆抗体（10 mg/kg,Biw,ip ×8）共4周或（2 mg/kg,Biw,ip ×8）共4周。观察荷瘤裸鼠日常表现、肿瘤生长、实验后肿瘤组织切片HE染色后光镜下的组织形态学改变。结果荷瘤裸鼠尾静脉内注射鼠抗人hMIC-l单克隆抗体组裸鼠（10 mg/kg,Biw,iv ×8）肿瘤生长缓慢,瘤体明显小于模型对照组,并呈现量效关系。镜下观察鼠抗人hMIC-l单克隆抗体组实验后肿瘤组织切片胰腺结构破坏,有大量淋巴细胞浸润,肿瘤细胞明显坏死,细胞溶解。结论尾静脉内注射鼠抗人hMIC-l单克隆抗体（10 mg/kg,Biw,iv ×8）能有效抑制裸鼠移植人胰腺癌PANC-1肿瘤生长,使瘤组织坏死、结构破坏。     

Stability and localization of biotin-labeled murine monoclonal antibody to human gastric cancer in normal mice and nude mice-human tumor models

We examined the tissue localization of biotin-labeled murine monoclonal antibody (MAb) S202 directed against the human scirrhous gastric carcinoma cell line MK-01 in normal and tumor-bearing mice after intravenous (IV) administration. The biotin-labeled MAb proved to be stable in vivo under normal conditions, antibody titer being 1:256 at 4 hr after IV injection. At 24 hr after injection, the tumor was stained by the avidin-biotin-peroxidase complex (ABC) method. Biotin-labeled MAb was found to be suitable for detection of the xenografted tumor of nude mice. This study provides new information concerning the dynamics of the distribution of biotin-labeled MAb in vivo.     

Subcellular localization of the Streptococcus mutans P1 protein C terminus.

To determine the subcellular location of the Streptococcus mutans P1 protein C-terminal anchor, cell envelope fractionation experiments were conducted in combination with Western immunoblotting, using monoclonal antibody MAb 6-8C specific for an epitope that maps near the C terminus of P1 protein and also a polyclonal antibody preparation directed against the P1 C-terminal 144 amino acids (P1COOH). P1 protein was detected in cell walls but not the membrane purified from S. mutans cells by the monoclonal antibody. In contrast, P1 protein was not detected in the same cell wall preparation using the anti-P1COOH polyclonal antibody. However, proteins released from the cell walls by treatment with mutanolysin contained antigen that was recognized by the anti-P1COOH antibody, suggesting that the epitopes recognized by the antibody were masked by peptidoglycan in the cell wall preparations. When cell walls were treated with boiling trichloroacetic acid to solubilize cell-wall-associated carbohydrate, P1 antigen could not be detected in either the solubilized carbohydrate, or in the remaining peptidoglycan, regardless of whether polyclonal or monoclonal antibody was used. However, when the peptidoglycan was treated with mutanolysin, P1 antigen could be detected in the mutanolysin solubilized fraction by MAb 6-8C. Collectively, these data suggest that the C-terminal 144 amino acids of the P1 protein are embedded within the cell wall, and associated exclusively with the peptidoglycan. Furthermore, the ability of the anti-P1COOH antibody to recognize P1 antigen only after mutanolysin treatment of cell walls suggests these C-terminal 144 amino acids are tightly intercalated within the peptidoglycan strands.     

Identification of polypeptide components of the Epstein-Barr virus early antigen complex with monoclonal antibodies.

Three monoclonal antibodies were produced against the Epstein-Barr virus-induced early antigen complex. These antibodies were shown to be specific for the early antigen complex by the fact that they only reacted with cells supporting a permissive or abortive Epstein-Barr virus infection and their synthesis was not affected by inhibitors of viral DNA synthesis. One monoclonal antibody, designated R3, was directed against a diffuse component of the early antigen complex since it reacted by immunofluorescence with cells fixed in acetone or methanol. The other two monoclonal antibodies, designated K8 and K9, reacted with a methanol-sensitive restricted component of this complex. The appearance of the R3 antigen in P3HR-1 superinfected Raji cells occurred approximately 4 h earlier than the antigen detected by K8. By both sodium dodecyl sulfate-polyacrylamide gel electrophoresis and radioimmunoelectrophoresis, it was determined that the R3 monoclonal antibody recognized two major polypeptides with molecular weights of approximately 50,000 to 52,000, whereas K8 and K9 precipitated a protein of approximately 85,000. The R3 monoclonal antibody also immunoprecipitated an in vitro primary translation product. It was, therefore, possible to map this product to the Epstein-Barr virus DNA BamH1 M fragment. These in vitro products were slightly smaller than the in vivo proteins, suggesting that these proteins probably undergo posttranslational modification during the virus replication cycle.     

单抗LC-1与针对的人肺腺癌SPC-A-1细胞肿瘤相关抗原复合物的内化研究

我们运用抗人肺癌单抗LC-1结合胶体金免疫电镜技术研究了人肺腺癌SPC-A-1细胞表面抗原抗体复合物被内吞的全过程,发现该细胞表面抗原抗体复合物是通过受体介导内吞途径被内化,经多泡体富集后至溶酶体消化降解。此外我们还用流式细胞仪分析了内吞前后该细胞表面抗原量的变化和短期内的恢复情况。LC-1在诱发该细胞表面抗原内化的同时还诱发了它对该核糖体的自噬。     

Production of monoclonal antibody to bovine leukemia virus glycoprotein gp51 by in vitro immunization

The monoclonal antibody against glycoprotein gp51 of bovine leukemia virus (BLV) envelope antigen was produced by in vitro immunization. This monoclonal antibody reacted with viral antigen was observed at the 69 kilodalton (kDa) glycoprotein. However, this monoclonal antibody was not involved in neutralizing. It was shown that in comparison with in vivo immunization, in vitro immunization has some advantages, namely a short immunization period and a small antigen quantity.     

The multicompartmental p32/gClqR as a new target for antibody-based tumor targeting strategies

Tumor-associated cell surface antigens and tumor-associated vascular markers have been used as a target for cancer intervention strategies. However, both types of targets have limitations due to accessibility, low and/or heterogeneous expression, and presence of tumor-associated serum antigen. It has been previously reported that a mitochondrial/cell surface protein, p32/gC1qR, is the receptor for a tumor-homing peptide, LyP-1, which specifically recognizes an epitope in tumor cells, tumor lymphatics, and tumor-associated macrophages/myeloid cells. Using antibody phage technology, we have generated an anti-p32 human monoclonal antibody (2.15). The 2.15 antibody, expressed in single-chain fragment variable and in trimerbody format, was then characterized in vivo using mice grafted subcutaneously with MDA-MB-231 human breast cancers cells, revealing a highly selective tumor uptake. The intratumoral distribution of the antibody was consistent with the expression pattern of p32 in the surface of some clusters of cells. These results demonstrate the potential of p32 for antibody-based tumor targeting strategies and the utility of the 2.15 antibody as targeting moiety for the selective delivery of imaging and therapeutic agents to tumors.     

A novel synthetic na?ve human antibody library allows the isolation of antibodies against a new epitope of oncofetal fibronectin

Human monoclonal antibodies (mAbs) can routinely be isolated from phage display libraries against virtually any protein available in sufficient purity and quantity, but library design can influence epitope coverage on the target antigen. Here we describe the construction of a novel synthetic human antibody phage display library that incorporates hydrophilic or charged residues at position 52 of the CDR2 loop of the variable heavy chain domain, instead of the serine residue found in the corresponding germline gene. The novel library was used to isolate human mAbs to various antigens, including the alternatively-spliced EDA domain of fibronectin, a marker of tumor angiogenesis. In particular, the mAb 2H7 was proven to bind to a novel epitope on EDA, which does not overlap with the one recognized by the clinical-stage F8 antibody. F8 and 2H7 were used for the construction of chelating recombinant antibodies (CRAbs), whose tumor-targeting properties were assessed in vivo in biodistribution studies in mice bearing F9 teratocarcinoma, revealing a preferential accumulation at the tumor site.Key words: human antibody library, phage display, oncofetal fibronectin, vascular tumor targeting, scFv antibody fragments, chelating recombinant antibody (CRAb)     

Purification and molecular cloning of the APO-1 cell surface antigen, a member of the tumor necrosis factor/nerve growth factor receptor superfamily. Sequence identity with the Fas antigen.

The APO-1 antigen as defined by the mouse monoclonal antibody anti-APO-1 was previously found to be expressed on the cell surface of activated human T and B lymphocytes and a variety of malignant human lymphoid cell lines. Cross-linking of the APO-1 antigen by anti-APO-1 induced programmed cell death, apoptosis, of APO-1 positive cells. To characterize the APO-1 cell surface molecule and to better understand its role in induction of apoptosis, the APO-1 protein was purified to homogeneity from membranes of SKW6.4 B lymphoblastoid cells by solubilization with sodium deoxycholate, affinity chromatography with anti-APO-1 antibody, and reversed phase high performance liquid chromatography. Each purification step was followed by an APO-1-specific solid phase enzyme-linked immunosorbent assay using the monoclonal antibody anti-APO-1. In sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the APO-1 antigen was found to be a membrane glycoprotein of 48-kDa. Endoproteinase-cleaved peptides of the APO-1 protein were subjected to amino acid sequencing, and corresponding oligonucleotides were used to identify a full-length APO-1 cDNA clone from an SKW6.4 cDNA library. The deduced amino acid sequence of APO-1 showed sequence identity with the Fas antigen, a cysteine-rich transmembrane protein of 335 amino acids with significant similarity to the members of the tumor necrosis factor/nerve growth factor receptor superfamily. The APO-1 antigen was expressed upon transfection of APO-1 cDNA into BL60-P7 Burkitt's lymphoma cells and conferred sensitivity towards anti-APO-1-induced apoptosis to the transfectants.