Novel molecular and immunotherapeutic strategies for lung cancer.

Lung cancer therapy in the future will be guided by specific characteristics of the individual tumor specimens. The molecular cancer phenotyping will allow for targeted approaches based on the amplification of oncogenes, lack of tumor suppressor genes, dysregulation of growth factors, and angiogenesis or matrix metalloproteinases. Specific immunotherapeutic approaches based on.

Gene transfer of interleukin 13 receptor alpha2 chain dramatically enhances the antitumor effect of IL-13 receptor-targeted cytotoxin in human prostate cancer xenografts.

IL-13Ralpha2 chain, the primary interleukin-13 (IL-13) binding protein, plays an important role in IL-13 binding and internalization. Based on these findings, in our previous study we transiently transfected four cancer cell lines that do not express IL-13Ralpha2 chain and demonstrated that these cells acquired increased sensitivity to IL-13 receptor-targeted recombinant cytotoxin, IL13-PE38QQR, which is composed of IL-13 and a mutated form of a Pseudomonas exotoxin. Although some prostate cancer cell lines express functional IL-13R, they are not highly sensitive to IL-13 cytotoxin. Here we investigated whether human prostate cancer and normal prostate epithelial cell lines express IL-13Ralpha2 chain and whether they can be sensitized to the cytotoxic effect of IL-13 cytotoxin after transient or stable gene transfer of IL-13Ralpha2 chain. Gene transfer of IL-13Ralpha2 chain improved binding activity of IL-13 and sensitivity to IL-13 cytotoxin in vitro. In vivo experiments demonstrated that gene transfer of IL-13Ralpha2 chain dramatically enhanced the antitumor activity of IL-13 cytotoxin in human prostate cancer xenograft models. These results suggest that IL-13R-targeted cytotoxin therapy of prostate cancer may be dramatically enhanced by gene transfer of IL-13Ralpha2 chain and this strategy, the combination of gene therapy and cytotoxin therapy, may be utilized in the treatment of localized prostate cancer.

Regulated CYP19 aromatase transcription in breast stromal fibroblasts.

Extraglandular estrogen synthesis mediates the proliferation of estrogen-responsive breast cancer in postmenopausal women. Aromatase, the cytochrome P450 Cyp19 enzyme, catalyzes the rate-limiting step in estrogen biosynthesis. Activity is present in both normal and neoplastic breast tissue, and Cyp19 protein is localized by immunohistochemistry predominantly in breast stromal fibroblasts. In cultured breast stromal fibroblasts, both activity and Cyp19 messenger ribonucleic acid are increased to a substantial degree by hormonal and growth factor regulators of transcription. Transcriptional regulation of CYP19 is complex in breast tissues, in which exon switching in the usage of alternative first exons occurs from predominantly EI.4 in breast tissue from cancer-free women to predominantly EI.3 and PII in breast tumors and quadrants with or without tumor. The present study questioned whether the first exon switch occurs as a result of an inherent difference between fibroblasts in normal and tumor tissues or because of differences in local regulators between these tissues. To distinguish between these two possibilities, we examined fibroblasts cultured from breast tumor, benign breast, and reduction mammoplasty tissues for the ability of various CYP19 transcriptional regulators to modulate first exon EI.3, EI.4, and PII usage. A semiquantitative RT-PCR method was used to identify transcripts containing six of the nine known CYP19 first exons. Combinations of cAMP and Dex regulated transcription from first exons EI.3, EI.4, and PII in fibroblasts cultured from all tissues, but not in reduction mammoplasty epithelial cells. These results provide evidence that the fibroblasts from these breast tissues are not inherently different in transcriptional regulation of CYP19 first exon usage and that transcriptional regulatory molecules are likely to mediate the exon switch phenomenon.

Differential requirement for the stress-activated protein kinase/c-Jun NH(2)-terminal kinase in RNAdamage-induced apoptosis in primary and in immortalized fibroblasts.

Onconase, an anticancer ribonuclease, damages cellular tRNA and causes caspase-dependent apoptosis in targeted cells (M. S. Iordanov, O. P. Ryabinina, J. Wong, T. H. Dinh, D. L. Newton, S. M. Rybak, and B. E. Magun. Cancer Res. 60, 1983-1994, 2000). The proapoptotic action of onconase depends on its RNase activity, but the molecular mechanisms leading to RNA damage-induced caspase activation are completely unknown. In this study, we have investigated whether onconase activates two signal-transduction pathways commonly stimulated by conventional chemo- and radiotherapy, namely the stress-activated protein kinase (SAPK) cascade and the pathway leading to the activation of nuclear factor-kappa B (NF-kappaB). We found that, in all cell types tested, onconase is a potent activator of SAPK1 (JNK1 and JNK2) and SAPK2 (p38 MAP kinase), but that it is incapable of activating NF-kappaB. Inhibition of p38 MAP kinase activity with a pharmacological inhibitor, SB203580, demonstrated that p38 MAP kinase is not required for onconase cytotoxicity. Using explanted fibroblasts from mice that contain targeted disruption of both jnk1 and jnk2 alleles, we found that JNKs are important mediators of onconase-induced cytotoxicity. Surprisingly, following the immortalization of these same cells with human papilloma virus (HPV16) gene products E6 and E7, additional proapoptotic pathways (exclusive of JNK) were provoked by onconase. Our results demonstrate that onconase may activate proapoptotic pathways in tumor cells that are not able to be accessed in normal cells. These results present the possibility that the cytotoxic activity of onconase in normal cells may be reduced by blocking the activity of JNKs.

DNA cancer vaccination strategies target SV40 large tumour antigen in a murine experimental metastasis model.

Two plasmids encoding SV40 Tag under the control of different promoters have been examined for their ability to induce complete protection against murine experimental metastasis induced with an SV40-transformed tumour cell line. BALB/c mice immunized with a plasmid encoding SV40 Tag under the control of the SV40 promoter (pSV3neo) exhibited no detectable levels of anti-SV40 Tag antibody and were only partially protected from tumour foci development in the lungs after Intravenous tumour challenge. In contrast, mice receiving a plasmid encoding SV40 Tag under the control of the CMV promoter (pCMV-Tag) demonstrated high levels of anti-SV40 Tag antibody. These mice were completely protected from lung tumour foci development after challenge. Since antibody responses were induced only by the immunization which provided complete protection from metastatic tumour challenge, these data support the notion that antibody may play an important role in protection against experimental pulmonary metastasis within this model. Our results demonstrate that DNA immunization may serve as a possible immunotherapeutic strategy against cancers expressing tumour-specific or tumour-associated antigens.

Recognition of a shared human prostate cancer-associated antigen by nonclassical MHC-restricted CD8+ T cells.

To identify prostate cancer-associated Ags, tumor-reactive T lymphocytes were generated using iterative stimulations of PBMC from a prostate cancer patient with an autologous IFN-gamma-treated carcinoma cell line in the presence of IL-2. A CD8+ T cell line and TCR alphabeta+ T cell clone were isolated that secreted IFN-gamma and TNF-alpha in response to autologous prostate cancer cells but not to autologous fibroblasts or lymphoblastoid cells. However, these T cells recognized several normal and malignant prostate epithelial cell lines without evidence of shared classical HLA molecules. The T cell line and clone also recognized colon cancers, but not melanomas, sarcomas, or lymphomas, suggesting recognition of a shared epithelium-associated Ag presented by nonclassical MHC or MHC-like molecules. Although Ag recognition by T cells was inhibited by mAb against CD8 and the TCR complex (anti-TCR alphabeta, CD3, Vbeta12), it was not inhibited by mAb directed against MHC class Ia or MHC class II molecules. Neither target expression of CD1 molecules nor HLA-G correlated with T cell recognition, but beta2-microglobulin expression was essential. Ag expression was diminished by brefeldin A, lactacystin, and cycloheximide, but not by chloroquine, consistent with an endogenous/cytosolic Ag processed through the classical class I pathway. These results suggest that prostate cancer and colon cancer cells can process and present a shared peptidic Ag to TCR alphabeta+ T cells via a nonclassical MHC I-like molecule yet to be defined.

VEGF and VEGF type C play an important role in angiogenesis and lymphangiogenesis in human malignant mesothelioma tumours.

The vascular endothelial growth factor (VEGF) family is a novel regulator of endothelial cell proliferation. We assessed the mRNA expression of VEGF, VEGF type C (VEGF-C) and their receptors together with the microvessel density (VD) and microlymphatic vessel density (LVD) in pursuit of their connection and prognostic value in malignant pleural mesothelioma (MPM). We used four human MPM cell lines, 54 MPM tumours and five normal pleural tissues. Expression levels for receptors and ligands were assessed by semiquantitative reverse transcriptase polymerase chain reaction analysis. Microvessels were highlighted by immunohistochemical staining for factor VIII. The discrimination of lymphatics was performed by enzyme-histochemistry for 5'-nucleotidase after adequate inhibition of non-specific activity. The expression levels of VEGF, VEGF-C and VEGFRs were high in all MPM cell lines. The percentages of tumours with higher expression compared to the mean values of normal pleural tissues were 31.5% (17/54) for VEGF, 66.7% (36/54) for VEGF-C, 20.4% (11/54) for fms-like tyrosine kinase (flt)-1, 42.6% (23/54) for kinase insert domain-containing recepter (KDR) and 59.3% (32/54) for flt-4. Significant positive correlations were found between VEGF-C and flt-4, VEGF and KDR, VEGF and flt-1 in tumour tissues. The association between LVD and VEGF-C expression level was especially strong (P< 0.0001, r= 0.63). There were also significant correlations between LVD and flt-4, and VD and VEGF. No correlation, however, was found between LVD and nodal metastasis. VD was a negative prognostic indicator in this study. The associations between VEGFNEGF-C and vessel density suggest that these factors play an important role in angiogenesis and lymphangiogenesis in this tumour, and assessment of vascularity may be a useful prognostic indicator for MPM patients.

Isochromosome 8q formation is associated with 8p loss of heterozygosity in a prostate cancer cell line.

BACKGROUND: In advanced prostate cancer, loss of chromosomal regions on 8p is frequently associated with gain of 8q. We studied the gross chromosomal abnormalities associated with 8p loss of heterozygosity (LOH) in the prostate tumor cell line 1542 CP3Tx. The cell line was previously established from a primary prostatic adenocarcinoma by immortalization with a recombinant retrovirus carrying the E6 and E7 genes of human papilloma virus type 16. Allelotyping studies demonstrated LOH at multiple markers on 8p. METHODS: To investigate the relationship of 8p LOH to gross chromosomal rearrangements, and to screen for other genetic abnormalities in 1542 CP3Tx, we used comparative genomic hybridization (CGH), conventional karyotyping, fluorescence in situ hybridization (FISH), and allelotyping. RESULTS: CGH revealed loss of the entire 8p arm, associated with gain of the entire 8q arm. Other abnormalities included chromosome 4 loss and chromosome 11 gain. The karyotype showed an isochromosome (8q), monosomy 4, and trisomy 11. FISH and allelotyping confirmed and extended these results. CONCLUSIONS: These results demonstrate that i(8q) formation is a mechanism for associated 8p loss and 8q gain in prostate cancer. Furthermore, the small number of chromosomal abnormalities in this cell line indicates that immortalization of low-passage cultures with viral oncogenes provides a method for obtaining cell lines for studying genetic abnormalities in prostate cancer.

Thrombospondin-1 expression and clinical implications in malignant pleural mesothelioma.

BACKGROUND: The role of thrombospondin-1 (TSP-1) in tumor angiogenesis and progression is controversial. The authors assessed the impact of TSP-1 as a prognostic indicator in malignant pleural mesothelioma (MPM). METHODS: TSP-1 expression was assessed by reverse transcriptase-polymerase chain reaction using 5 normal pleural samples, 78 MPM tumors, and 43 surrounding normal lung samples. In MPM tumors, vascular endothelial growth factor (VEGF) expression also was examined. Differences between different valuables were analyzed using the Mann-Whitney U test. Survival curves were obtained by the Kaplan-Meier method and the survival rate was assessed by the log rank test. RESULTS: TSP-1 was highly expressed in 74 of the 78 MPM tumors (95%) with a mean value of 2.27 +/- 0.42 compared with normal pleura (0.50 +/- 0.06) and surrounding normal lung (0.96 +/- 0.20) (P = 0.05 vs. normal pleura and P = 0.0006 vs. surrounding normal lung). The mean TSP-1 expression was significantly greater in high VEGF-expressing tumors (2.63 +/- 0.51) compared with low VEGF-expressing tumors (1.17 +/- 0.39; P < 0.0001) and TSP-1 expression was lower in patients with TNM Stage III/IV disease (n = 60) (1.85 +/- 0.37) than in patients with Stage I/II disease (n = 13) (4.46 +/- 1.74) (P = 0.025). The TSP-1 expression levels in tumors with lymph node metastases were significantly lower than in those without lymph node metastases (P = 0.0305). Although high TSP-1 expression was associated with good prognosis in patients with low VEGF-expressing tumors, TSP-1 itself appeared to have no overall impact on survival. The methylation status of a CpG island associated with the TSP-1 promoter was evident in MPM tumor samples despite high levels of TSP-1 mRNA expression. CONCLUSIONS: TSP-1 is overexpressed in MPM tumors but its expression is of little value as a prognostic indicator in MPM. However, the relations between TSP-1 and VEGF in MPM merit further investigation for possible innovative therapeutic interventions.

Comparison of simian virus 40 large T antigen recombinant protein and DNA immunization in the induction of protective immunity from experimental pulmonary metastasis.

In this report we examine the ability of a recombinant tumor antigen preparation to prevent the establishment of experimental pulmonary metastasis. Baculovirus-derived recombinant simian virus 40 (SV40) large tumor antigen (T-Ag) was injected into BALB/c mice followed by challenge with an intravenous injection of syngeneic SV40-transformed tumorigenic cells. The experimental murine pulmonary metastasis model allows for the accurate measurement of metastatic lessions in the lungs at various times after the challenge, using computer-assisted video image analysis. Following challenge, lung metastasis and survival data for the groups of mice were obtained. Animals immunized with recombinant SV40 T-Ag showed no detectable sign of lung metastasis and survived for more than 120 days after challenge. Antibodies specific for SV40 T-Ag were detected in the serum of immunized mice by enzyme-linked immunosorbent assay. Splenocytes obtained from mice immunized with recombinant SV40 T-Ag did not lyse syngeneic tumor cells, indicating that no cytotoxic T lymphocyte response was induced. Control mice developed extensive lung metastasis and succumbed to lethal tumor within 4 weeks after challenge. These data indicate that immunization with the recombinant SV40 T-Ag induces protective, T-Ag-specific immunity in an experimental pulmonary tumor metastasis model.

Immunotherapy of SV40 induced tumours in mice: a model for vaccine development.

Various vaccination strategies were compared for their ability to elicit antigen-specific tumour immunity, using the SV40-BALB/c murine tumour system. Specifically, mice were injected with baculovirus-derived recombinant SV40 Tag (rTag), synthetic peptides corresponding to B cell epitopes on SV40 Tag or a plasmid DNA construct encoding the gene for SV40 Tag. In vivo tumour immunity was determined by a lethal tumour challenge with syngeneic SV40-transformed tumour cells. SV40 Tag-specific antibody titres were induced in mice immunized with rTag or Tag synthetic peptides. Partial tumour protection was observed in mice that were immunized with SV40 Tag peptides, where as complete tumour immunity was observed in mice immunized with rTag. Although protective tumour immunity was also observed in mice immunized with DNA, negligible levels of antibodies to SV40 Tag were detected. Examination of the cytotoxic T lymphocyte (CTL) activity in mice injected with the SV40 Tag-DNA construct revealed Tag-specific lysis of syngeneic SV40-transformed tumour cells. Conversely, little to no CTL activity was detected in mice immunized with rTag. However, antigen-specific antibodies from rTag immunized mice were capable of mediating antibody-dependent cell-mediated cytotoxicity against SV40-transformed cells. These data indicate that the immune mechanisms elicited for protection against SV40 induced tumours in mice appeared to be dependent on the vaccination strategy employed and included both humoral and cell-mediated immune responses.

Generation and genetic characterization of immortal human prostate epithelial cell lines derived from primary cancer specimens.

Difficulty in establishing long-term human prostate epithelial cell lines has impeded efforts to understand prostate tumorigenesis and to develop alternative therapies for prostate cancer. In the current study, we describe a method that was successful in generating 14 immortal benign or malignant prostate epithelial cell cultures from primary adenocarcinomas of the prostate resected from six successive patients. Immortalization with the E6 and E7 transforming proteins of human papilloma virus serotype 16 was necessary to establish long-term cultures. Microscopic examination of fresh tumor specimens exhibited a variable mixture of benign and malignant epithelium. Thus, single-cell cloning of tumor-derived cell cultures was essential for defining tumor cell lines. Efforts to characterize these cultures using traditional criteria such as karyotype, growth in nude mice, and prostate-specific antigen expression were noninformative. However, allelic loss of heterozygosity (LOH) represents a powerful alternative method for characterizing tumor cell lines originating from primary adenocarcinomas of the prostate. Microdissected fresh tumors from four of six patients revealed LOH at multiple loci on chromosome 8p, as assessed by PCR. LOH on chromosome 8p matching the patterns found in microdissected tumors was also observed in a tumor-derived cell line and its clones, as well as in one clone from a tumor-derived cell line from a second patient. LOH was not observed in immortal lines generated from autologous benign prostatic epithelium, seminal vesicle epithelium, or fibroblasts. The multifocal nature of prostate cancer, as well as the presence of an entire spectrum of malignant transformation within individual prostate glands, necessitates this type of careful analysis of derivative cell cultures for their validation as in vitro models that accurately reflect the primary cancers from which they are derived.

Protection against a lethal challenge with SV40-transformed cells by the direct injection of DNA-encoding SV40 large tumor antigen.

Plasmid DNA encoding the large tumor antigen (T- ag) of SV40 was used to actively immunize mice to assess the induction of SV40 T-ag-specific immunity. Mice were injected with the naked DNA i.m., and immune responses were compared to those elicited in mice immunized with the recombinant SV40 T-ag protein. Compared to immunization with the recombinant protein, naked DNA induced weak antibody responses to SV40 T-ag. No increase in natural killer cell activity was observed following either recombinant protein or nucleic acid vaccination. However, the recombinant SV40 T-ag failed to induce SV40 T-ag-specific CTL responses, whereas the plasmid DNA encoding SV40 T-ag elicited CTL activity specific for SV40 T-ag. The SV40 T-ag-specific CTL lysed in vitro only syngeneic target cells (H-2(d)) expressing SV40 T-ag, indicating that the CTL are MHC restricted. Both the recombinant protein and naked DNA preparations induced immune responses that were protective against a lethal challenge with syngeneic SV40-transformed cells. A comparison of recombinant protein versus nucleic acid immunization indicates that both humoral and cell-mediated immune responses may play a role in SV40 T-ag immunity. These data indicate that active immunization with genes encoding tumor-specific antigens may be an efficacious strategy for the induction of tumor immunity.

Nucleic acid vaccination against virally induced tumors.

Plasmid DNA (pSV3-neo) encoding the large tumor antigen (T-ag) of simian virus 40 (SV40) was used to actively immunize mice to assess the induction of SV40 T-ag specific immunity. Mice were injected with naked DNA intramuscularly, and both the cellular and humoral immune responses were compared to those elicited in mice immunized with recombinant protein. Administration of recombinant SV40 T-ag elicited high titer antibodies reactive with SV40 T-ag, whereas inoculation with DNA failed to generate comparable levels of SV40 T-ag specific antibody. Conversely, antigen specific cytotoxic T lymphocyte activity was generated in mice immunized with pSV3-neo, but was not detected in mice immunized with the recombinant protein. Moreover, the cellular immunity generated by the injection of pSV3-neo DNA was protective against a lethal challenge with syngeneic SV40 transformed cells. Together, these data indicate that active immunization with genes encoding tumor specific antigens may be an efficacious strategy for the induction of cell-mediated mechanism(s) to prevent cancer.

Examination of lymphokines induced in mice following immunization with recombinant simian virus 40 large tumor antigen.

Baculovirus-derived recombinant simian virus 40 (SV40) large tumor antigen (T-Ag) was used to immunize BALB/c mice to examine the lymphokines produced following immunization. Specifically, we examined production of interleukin-2 (IL-2), IL-4, IL-5 and interferon gamma (IFN gamma) from immune lymphocytes cultured with decreasing concentrations of recombinant SV40 T-Ag. We identified elevated levels of IFN gamma and IL-2 by enzyme-linked immunosorbent assay and a murine CTLL-2 proliferation bioassay respectively. We were unable to detect either IL-4 or IL-5. These data indicate the previously reported tumor immunity induced by recombinant SV40 T-Ag immunization most likely reflects a TH1-like immune response based on the in vitro production of both IFN gamma and IL-2 by immune lymphocytes.

SV40 large tumor antigen associated synthetic peptides define native antigenic determinants and induce protective tumor immunity in mice.

Synthetic peptides were utilized to define antigenic determinants on simian virus 40 (SV40) large tumor antigen (T-ag). Six synthetic peptides representing predicted B-cell epitopes on SV40 T-ag were used to immunize mice to compare the humoral immune responses and ascertain the ability of the peptide preparations to induce protective tumor immunity in vivo. Anti-peptide antibodies from BALB/c and C57BL/6 mice were examined for reactivity with SV40 T-ag by various immunologic assays. Antibodies from both strains to four of the peptides recognized recombinant SV40 T-ag by ELISA. However, T-ag recognition by anti-peptide antibodies differed when assessed by Western blot. Antibodies induced by the same four peptides in BALB/c mice recognized T-ag, whereas only three of the sex peptides induced antibodies in C57BL/6 mice capable of recognizing SV40 T-ag by Western blot. Flow cytometric analysis revealed that antibodies to peptides corresponding to T-ag amino acid residues 632-652 and 690-708 from BALB/c mice were able to recognize the surface of SV40 transformed cells, whereas five of the six peptides induced surface reactive antibodies in C57BL/6 mice. More important, peptides 632-652 and 690-708 elicited a protective immune response in BALB/c mice subsequently challenged with a lethal dose of syngeneic SV40 transformed cells. However, this tumor immunity was incomplete as only 50% of the mice survived the tumor challenge. These data indicate that antibodies induced by synthetic peptides corresponding to predicted B-cell epitopes on SV40 T-ag are capable of recognizing native and denatured determinants on T-ag. Furthermore, immune responses elicited by selected peptides partially protected BALB/c mice from a lethal tumor challenge.

Molecular characterization of immunoglobulin variable regions from murine monoclonal antibodies specific for simian virus 40 large tumour antigen.

In this report we compare the immunoglobulin variable (IgV) region function and structure relationships of murine monoclonal antibodies that recognize simian virus 40 (SV40) large tumour antigen (T ag). Comparison of monoclonal antibody V region function is based on SV40 T ag epitope recognition and idiotype (Id) expression. Structural comparisons are based on V region gene sequence determination. The data presented herein, suggests that a high degree of homology within both the V kappa and VH regions, along with minor differences within V kappa complementarity determining regions (CDR) may result in the detection of similar SV40 T ag epitopes by the monoclonal anti-SV40 T ag preparations. The expression of a cross-reactive Id also appears to be based on the high degree of homology within both V kappa and VH regions and depends on conformational interactions imparted by both regions.

Immunization of BALB/c mice with recombinant simian virus 40 large tumor antigen induces antibody-dependent cell-mediated cytotoxicity against simian virus 40-transformed cells. An antibody-based mechanism for tumor immunity.

In this report, we describe an immune mechanism that seems to play a role in tumor immunity in BALB/c mice challenged with SV40-transformed cells. This immune mechanism was induced by immunization of mice with rSV40 large tumor Ag (T-Ag). After rSV40 T-Ag immunization, BALB/c mice were protected from a lethal tumor challenge with syngeneic SV40-transformed cells (mKSA). Specifically, we examined CTL activity, NK activity, complement-dependent cytotoxicity, and Ab-dependent cell-mediated cytotoxicity (ADCC) in rSV40 T-Ag-immunized mice that were protected from a subsequent lethal tumor challenge. Immune splenocytes from surviving animals that were subsequently primed in vitro with rSV40 T-Ag demonstrated little to no SV40 T-Ag-specific CTL activity. In addition, natural immunity, as assessed by NK lytic activity, was comparable to that of unimmunized animals. Similarly, minimal significant complement-dependent cytotoxicity of radiolabeled mKSA cells was demonstrated by SV40 T-Ag-specific serum Abs. However, SV40 T-Ag-specific Abs using peritoneal exudate cells as effectors, exhibited significant levels of ADCC against radiolabeled mKSA target cells. Together, these studies indicate that rSV40 T-Ag immunization elicited ADCC that may represent a potential humoral immune mechanism involved in the protection of BALB/c mice from a lethal challenge with syngeneic SV40-transformed cells.

Fine specificity of the murine immune response to SV40 large tumour antigen utilizing synthetic peptides that define selected epitopes.

Baculovirus-derived recombinant simian virus 40 large tumour antigen (SV40 T-ag) was used to immunize BALB/c, C57Bl/6 and CB6/F1 mice and their anti-SV40 T-ag antibody responses were examined for the ability to bind synthetic peptides representing six predicted B cell epitopes on SV40 T-ag. In C57Bl/6 mice, anti-SV40 T-ag antibodies failed to bind any of the six SV40 T-ag peptides. However, the antibody responses induced in both BALB/c and CB6/F1 mice recognized synthetic peptides corresponding to two distinct epitopes (amino acids 690-708 and 660-679, respectively) associated with the carboxyl-terminal half of SV40 T-ag. In addition, murine MoAbs (BALB/c) generated to native SV40 T-ag, and previously characterized as recognizing the carboxyl-terminus of SV40 T-ag by deletion mutant analysis, also bound the synthetic peptide (residues 690-708) defining the carboxyl-terminus of SV40 T-ag. These data indicate that the antibody responses induced in BALB/c and CB6/F1 mice by immunization with baculovirus-derived recombinant SV40 T-ag are capable of recognizing sequential carboxyl-terminal epitopes on SV40 T-ag defined by peptides 690-708 and 660-679, respectively. No statistically significant differences in anti-SV40 T-ag antibody titres were observed between the three inbred mouse strains. These data suggested that the fine specificities of the anti-SV40 T-ag responses as assessed by synthetic peptide binding were different in the three inbred strains of mice examined. Finally, in vivo tumour challenge studies comparing recombinant SV40 T-ag with the two carboxyl-terminus peptide epitopes indicated that some tumour immunity was induced in BALB/c, but not CB6/F1 mice, by immunization with peptide 690-708 conjugated to a carrier protein. These studies suggest that the carboxyl-terminal region of SV40 T-ag represents a continuous sequential epitope involved in both the antibody response to SV40 T-ag and tumour immunity in BALB/c mice.

A bactericidal antibody to Borrelia burgdorferi is directed against a variable region of the OspB protein.

Borrelia burgdorferi, an agent of Lyme disease, is killed by some monoclonal antibodies in the absence of complement or phagocytes. In the present study, the bactericidal action of monoclonal antibodies against B. burgdorferi and B. hermsii, a cause of relapsing fever, was further characterized. H6831, an antibody recognizing the OspB proteins of some B. burgdorferi strains, and H4825, an antibody specific for one serotype of B. hermsii, were purified, and Fab fragments of the antibodies were prepared. In time-kill studies, more than 99.9% of strain B31 B. burgdorferi cells were killed after 30 min of exposure to H6831 Fab fragments. The MBC of the Fab fragments was 10 micrograms/ml. Electron microscopy revealed that the bactericidal Fab fragments produced numerous blebs and cell lysis of the borrelias for which they were specific. To identify the epitope for H6831, the OspB sequences of H6831-susceptible and -resistant strains and mutants were determined. The deduced OspB proteins of all H6831-resistant strains and mutants differed from the strain B31 OspB at residue 253. Murine antisera raised against a 21-mer synthetic peptide representing the region around residue 253 were specific for strain B31 by Western blot (immunoblot) and growth inhibition assays. Furthermore, the antipeptide serum inhibited the binding of H6831 to whole borrelias. These findings indicated that the linear component of the bactericidal antibody's epitope was located at or near residue 253.