Antigen-positive Tumor Research Articles

Anti-idiotypic antibody as the surrogate antigen for cloning scFv and its fusion proteins.

Single-chain variable fragment (ScFv) is a versatile building block for novel targeting constructs. However, a reliable screening and binding assay is often the limiting step for antigens that are difficult to clone or purify. Anti-idiotypic antibodies may be useful as surrogate antigens for cloning scFv and their fusion proteins. 8H9 is a murine IgG(1) monoclonal antibody (MAb) specific for a novel antigen expressed on the cell surface of a wide spectrum of human solid tumors, but not in normal tissues. Rat anti-8H9-idiotypic hybridomas (clones 2E9, 1E12, and 1F11) were produced by somatic cell fusion between rat lymphocytes and mouse SP2/0 myeloma. In direct binding assays enzyme-linked immunosorbant assay--(ELISA)--they were specific for the 8H9 idiotope. Using 2E9 as the surrogate antigen, 8H9-scFv was cloned from hybridoma cDNA by phage display. 8H9scFv was then fused to human-gamma1-CH2-CH3 cDNA for transduction into CHO and NSO cells. High expressors of mouse scFv-human Fc chimeric antibody were selected. The secreted homodimer reacted specifically with antigen-positive tumor cells by ELISA and by flow cytometry, inhibitable by the anti-idiotypic antibody. The reduced size resulted in a shorter half-life in vivo, while achieving comparable tumor to nontumor ratio as the native antibody 8H9. However, its in vitro activity in antibody-dependent cell-mediated cytotoxicity was modest.

Adenovirus-mediated intratumoral lymphotactin gene transfer potentiates the antibody-targeted superantigen therapy of cancer.

Bacterial superantigens are extremely potent activators of murine and human T lymphocytes. To engineer superantigens for cancer immunotherapy, staphylococcal enterotoxin A (SEA) was genetically fused to the Fab region of the human colon carcinoma-reactive monoclonal antibody (mAb) C215. Fusion protein C215Fab-SEA can trigger cytotoxic T cells against C215 antigen positive tumor cells and induce tumor-suppressive cytokines. However, the antitumor effect of C215Fab-SEA is often not satisfactory because of T cell deletion after activation and failure to induce potent CTL activity after repeated administration. Lymphotactin (Lptn) is a potent chemoattractant for T cells and NK cells. To improve the therapeutic efficacy of fusion protein C215Fab-SEA we investigated in this study the antitumor responses elicited by combination of C215Fab-SEA and adenovirus-mediated intratumoral Lptn gene transfer in the preestablished C215 antigen expressing B16 melanoma murine model. More significant inhibition of tumor growth and prolonged survival time were observed in tumor-bearing mice that received combined therapy of C215Fab-SEA and Ad-Lptn than those of mice treated with C215Fab-SEA or Ad-Lptn alone. The highest CTL activity of tumor-bearing mice was induced after combined therapy. Intratumoral coadministration of C215Fab-SEA and Ad-Lptn augmented splenic NK activity of tumor-bearing mice most markedly. Our data demonstrate that the in vivo antitumor effect of C215Fab-SEA immunotherapy is potentiated significantly by combination with intratumoral Lptn gene transfer through more efficient induction of specific and nonspecific antitumor immune responses.

Molecular staging of lung cancer: Real-time polymerase chain reaction estimation of lymph node micrometastatic tumor cell burden in stage I non-small cell lung cancer—preliminary results of cancer and leukemia group B trial 9761

Objective: The 5-year survival for patients with surgically resected stage I non-small cell lung cancer is only 60% to 70%, probably because of undetected systemic occult micrometastases. Detection of occult micrometastases in lymph nodes by reverse-transcriptase polymerase chain reaction for carcinoembryonic antigen messenger RNA in non-small cell lung cancer has not been reported. Detection of occult micrometastases by standard reverse-transcriptase polymerase chain reaction provides only yes or no answers about their presence, whereas quantitative real-time reverse-transcriptase polymerase chain reaction permits reproducible quantitation of target molecules. This study evaluated the ability of quantitative reverse-transcriptase polymerase chain reaction to quantitate lymph node occult metastases with carcinoembryonic antigen messenger RNA as a tumor marker. Methods: Standard reverse-transcriptase polymerase chain reaction and quantitative reverse-transcriptase polymerase chain reaction for carcinoembryonic antigen messenger RNA were performed on 232 lymph nodes from 53 patients with stage I disease (node negative according to histologic examination). Quantitative reverse-transcriptase polymerase chain reaction determined carcinoembryonic antigen messenger RNA quantity by detecting fluorescence increase at a threshold polymerase chain reaction cycle. Threshold polymerase chain reaction cycle values were correlated with standard curves created from serially diluted carcinoembryonic antigen-positive HTB-174 tumor cells to estimate the number of micrometastatic tumor cells in a lymph node. Results: Detection rates of occult metastases were similar for standard reverse-transcriptase polymerase chain reaction and quantitative reverse-transcriptase polymerase chain reaction at 38 of 232 (16.4 %) and 59 of 232 (25.4 %), respectively. Upstaging rates among 53 cases of stage I non-small cell lung cancer were also similar for standard reverse-transcriptase polymerase chain reaction and quantitative reverse-transcriptase polymerase chain reaction at 23 of 53 (43.4 %) and 30 of 53 (56.6%), respectively. Comparison of positive lymph node stations according to quantitative reverse-transcriptase polymerase chain reaction (threshold polymerase chain reaction cycle <45) with HTB-174 tumor cell standard curves yielded estimates of metastatic tumor cell burden of 1.07 × 103to 3.24 × 105cells per lymph node station (median 7190 tumor cells per lymph node station). Conclusions: Standard and quantitative real-time reverse-transcriptase polymerase chain reaction for carcinoembryonic antigen detected occult metastases in patients with stage I non-small cell lung cancer at similar rates; both upstaged about 50% of cases. Quantitative reverse-transcriptase polymerase chain reaction allows estimation of the number of metastatic cells per lymph node, however, which potentially allows greater precision in predicting recurrence risk.J Thorac Cardiovasc Surg 2002;123:484-91

Intratumoral IL-18 gene transfer improves therapeutic efficacy of antibody-targeted superantigen in established murine melanoma

Antibody-targeted superantigen C215Fab-SEA is a fusion protein of staphylococcal enterotoxin A (SEA) and the Fab region of the tumor-reactive C215 mAb. It can trigger CTL against C215 antigen-positive tumor cells and induce tumor-suppressive cytokines. However, the antitumor effect of C215Fab-SEA is not satisfactory because of suboptimal production of Th1 cytokines after repeated administration. Interleukin 18 (IL-18) is a novel cytokine with profound effects on Th1 cellular response. In this study, we showed that adenovirus-mediated intratumoral IL-18 gene transfer strongly improved the therapeutic efficacy of C215Fab-SEA in the pre-established C215 antigen-expressing B16 melanoma murine model. More significant tumor inhibition and prolonged survival time were observed in tumor-bearing mice received combined therapy of C215Fab-SEA and Ad IL-18 than those of mice treated with C215Fab-SEA or AdIL-18 alone. Combination therapy augmented NK and CTL activities of tumor-bearing mice more markedly. The production of IL-2 and IFN-gamma also increased more significantly. More potent antitumor effect of combined therapy was observed in IL-10 KO mice with enhanced Th1 response. Our data demonstrated that the antitumor effect of C215Fab-SEA immunotherapy could be potentiated significantly by combination with intratumoral IL-18 gene transfer through more efficient activation of Th1 immune responses.

Melanocyte Destruction after Antigen-Specific Immunotherapy of Melanoma

Current strategies for the immunotherapy of melanoma include augmentation of the immune response to tumor antigens represented by melanosomal proteins such as tyrosinase, gp100, and MART-1. The possibility that intentional targeting of tumor antigens representing normal proteins can result in autoimmune toxicity has been postulated but never demonstrated previously in humans. In this study, we describe a patient with metastatic melanoma who developed inflammatory lesions circumscribing pigmented areas of skin after an infusion of MART-1-specific CD8(+) T cell clones. Analysis of the infiltrating lymphocytes in skin and tumor biopsies using T cell-specific peptide-major histocompatibility complex tetramers demonstrated a localized predominance of MART-1-specific CD8(+) T cells (>28% of all CD8 T cells) that was identical to the infused clones (as confirmed by sequencing of the complementarity-determining region 3). In contrast to skin biopsies obtained from the patient before T cell infusion, postinfusion biopsies demonstrated loss of MART-1 expression, evidence of melanocyte damage, and the complete absence of melanocytes in affected regions of the skin. This study provides, for the first time, direct evidence in humans that antigen-specific immunotherapy can target not only antigen-positive tumor cells in vivo but also normal tissues expressing the shared tumor antigen.

An entirely humanized CD3 ζ‐chain signaling receptor that directs peripheral blood t cells to specific lysis of carcinoembryonic antigen–positive tumor cells

An entirely humanized CD3 ζ‐chain signaling receptor that directs peripheral blood t cells to specific lysis of carcinoembryonic antigen–positive tumor cells

Enhanced targeting specificity to tumor cells by simultaneous recognition of two antigens.

Radioimmunotherapy recently afforded convincing results for B-cell non-Hodgkin's lymphoma treatment with antibody specific for B-cell differentiation antigens. High doses of unlabeled or labeled antibodies are necessary to saturate specific sites on normal B-cells. We thus developed a new targeting strategy, taking advantage of dual binding cooperativity, to enhance the specificity of the radioactive uptake by tumor cells. This approach was evaluated using human Burkitt lymphoma cells (Ramos) which express both CD10 and CD20 antigens. Most normal cells express at most one of these two differentiation antigens but many hematological tumors, including most human B type acute lymphoblastic leukemia cells, express both. Cells pretargeted with two bispecific antibodies, one recognizing CD10 and a histamine derivative (HSG), the other recognizing CD20 and the DTPA-indium complex, bind cooperatively radiolabeled mixed-haptens (DTPA-HSG). Increased binding (about 5-fold compared to binding to only one of CD10 or CD20 antigens) is observed at 37 degrees C, demonstrating the feasibility of the technique. This binding enhancement is a slow process, not observed at 4 degrees C. Such a binding enhancement will increase specificity for targeting isotopes to double antigen positive tumor cells compared to nontumor tissue cells bearing only one of them. This approach might be used to increase tumor irradiation with minimal irradiation of normal cells.

An entirely humanized CD3 ζ-chain signaling receptor that directs peripheral blood t cells to specific lysis of carcinoembryonic antigen-positive tumor cells

Recombinant T-cell receptors with antibody-like specificity for tumor-associated antigens are successfully used to direct the cytolytic activity of T cells toward tumor cells. Clinical application, however, needs to comply with the low immunogenicity of the recombinant receptor, efficient gene transfer into peripheral blood T cells, and enrichment of receptor-grafted cells. Here, we address these issues and describe an entirely humanized immune receptor for use in adoptive immunotherapy of colorectal carcinoma. The receptor consists of a single-chain antibody (scFv) binding domain specific for carcinoembryonic antigen (CEA), the IgG hinge and CH2/CH3 (Fc) joining region, and the transmembrane and intracellular CD3 zeta signaling chain. To express the receptor in peripheral blood T cells, both GALV envelope and MuLV 4070A pseudotyped retrovirus turned out to be equally efficient, with transduction efficiencies of about 5% to 40%, depending on the lymphocyte donor. Furthermore, receptor-grafted T cells could be 2- to 6-fold enriched by magnetic activated cell sorting, utilizing an antibody directed to the extracellular IgG domain of the receptor. Upon co-culture with CEA(+) tumor cells, receptor-grafted T cells are specifically and efficiently activated to cytolysis and IFN-gamma secretion, demonstrating their feasibility for the adoptive immunotherapy of CEA(+) carcinomas.

Prognostic clinicopathologic factors, including immunologic expression in diffuse large B-cell lymphomas.

The aim of this study was to assess the clinical significance and potential prognostic value of the expression of a panel of surface markers, proliferating, suppressor and oncogenic proteins in diffuse large B-cell lymphomas (DLBCL). Biopsies were collected from 158 patients with DLBCL and analyzed immunohistochemically for p53, p21/WAF1, bcl-2, cyclin-D1, bcl-6, mdr, CD5, CD30, epithelial membrane antigen (EMA), Ki-67 and c-myc positive tumor cells. Among these, 76 young and middle-aged patients (20-65 years) were selected to investigate the relationship between protein expression, clinical features, and survival. Survival analysis showed that advanced stage, high lactic dehydrogenase level, and high International Prognostic Index (IPI) were poor prognostic factors associated with a shorter overall survival (OS) and disease-free survival (DFS) times. A high p53 expression and low bcl-6 expression were associated with a shorter DFS time. The histological variant type, cyclin-D1+ CD5+ DLBCL, positive epithelial membrane antigen (EMA+) CD30- DLBCL, high bcl-2 expression, and low Ki-67 proliferation activity tended to be associated with worse survival, but the correlations were not statistically significant. In the multivariate analysis, the most significant factors were age, followed by IPI and last p53. The expression of p21/WAF1, mdr, and c-myc proteins did not influence OS and DFS. The expression of p53 and bcl-6 proteins may be useful prognostic indicators in DLBCL. Cyclin-D1+ CD5+ or EMA+ CD30- DLBCL tended to predict a worse survival and may probably bear a significant prognostic value worthy of consideration. Overall, clinical factors appeared to be more important than biologic parameters in determining the prognosis of diffuse large B-cell lymphomas.

111Indium-labeled monoclonal antibody K1: biodistribution study in nude mice bearing a human carcinoma xenograft expressing mesothelin.

The monoclonal antibody (MAb) K1 is a murine IgG1 that recognizes mesothelin, a differentiation antigen present on mesothelium which is highly expressed on cancers derived from mesothelium, including most ovarian cancers and epithelioid mesotheliomas. MAb K1 was conjugated to 2-(p-isothiocyanatobenzyl)-cyclohexyl- diethylenetriaminepentaacetic acid and labeled with 111In. The biodistribution of 111In-K1 was studied in athymic nude mice bearing 2 s.c. tumors, one expressing a stably transfected plasmid encoding mesothelin and one composed of the parental untransfected A431 epidermoid carcinoma cells which do not express mesothelin. Tumor-bearing mice were given an i.v. injection of 111In-K1 and killed at different time points to determine the uptake of radiolabeled antibody. Significantly higher uptake was seen in antigen-positive tumors at all time points, with peak values at 72 hr (52.9% vs. 8% of the injected dose/g tissue for antigen-positive and antigen-negative tumors, respectively). Uptake in antigen-positive tumors was higher than the blood level at all time points, and the tumors contained a high level of the radiolabeled MAb even at 7 days (28.6% of the injected dose/g tumor).

Targeted gene transfer to hepatocellular carcinoma cells in vitro using a novel monoclonal antibody-based gene delivery system.

Gene therapy approaches for the treatment of malignant tumors will require high-level expression of therapeutic genes in tumors compared with normal tissues. This may be achieved either by targeted gene delivery to tumor cells or by the use of tumor-specific promoters. Here, we describe the use of a novel conjugate consisting of a tumor-reactive monoclonal antibody (mAb), designated AF-20, coupled to a DNA-binding cationic amphiphile, cholesteryl-spermine, for gene delivery to hepatocellular carcinoma (HCC) cells. The high-affinity mAb, AF-20, recognizes a rapidly internalized 180-kd cell-surface glycoprotein that is abundantly expressed on HCC and other human tumors. The AF-20 mAb and an isotype-matched control antibody (C7-57) were covalently coupled to cholesteryl-spermine. Binding and internalization of AF-20-cholesteryl-spermine was confirmed by fluorescence microscopy using fluorescein isothiocyanate (FITC)-labeled anti-mouse IgG antibody. Following transfection of FITC-labeled oligonucleotides and ethidium monoazide-labeled plasmid DNA, cellular uptake and intracellular localization of nucleic acids were examined by laser scanning confocal microscopy. Transfection of luciferase or beta-galactosidase reporter genes complexed to AF-20-cholesteryl-spermine resulted in high levels of gene expression in AF-20 antigen-positive tumor cells. Very low levels of gene expression were observed using the control compound (C7-57-cholesteryl-spermine), which does not recognize the AF-20 tumor antigen or when AF-20 antigen-negative NIH 3T3 cells were transfected with AF-20-cholesteryl-spermine. Thus, covalent coupling of the AF-20 mAb to cholesteryl-spermine generated a highly specific and efficient nonviral vector system for targeted gene delivery to AF-20 antigen-positive HCC cells.

Most Primary Cutaneous CD30-Positive Lymphoproliferative Disorders Have a CD4-Positive Cytotoxic T-Cell Phenotype

Primary cutaneous CD30-positive (anaplastic) large T-cell lymphomas and lymphomatoid papulosis are closely related types of cutaneous T-cell lymphoma with a favorable prognosis. The neoplastic T cells in these conditions have the phenotype of activated CD3+, CD4+, CD8-, CD30+ skin homing T cells, but their normal counterpart has not yet been defined. To further characterize the cellular origin of the neoplastic T cells, skin biopsies from 14 patients with primary cutaneous CD30-positive (anaplastic) large T-cell lymphomas, nine patients with lymphomatoid papulosis, and six patients with primary cutaneous CD30-negative pleomorphic large T-cell lymphomas were stained with monoclonal antibodies against cytotoxic cell-associated molecules granzyme B and T-cell restricted intracellular antigen. In nine of nine lymphomatoid papulosis and in 10 of 14 CD30-positive primary cutaneous large T-cell lymphomas, expression of granzyme B and T-cell restricted intracellular antigen by variable numbers of neoplastic cells was found. Expression of granzyme B by the neoplastic CD30-positive T cells was confirmed by double-staining for granzyme B and CD30 (three cases) and by the detection of granzyme B mRNA using RNA in situ hybridization (one case). In most cases equal numbers of granzyme-B-positive and T-cell restricted intracellular antigen positive tumor cells were observed. In five of six CD30-negative primary cutaneous large T-cell lymphomas the neoplastic cells did not express these proteins, whereas in one case a sporadic positive tumor cell was found. These results demonstrate that, in contrast to primary cutaneous CD30-negative pleomorphic large T-cell lymphomas, the neoplastic cells in most primary cutaneous CD30-positive (anaplastic) large T-cell lymphomas and lymphomatoid papulosis have a unique CD4+, CD8-, cytotoxic T-cell phenotype.

Carbohydrate vaccines that induce antibodies against cancer. 2. Previous experience and future plans.

The primary function of antibodies is the elimination of circulating viral or bacterial pathogens from the blood-stream, lymphatics and interstitial spaces, and so, once induced, antibodies should be ideally suited for eliminating tumor cells and micrometastases from these spaces as well. Natural or tumor-induced and vaccine-induced antibodies against human cancer-associated antigens have been correlated with an improved clinical outcome. In the mouse, passive administration of monoclonal antibodies against cell-surface antigens 1–4 days after tumor challenge, and active induction of antibodies with vaccines, has resulted in prolonged survival or complete protection from tumor growth. This is a setting similar to the adjuvant setting in humans. Carbohydrates are the most abundant antigens at the cell surface of cancer cells, where they play important roles in cell-cell interactions, proliferation and the metastatic process. They have been shown to be excellent targets for immune attack by antibodies against human cancers, especially in the adjuvant setting. Vaccines containing these carbohydrate antigens covalently attached to immunogenic carrier proteins, such as KLH, plus potent immunological adjuvants, such as QS-21, effectively induce antibodies against these antigens in patients, which can result in complement-mediated lysis of antigen-positive tumor cells. Phase III trials with KLH conjugate vaccines have been initiated in the adjuvant setting against two carbohydrate antigens, the ganglioside GM2 and the blood-group-related antigen sTn. As the immunogenicity of additional vaccines is confirmed in small pilot trials, trials with polyvalent vaccines against two to five different antigens tailored for particular cancer types are planned.

Immunoselection in vivo: independent loss of MHC class I and melanocyte differentiation antigen expression in metastatic melanoma.

Peptides derived from melanocyte differentiation antigens have been identified as targets for MHC class I-restricted cytolytic T lymphocytes (CTLs) in human melanoma Regression of antigen-expressing tumors as well as selection of antigen-loss variants in the presence of antigen-specific CTLs have previously been reported. In the present study, we determined the expression of the melanocyte differentiation antigens Melan A/MART-1 and tyrosinase by mRNA analysis and by immunohistochemical staining with the monoclonal antibodies (MAbs) A103 and T311. Co-expression of Melan A/MART-1 and tyrosinase was detected by both methods in 18/20 melanomas tested. However, immunohistochemistry provided additional information on intensity and microheterogeneity of antigen expression that cannot be detected by mRNA analysis as a molecular basis for the escape from CTL recognition of antigen-negative tumor cells. Comparative analysis of repeated biopsies of metastatic lesions in 5 HLA-A2+ patients showed a gradual loss of Melan A/MART-1 expression in 4/5 and of tyrosinase in 2/5 samples in association with tumor progression. However, 3 of these patients had growing antigen-positive tumors in the presence of antigen-specific CTLs. This led us to assess the expression of MHC class I, the essential restriction element for CTL recognition, and of HLA-A2. We found an unexpectedly high frequency of MHC class I-negative tumors (9/20). Loss of MHC class I expression was detected in 3/5 progressive tumors and isolated loss of HLA-A2 in 1/5 tumors. Our results suggest that strategies enhancing the expression of MHC class I and tumor-associated antigens need to be considered in attempts at making vaccination more effective.

Expression of carbohydrate antigen sialyl Le(a): a new functional prognostic factor in gastric cancer.

The prognostic value of the altered expression of carbohydrate antigens sialyl Le(a) (sLe(a)) and sialyl Le(x) (sLe(x)), which have been implicated as functional ligands in heterotypic-cell-adhesion systems in the multistep process of tumor metastasis, were evaluated. The level of expression of sLe(a) and sLe(x) antigens was examined immunohistochemically in paraffin-embedded tumor samples from 137 patients who underwent resection for gastric cancer. Correlation between the antigens' expression, various established clinicopathologic factors, and prognosis were studied by univariate and multivariate analysis. Tumors that were positive for the sLe(a) antigen were significantly more likely to be large (P = .035), to be localized at the proximal third of the stomach (P = .018), to have an infiltrate appearance (P = .013), to have an invasive mode both in depth of invasion (P = .028) and in lymphatic invasion (P = .002), and to be classified as late stage (P = .011) than those that were negative for sLe(a), whereas the sLe(x) antigen status was not correlated with any clinicopathologic factors. The overall survival of patients with an sLe(a)-antigen-positive tumor was significantly poorer than that of those with an sLe(a)-antigen-negative tumor (P = .0001). Survival within each pathologic stage differed also (stage I, P = .030; stage II, P = .046; stage III, P = .026, respectively). A Cox regression analysis with multiple covariates showed that positive sLe(a) antigen status was an independent prognostic factor for a worse outcome in patients with gastric cancer. According to the mode of recurrence, increased sLe(a) antigen expression significantly affected both peritoneal dissemination and liver metastasis. Increased expression of the sLe(a) antigen may serve as a potent prognostic indicator for recurrence in patients with gastric cancer. Careful follow-up and intensive therapy are required for patients with an sLe(a)-antigen-positive gastric cancer.

Genetically engineered superantigens in experimental tumor therapy.

The data discussed in this review demonstrates that genetically engineered superantigens are highly effective anti-tumor agents in an experimental murine tumor model. The tumor-suppressive activity of Fab-SEA fusion proteins has been shown against established B16 lung metastases and recently also demonstrated against disseminated human colon carcinomas in SCID mice engrafted with human lymphocytes [9, 24]. The local response involves a pronounced infiltration and activation of CD4+ and CD8+ T lymphocytes. Fab-SEA proteins direct CTL against antigen-positive tumor cells and induce local release of tumor-suppressive cytokines. In situ expression of cytokines in the tumor may be particularly important in elimination of antigen-negative tumor cells inevitably present in any tumor. We have also shown that it is feasible to reduce the systemic toxicity and simultaneously retain the therapeutic efficacy of Fab-SEA fusion proteins by means of site-directed mutageneses of amino acids critical for MHC class II binding. The C215Fab-SEAD227A mutant had an estimated K d of 10-9 M for the tumor antigen compared to K d of less than 10-5 for the interaction with MHC class II molecules, giving the fusion protein a 10000-fold preference for the tumor antigen versus MHC class II molecules compared to a 100-fold difference for the wild-type C215Fab-SEA for the tumor antigen. It is likely, however, that the optimal MHC class II binding of SEA may vary in different clinical indications. If the targeted tumors such as lymphomas and leukemias, express MHC class II, it may be favorable to retain the affinity for MHC class II at a moderate level, since SEA induced cross-linking of MHC class II on the tumor cell might increase expression of co-stimulatory signals (Fig. 7). Similarly, during therapy of certain solid tumors, release of inflammatory cytokines by tumor-infiltrating MHC class II+ monocytes, may be influenced by MHC class II cross-linking, and thereby facilitate tumor uptake of the Fab-SEA protein.

Anaplastic Large-Cell Lymphomas of T-Cell and Null-Cell Phenotype Express Cytotoxic Molecules

To further specify the cellular origin and nature of anaplastic large-cell lymphoma (ALCL) and its relationship to other lymphoid neoplasms, particularly Hodgkin's disease (HD), we investigated the presence of cytotoxic molecules in a large well-characterized series of these tumors. For expression of the cytotoxic molecules perforin and granzyme B, in situ hybridization (ISH) and immunohistology were used, respectively. Overall, 23 of 25 ALCLs of T/null phenotype and five (three mixed cellularity and two nodular sclerosis) of 57 HD cases showed the presence of perforin transcripts and/or granzyme B molecules in neoplastic cells. Polymerase chain reaction (PCR) analysis of ALCLs showed that most (10 of 11) cases of null-cell ALCL (null-ALCL) contained a clonal rearrangement of T-cell receptor beta-chain genes, as did T-cell ALCL (T-ALCL; 9 of 10 cases). However, both cytotoxic molecules and clonally rearranged T-cell receptor beta-chain genes were absent in seven of seven and eight of nine cases of B-cell ALCL (B-ALCL), respectively. These data show that all or nearly all T-ALCLs, irrespective of the clinical subform or the lack of T-cell-associated molecules, are derived from activated cytotoxic T cells. The same appears to be true for the neoplastic cells of rare HD cases. These findings indicate that T-ALCLs are different from B-ALCLs and the majority of HD cases, and suggest that some HD cases, especially those with T-cell antigen-positive tumor cells, may be closely related to T-ALCL, at least in terms of cellular origin.

Costimulation by CD28 sFv expressed on the tumor cell surface or as a soluble bispecific molecule targeted to the L6 carcinoma antigen.

Interaction of the CD80 (B7-1) and CD86 (B7-2) molecules on antigen presenting cells with the receptors CD28 and CTLA-4 on T cells generates signals important in the regulation of immune responses. Because this receptor system involves multiple receptor-ligand interactions, determining the function for individual receptors has been difficult. One approach is the use of antibodies and their derivatives with singular specificity as substitute ligands to explore the activities of these molecules. We have constructed recombinant mono- and bi-specific sFv molecules specific for the CD28 receptor that are capable of binding and generating costimulatory signals to activate T cells. We demonstrate that these soluble molecules are capable of higher levels of costimulation than soluble CD80Ig at equivalent concentrations. We also constructed artificial adhesion receptors on the cell surface using two different CD28-specific sFvIgs fused to the CD80 cytoplasmic and transmembrane domains. In this report, we compared costimulation by a soluble bispecific (alpha CD28-alpha L6) single chain sFvIg fusion protein to that generated by L6 antigen positive (L6+) H3347 tumor cells transduced with cell surface expressed forms of alpha CD28 sFv's. We show that the bispecific protein can target potent CD28 costimulatory activity to L6+ tumor cells in vitro. We also show that transfection of the cell surface forms of the two different CD28 sFvIgs into H3347 tumor cells allows them to generate significant costimulatory signals to activated T cells. Finally, we demonstrate that tumor cell presentation of either the soluble bispecific or transduced cell surface sFv generate similar costimulatory effects resulting in T cell activation.

Upregulation of prostate-specific membrane antigen after androgen-deprivation therapy

Objectives To determine the expression of prostate-specific membrane antigen (PSMA) before and after androgen-deprivation therapy and to compare PSMA expression with prostate-specific antigen (PSA) expression. Methods We studied specimens from 20 patients with prostate cancer undergoing medical or surgical castration or combination androgen-deprivation therapy in whom matched pretreatment and post-treatment tissue specimens were available and 16 patients in whom only a post-treatment specimen was available. The expression of PSMA and PSA in the tissue specimens was determined by immunoperoxidase staining. The extent of staining was calculated by multiplying the percent of antigen-positive tumor cells by the staining intensity to arrive at a stain index for each biomarker. An in vitro study assessed the concentration of PSMA and PSA in extracts of LNCaP cells cultured in the presence or absence of androgen as determined by immunoassays and Western blot analysis. Results PSMA reactivity was found to be increased in 55% (11 of 20) of post-treatment primary tissues and 100% (4 of 4) of post-treatment metastatic specimens. In contrast, PSA expression was found to be decreased in 70% (14 of 20) of post-treatment primary and 100% (4 of 4) of post-treatment metastatic specimens. Neither type of androgen-deprivation treatment nor tissue sensitivity to androgen deprivation appeared to influence degree of biomarker expression. PSMA was found to be downregulated and PSA upregulated when LNCaP cells were cultured in the presence of testosterone or dihydrotestosterone. Conclusions The enhanced expression of PSMA in tissues and LNCaP cells after androgen deprivation suggests that PSMA is upregulated in the majority of prostate carcinomas after androgen treatment. The high expression in metastatic tissues strongly suggests that PSMA may be a clinically useful target for antibodyand genetic-directed therapy of prostate cancer that recurs after androgen deprivation. The mechanism whereby androgens suppress the expression of PSMA and the association of PSMA with the development of hormone-independent prostate cancers, will require further study.

Systemic administration of recombinant interferon alfa in carcinoma patients upregulates the expression of the carcinoma-associated antigens tumor-associated glycoprotein-72 and carcinoembryonic antigen.

The ability of interferons (IFNs) to enhance tumor-associated antigen expression may be an important approach to enhance the efficacy of some monoclonal antibody (MAb)-based protocols for tumor diagnosis and/or therapy. The present study was designed to determine whether systemic IFN alpha-2a administration (via the intramuscular [IM] route) could upregulate the expression of tumor-associated glycoprotein-72 (TAG-72) and/or carcinoembryonic antigen (CEA) at histologically confirmed sites of carcinoma. Eighteen patients diagnosed with gastrointestinal (GI) carcinoma received systemic IFN alpha-2a according to four dose schedules. In cohorts I and II, patients received two injections of 3 or 6 x 10(6) U IFN alpha-2a per injection, respectively. Patients in cohorts III and IV received the same doses of IFN alpha-2a, 3 and 6 x 10(6) U, respectively, but three injections were given. Tumor and normal colonic mucosa biopsies were obtained from each patient by endoscopy before IFN alpha-2a and after IFN alpha-2a at surgery. The levels of TAG-72 and CEA expression were measured by (1) immunohistochemistry and reported as percent antigen-positive tumor cells, as well as the relative staining intensity, and (2) a quantitative radioimmunoassay. TAG-72 and CEA levels were consistently increased in tumor biopsies taken from patients in cohorts III and IV. For example, of 10 patients treated in cohorts III and IV, eight had enhanced TAG-72 expression when measured either as percentage TAG-72-positive tumor cells or as an increased MAb staining intensity following IFN alpha-2a. CEA expression in tumor biopsies from seven of 10 patients in cohorts III and IV was also elevated following IFN alpha-2a treatment. Quantitative analysis of TAG-72 and CEA levels in tumor biopsies confirmed higher tumor antigen levels following IFN alpha-2a administration. No such increases in TAG-72 or CEA levels were observed in tumor samples taken from patients in cohorts I and II. CEA or TAG-72 expression in samples of histologically confirmed normal colonic mucosa showed little or no change after IFN alpha-2a treatment. Systemic IFN alpha-2a administration can upregulate TAG-72 and CEA expression at distal tumor sites, which may play an important role in immunodiagnosis and therapy.