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151. Prosthetic Antigen Receptors.

Author

Jingjing Shen, Vallera, Daniel A., and Wagner, Carston R.

Subjects
*ANTIGEN receptors, *CANCER treatment, *T-cell receptor genes, *B cells, *LYMPHOMAS
Abstract

Chimeric antigen receptors (CARs) have shown great promise for the immunological treatment of cancer. Nevertheless, the need to genetically engineer a patient's T-cells has presented significant production and safety challenges. To address these issues, we have demonstrated that chemically self-assembled nanorings (CSANs) displaying single chain antibodies can bind to both the CD3 ε subunit of the T-cell-receptor/CD3 complex and the CD22 antigen on malignant B cells such as B-leukemias or lymphomas. We demonstrate that the multivalent and bispecific format allows the antiCD3/antiCD22 CSANs to stably bind to T-cell surfaces for greater than 4 days, while being easily disassembled on the cell membrane by treatment with the nontoxic FDA approved drug, trimethoprim. In the presence of CD22+ Raji cells, T-cells modified with antiCD3/antiCD22 CSANs were shown to selectively up-regulate the production of interleukin-2 (IL-2) and interferon-γ (IFN-γ) and to initiate cytotoxicity. Taken together, our results demonstrate that antiCD3/antiCD22 bispecific CSANs offer a potential alternative to CARs, as prosthetic antigen receptors. [ABSTRACT FROM AUTHOR]

Published
2015
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156. Radiotherapy of CD19 Expressing Daudi Tumors in Nude Mice with Yttrium-90-Labeled Anti-CD19 Antibody

Author

Vallera, Daniel A., primary, Elson, Michael, additional, Brechbiel, Martin W., additional, Dusenbery, Kathryn E., additional, Burns, Linda J., additional, Jaszcz, Waclaw B., additional, Ramsay, Norma K., additional, Panoskaltsis-Mortar, Angela, additional, Kuroki, David W., additional, Wagner, John E., additional, Vitetta, Ellen S., additional, and Kersey, John H., additional

Published
2004
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161. Gene Therapy With Immunotoxins.

Author

Walker, John M., Hall, Walter A., and Vallera, Daniel A.

Abstract

The purpose of this chapter is to describe the method of treating lymphokine-activated killer (LAK) cells with retroviral immunotoxins (retIT) so that these cells can express and secrete immunotoxins (IT). The intent is to use LAK as a vehicle to deliver IT therapy directly to leukemia cells in vivo. This would reduce their systemic toxicity and thus solve a major problem that has limited the use of IT clinically. [ABSTRACT FROM AUTHOR]

Published
2001
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176. Laboratory preparation of a deglycosylated ricin toxin A chain containing immunotoxin directed against a CD7 T lineage differentiation antigen for phase I human clinical studies involving T cell malignancies

Author

Vallera, Daniel A., primary, Burns, Linda J., additional, Frankel, Arthur E., additional, Sicheneder, Andrew R., additional, Gunther, Roland, additional, Gajl-Peczalska, K., additional, Pennell, Christopher A., additional, and Kersey, John H., additional

Published
1996
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182. Intracranial elimination of human glioblastoma brain tumors in nude rats using the bispecific ligand-directed toxin, DTEGF13 and convection enhanced delivery.

Author

Seunguk Oh, Ohlfest, John R., Todhunter, Deborah A., Vallera, Vincent D., Hall, Walter A., Hua Chen, and Vallera, Daniel A.

Abstract

A bispecific ligand-directed toxin (BLT) consisting of human interleukin-13, epithelial growth factor, and the first 389 amino acids of diphtheria toxin was assembled in order to target human glioblastoma. In vitro, DTEGF13 selectively killed the human glioblastoma cell line U87-luc as well as other human glioblastomas. DTEGF13 fulfilled the requirement of a successful BLT by having greater activity than either of its monospecific counterparts or their mixture proving it necessary to have both ligands on the same single chain molecule. Aggressive brain tumors established intracranially (IC) in nude rats with U87 glioma genetically marked with a firefly luciferase reporter gene were treated with two injections of DTEGF13 using convection enhanced delivery resulting in tumor eradication in 50% of the rats which survived with tumor free status at least 110 days post tumor inoculation. An irrelevant BLT control did not protect establishing specificity. The bispecific DTEGF13 MTD dose was measured at 2 µg/injection or 0.5 μg/kg and toxicity studies indicated safety in this dose. Combination of monospecific DTEGF and DTIL13 did not inhibit tumor growth. ELISA assay indicated that anti-DT antibodies were not generated in normal immunocompetent rats given identical intracranial DTEGF13 therapy. Thus, DTEGF13 is safe and efficacious as an alternative drug for glioblastoma therapy and warrants further study. [ABSTRACT FROM AUTHOR]

Published
2009
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185. The diphtheria toxin/urokinase fusion protein (DTAT) is selectively toxic to CD87 expressing leukemic cells

Author

Ramage, Jason G., Vallera, Daniel A., Black, Jennifer H., Aplan, Peter D., Kees, Ursula R., and Frankel, Arthur E.

Subjects
*ACUTE myeloid leukemia, *ACUTE leukemia
Abstract

Diphtheria fusion proteins are a novel class of agents for the treatment of chemotherapy resistant acute myelogenous leukemia (AML). We prepared diphtheria toxin/urokinase fusion protein (DTAT) composed of the amino terminal fragment of the urokinase-type plasminogen activator (uPA) fused to the catalytic and translocation domains of diphtheria toxin (DT) and assessed its activity on leukemic cell lines. The number of uPA receptors (uPAR or CD87) was measured using a phycoerythrin conjugated monoclonal antibody to CD87 and flow cytometry. Seven of 23 cell lines (30%) showed CD87 expression (≥5000 receptors/cell). DTAT cytotoxicity (IC50≤30 pM) was observed in all seven of these samples and none of the 16 samples with low or absent CD87 expression. There was a significant correlation between DTAT sensitivity and CD87 density (P=0.0007). These results show that specific CD87 binding is one factor important in the sensitivity of patient’s leukemic blasts to DTAT and demonstrate for the first time that the CD87/uPAR can be used as a target for fusion protein therapy of AML. [Copyright &y& Elsevier]

Published
2003
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187. Targeting urokinase-type plasminogen activator receptor on human glioblastoma tumors with diphtheria toxin fusion protein DTAT.

Author

Vallera, Daniel A., Chunbin Lin, Ni Jin, Panoskaltsis-Mortari, Angela, Hall, Walter A., Li, Chunbin, and Jin, Ni

Subjects
*BRAIN cancer, *UROKINASE, *RECOMBINANT proteins
Abstract

Background: The prognosis for patients with brain cancer is poor, and new therapies are urgently needed. Recombinant toxic proteins that specifically target tumor cells appear to be promising. Urokinase-type plasminogen activator (uPA) receptor (uPAR) is expressed on the surface of glioblastoma and some other tumor cells and endothelial cells. We synthesized a recombinant fusion protein, DTAT, which contains the catalytic portion of diphtheria toxin (DT) for cell killing fused to the noninternalizing amino-terminal (AT) fragment of uPA, and investigated its effectiveness in targeting uPAR-positive tumor cells.Methods: In vitro cytotoxicity of DTAT was measured by cell proliferation assays. For in vivo studies, athymic nude mice (four to five animals/group) bearing uPAR-expressing human glioblastoma (U118MG) cell-induced tumors were injected with DTAT or control protein. Tumor volume was assessed over time, and differences between treatments were analyzed by Student's t test. Effects of DTAT on body organ systems were evaluated in normal, tumor-free C57BL/6 mice histologically and functionally by serum enzyme tests. All statistical tests were two-sided.Results: In vitro, DTAT was highly potent and selective in killing uPAR-expressing glioblastoma cells (U118MG, U373MG, and U87MG) and human umbilical vein endothelial cells. In vivo, compared with mice treated with control proteins, DTAT caused a statistically significant (P =.05) regression of small U118MG cell-induced tumors in all mice. Control fusion proteins that did not react with glioblastoma cells had no effect on tumor growth. DTAT given to tumor-free C57BL/6 mice had little effect on kidney, liver, heart, lung, and spleen histologies. Serum analysis in the same mice showed no elevation in blood urea nitrogen, indicating lack of effect on kidney function but a statistically significant (P =.046), albeit non-life-threatening, elevation in liver alanine aminotransferase levels.Conclusion: DTAT may have potential for intracranial glioblastoma therapy because of its ability to target tumor cells and tumor vasculature simultaneously and its apparent lack of systemic effects. [ABSTRACT FROM AUTHOR]

Published
2002
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188. CD16xCD33 bispecific killer cell engager (BiKE) activates NK cells against primary MDS and MDSC CD33+targets

Author

Gleason, Michelle K., Ross, Julie A., Warlick, Erica D., Lund, Troy C., Verneris, Michael R., Wiernik, Andres, Spellman, Stephen, Haagenson, Michael D., Lenvik, Alexander J., Litzow, Mark R., Epling-Burnette, Pearlie K., Blazar, Bruce R., Weiner, Louis M., Weisdorf, Daniel J., Vallera, Daniel A., and Miller, Jeffrey S.

Abstract

Myelodysplastic syndromes (MDS) are stem cell disorders that can progress to acute myeloid leukemia. Although hematopoietic cell transplantation can be curative, additional therapies are needed for a disease that disproportionally afflicts the elderly. We tested the ability of a CD16xCD33 BiKE to induce natural killer (NK) cell function in 67 MDS patients. Compared with age-matched normal controls, CD7+lymphocytes, NK cells, and CD16 expression were markedly decreased in MDS patients. Despite this, reverse antibody-dependent cell-mediated cytotoxicity assays showed potent degranulation and cytokine production when resting MDS-NK cells were triggered with an agonistic CD16 monoclonal antibody. Blood and marrow MDS-NK cells treated with bispecific killer cell engager (BiKE) significantly enhanced degranulation and tumor necrosis factor-α and interferon-γ production against HL-60 and endogenous CD33+MDS targets. MDS patients had a significantly increased proportion of immunosuppressive CD33+myeloid-derived suppressor cells (MDSCs) that negatively correlated with MDS lymphocyte populations and CD16 loss on NK cells. Treatment with the CD16xCD33 BiKE successfully reversed MDSC immunosuppression of NK cells and induced MDSC target cell lysis. Lastly, the BiKE induced optimal MDS-NK cell function irrespective of disease stage. Our data suggest that the CD16xCD33 BiKE functions against both CD33+MDS and MDSC targets and may be therapeutically beneficial for MDS patients.

Published
2014
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189. Immunotoxin targeting CD133+breast carcinoma cells

Author

Ohlfest, John, Zellmer, David, Panyam, Jayanth, Swaminathan, Suresh, Oh, Seunguk, Waldron, Nate, Toma, Shoko, and Vallera, Daniel

Abstract

CD133 expression enriches for tumor-initiating cells and is a negative prognostic factor in numerous cancers. We previously developed an immunotoxin against CD133 by fusing a gene fragment encoding the scFv portion of an anti-CD133 antibody to a gene fragment encoding deimmunized PE38KDEL. The resulting fusion protein, dCD133KDEL, demonstrated potent antitumor activity following intratumoral delivery into head neck cell carcinoma xenografts. However, the efficacy against other tumors and the tolerability of systemic administration remained unclear. The purpose of this study was to evaluate the tolerability and efficacy of dCD133KDEL in a systemic human breast carcinoma model. Time course viability studies showed that dCD133KDEL selectively inhibited MDA-MB-231 ductal breast carcinoma cells that contained a minority CD133+subpopulation, implicating CD133+cells as a source for self-renewal within this cell line. Furthermore, systemic administration of dCD133KDEL caused regression or inhibition of tumor growth in mice bearing an intrasplenic MDA-MB-231 tumor challenge as a model for metastatic disease. In the same model, combined therapy with dCD133KDEL and another immunotoxin designed to target the bulk tumor mass was the most effective therapy, supporting the idea that such combination therapies might better address tumor heterogeneity. dCD133KDEL shows promise as a therapeutic agent and as a biologic tool to study cancer stem cells.CD133 expression enriches for tumor-initiating cells and is a negative prognostic factor in numerous cancers. We previously developed an immunotoxin against CD133 by fusing a gene fragment encoding the scFv portion of an anti-CD133 antibody to a gene fragment encoding deimmunized PE38KDEL. The resulting fusion protein, dCD133KDEL, demonstrated potent antitumor activity following intratumoral delivery into head neck cell carcinoma xenografts. However, the efficacy against other tumors and the tolerability of systemic administration remained unclear. The purpose of this study was to evaluate the tolerability and efficacy of dCD133KDEL in a systemic human breast carcinoma model. Time course viability studies showed that dCD133KDEL selectively inhibited MDA-MB-231 ductal breast carcinoma cells that contained a minority CD133+subpopulation, implicating CD133+cells as a source for self-renewal within this cell line. Furthermore, systemic administration of dCD133KDEL caused regression or inhibition of tumor growth in mice bearing an intrasplenic MDA-MB-231 tumor challenge as a model for metastatic disease. In the same model, combined therapy with dCD133KDEL and another immunotoxin designed to target the bulk tumor mass was the most effective therapy, supporting the idea that such combination therapies might better address tumor heterogeneity. dCD133KDEL shows promise as a therapeutic agent and as a biologic tool to study cancer stem cells.

Published
2013
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190. Identification and characterization of a novel scFv recognizing human and mouse CD133

Author

Swaminathan, Suresh, Niu, Lin, Waldron, Nate, Kalscheuer, Steve, Zellmer, David, Olin, Michael, Ohlfest, John, Vallera, Daniel, and Panyam, Jayanth

Abstract

CD133, also known as Prominin-1, is expressed on stem cells present in many tissues and tumors. In this work, we have identified and characterized a single-chain variable fragment (scFv) for the efficient and specific recognition of CD133. Phage display was used to develop the scFv from a previously reported anti-CD133 hybridoma clone 7, which was capable of recognizing both glycosylated and non-glycosylated forms of human CD133. The scFv immunostained CD133+Caco-2 cells, but not CD133−/lowU87 cells. Significantly, it immunostained CD133−cells transiently transfected with the mouse CD133 gene as well as CD133+mouse cells. Co-immunostaining studies in mouse bone marrow cells, using anti-CD133 scFv-FITC and anti-mouse CD133-PE (clone 13A4) commercial antibody, indicated that the epitopes recognized by these reagents partially overlap. Taken together, these results suggest that the scFv can recognize mouse CD133 protein in addition to recognizing human CD133. This new scFv is expected to be valuable both as a molecular diagnostic reagent for identifying CD133+cells and as a ligand for targeting therapeutics to CD133+tumor-initiating cells.CD133, also known as Prominin-1, is expressed on stem cells present in many tissues and tumors. In this work, we have identified and characterized a single-chain variable fragment (scFv) for the efficient and specific recognition of CD133. Phage display was used to develop the scFv from a previously reported anti-CD133 hybridoma clone 7, which was capable of recognizing both glycosylated and non-glycosylated forms of human CD133. The scFv immunostained CD133+Caco-2 cells, but not CD133−/lowU87 cells. Significantly, it immunostained CD133−cells transiently transfected with the mouse CD133 gene as well as CD133+mouse cells. Co-immunostaining studies in mouse bone marrow cells, using anti-CD133 scFv-FITC and anti-mouse CD133-PE (clone 13A4) commercial antibody, indicated that the epitopes recognized by these reagents partially overlap. Taken together, these results suggest that the scFv can recognize mouse CD133 protein in addition to recognizing human CD133. This new scFv is expected to be valuable both as a molecular diagnostic reagent for identifying CD133+cells and as a ligand for targeting therapeutics to CD133+tumor-initiating cells.

Published
2013
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191. A HER2 Tri-Specific NK Cell Engager Mediates Efficient Targeting of Human Ovarian Cancer.

Author

Vallera, Daniel A., Oh, Felix, Kodal, Behiye, Hinderlie, Peter, Geller, Melissa A., Miller, Jeffrey S., and Felices, Martin

Subjects
*CYTOKINES, *INTERLEUKINS, *OVARIAN tumors, *XENOGRAFTS, *IMMUNOGLOBULINS, *ONCOGENES, *ONE-way analysis of variance, *KILLER cells, *IMMUNE system, *T-test (Statistics), *DESCRIPTIVE statistics, *CELL lines, *DATA analysis software, *IMMUNOTHERAPY
Abstract

Simple Summary: HER2 is a marker known to be over-expressed on breast cancer, rendering it one of the most useful solid tumor targets for antibody-based therapies. Despite expression on ovarian cancer, results targeting HER2 in this setting have been disappointing, thus requiring more aggressive approaches. Natural killer (NK) cells are known as principal mediators of cancer cell killing, but cancer cells find ways to deter them. We devised a tri-specific biological drug containing antibody fragments that simultaneously binds NK cells and cancer cells and at the same time delivers a natural cytokine signal that triggers robust NK cell expansion. In vitro studies show the drug augments NK cell killing of a number of HER2-positive human cell lines, while enhancing NK cell activation and proliferation. Studies in mice engrafted with human ovarian cancer showed the drug has anti-tumor efficacy, clearly demonstrating its ability to bolster NK cells in their ability to contain tumor cell growth. Clinical studies validated antibodies directed against HER2, trastuzumab, and pertuzumab, as useful methodology to target breast cancer cases where HER2 is expressed. The hope was that HER2 targeting using these antibodies in ovarian cancer patients would prove useful as well, but clinical studies have shown lackluster results in this setting, indicating a need for a more comprehensive approach. Immunotherapy approaches stimulating the innate immune system show great promise, although enhancing natural killer (NK) function is not an established mainstream immunotherapy. This study focused on a new nanobody platform technology in which the bispecific antibody was altered to incorporate a cytokine. Herein we describe bioengineered CAM1615HER2 consisting of a camelid VHH antibody fragment recognizing CD16 and a single chain variable fragment (scFv) recognizing HER2 cross-linked by the human interleukin-15 (IL-15) cytokine. This tri-specific killer engager (TriKETM) showed in vitro prowess in its ability to kill ovarian cancer human cell lines. In addition, we demonstrated its efficacy in inducing potent anti-cancer effects in an in vivo xenograft model of human ovarian cancer engrafting both cancer cells and human NK cells. While previous approaches with trastuzumab and pertuzumab faltered in ovarian cancer, the hope is incorporating targeting and cytokine priming within the same molecule will enhance efficacy in this setting. [ABSTRACT FROM AUTHOR]

Published
2021
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195. Intrathecal therapy of leptomeningeal CEM T-cell lymphoma in nude rats with anti-CD7 ricin toxin A chain immunotoxin.

Author

Herrlinger, Ulrich, Schmidberger, Heinz, Buchholz, Rainer, Wehrmann, Manfred, Vallera, Daniel, and Schabet, Martin

Abstract

We have established a new xenogeneic animal model of leptomeningeal metastasis (LM) by intracisternal inoculation of human CEM T-cell lymphoma into nude rats, and used it to evaluate the anti-lymphoma efficacy of an anti-CD7 ricin A chain immunotoxin (DA7). In vitro incubation with 2 μg/ml DA7 for 72 h inhibited CEM cells by 90% in a trypan blue exclusion assay. To establish its anti-lymphoma activity, one and four days after cisternal inoculation of 106 CEM cells, eight animals each were treated cisternally with 10 μg DA7 in 50 μl PBS or sham-treated with 50 μl PBS. Histopathologically, all eight sham-treated and five of eight DA7 treated animals showed typical features of LM with multilayers of tumor cells along the whole subarachnoid space and the ventricular walls, as well as subependymal and diffuse parenchymal tumor cell infiltration. Three DA7 treated animals were free of tumor. Two of these animals were asymptomatic long-term survivors (> 90 days). The third tumor-free animal suddenly died on day 51. Histology revealed viral myocarditis. Median symptom-free survival was 51 days (range 29–90+ days) in DA7 treated and 34 days (range 29–87 days) in sham-treated animals (p=0.12, log-rank test). Histologically, no signs of neurotoxicity or systemic toxicity was found. However, DA7 treated animals showed a tendency to a slower weight increase on days 6–28 after tumor cell inoculation. Our results indicate that this model is useful in studying leptomeningeal seeding and intracisternal treatment of lymphoma. The demonstrated anti-tumor effect of DA7 treatment deserves further evaluation especially regarding the application of DA7 in early stages of LM from T-cell lymphoma. [ABSTRACT FROM AUTHOR]

Published
1998
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