Your search keyword '"Holter, Wolfgang"' showing total 6 results

1. A conformation-specific ON-switch for controlling CAR T cells with an orally available drug.

Author

Zajc, Charlotte U., Dobersberger, Markus, Schaffner, Irene, Mlynek, Georg, Pühringer, Dominic, Salzer, Benjamin, Djinoviić-Carugo, Kristina, Steinberger, Peter, De Sousa Linhares, Annika, Yang, Nicole J., Obinger, Christian, Holter, Wolfgang, Traxlmayr, Michael W., and Lehner, Manfred

Subjects

T cells, SMALL molecules, HUMAN T cells, SCAFFOLD proteins, CARRIER proteins

Abstract

Molecular ON-switches in which a chemical compound induces protein-protein interactions can allow cellular function to be controlled with small molecules. ON-switches based on clinically applicable compounds and human proteins would greatly facilitate their therapeutic use. Here, we developed an ON-switch system in which the human retinol binding protein 4 (hRBP4) of the lipocalin family interacts with engineered hRBP4 binders in a small molecule-dependent manner. Two different protein scaffolds were engineered to bind to hRBP4 when loaded with the orally available small molecule A1120. The crystal structure of an assembled ON-switch shows that the engineered binder specifically recognizes the conformational changes induced by A1120 in two loop regions of hRBP4. We demonstrate that this conformation-specific ON-switch is highly dependent on the presence of A1120, as demonstrated by an ~500-fold increase in affinity upon addition of the small molecule drug. Furthermore, the ON-switch successfully regulated the activity of primary human CAR T cells in vitro. We anticipate that lipocalin-based ON-switches have the potential to be broadly applied for the safe pharmacological control of cellular therapeutics. [ABSTRACT FROM AUTHOR]

Published

2020

2. Redirecting T Cells to Ewing's Sarcoma Family of Tumors by a Chimeric NKG2D Receptor Expressed by Lentiviral Transduction or mRNA Transfection.

Author

Lehner, Manfred, Götz, Gabriel, Proff, Julia, Schaft, Niels, Dörrie, Jan, Full, Florian, Ensser, Armin, Muller, Yves A., Cerwenka, Adelheid, Abken, Hinrich, Parolini, Ornella, Ambros, Peter F., Kovar, Heinrich, and Holter, Wolfgang

Subjects

T cells, EWING'S sarcoma, MESSENGER RNA, GENE transfection, LENTIVIRUS diseases

Abstract

We explored the possibility to target Ewing's sarcoma family of tumors (ESFT) by redirecting T cells. To this aim, we considered NKG2D-ligands (NKG2D-Ls) as possible target antigens. Detailed analysis of the expression of MICA, MICB, ULBP- 1, -2, and -3 in fourteen ESFT cell lines revealed consistent expression of at least one NKG2D-L. Thus, for redirecting T cells, we fused a CD3f/CD28-derived signaling domain to the ectodomain of NKG2D, however, opposite transmembrane orientation of this signaling domain and NKG2D required inverse orientation fusion of either of them. We hypothesized that the particularly located C-terminus of the NKG2D ectodomain should allow reengineering of the membrane anchoring from a native N-terminal to an artificial C-terminal linkage. Indeed, the resulting chimeric NKG2D receptor (chNKG2D) was functional and efficiently mediated ESFT cell death triggered by activated T cells. Notably, ESFT cells with even low NKG2D-L expression were killed by CD8pos and also CD4pos cells. Both, mRNA transfection and lentiviral transduction resulted in high level surface expression of chNKG2D. However, upon target-cell recognition receptor surface levels were maintained by tranfected RNA only during the first couple of hours after transfection. Later, target-cell contact resulted in strong and irreversible receptor down-modulation, whereas lentivirally mediated expression of chNKG2D remained constant under these conditions. Together, our study defines NKG2D-Ls as targets for a CAR-mediated T cell based immunotherapy of ESFT. A comparison of two different methods of gene transfer reveals strong differences in the susceptibility to ligand-induced receptor down-modulation with possible implications for the applicability of RNA transfection. [ABSTRACT FROM AUTHOR]

Published

2012

3. Engineering AvidCARs for combinatorial antigen recognition and reversible control of CAR function.

Author

Salzer, Benjamin, Schueller, Christina M., Zajc, Charlotte U., Peters, Timo, Schoeber, Michael A., Kovacic, Boris, Buri, Michelle C., Lobner, Elisabeth, Dushek, Omer, Huppa, Johannes B., Obinger, Christian, Putz, Eva M., Holter, Wolfgang, Traxlmayr, Michael W., and Lehner, Manfred

Subjects

CD19 antigen, IMMUNE recognition, TREATMENT effectiveness, CHIMERIC antigen receptors, T cells, B cells

Abstract

T cells engineered to express chimeric antigen receptors (CAR-T cells) have shown impressive clinical efficacy in the treatment of B cell malignancies. However, the development of CAR-T cell therapies for solid tumors is hampered by the lack of truly tumor-specific antigens and poor control over T cell activity. Here we present an avidity-controlled CAR (AvidCAR) platform with inducible and logic control functions. The key is the combination of (i) an improved CAR design which enables controlled CAR dimerization and (ii) a significant reduction of antigen-binding affinities to introduce dependence on bivalent interaction, i.e. avidity. The potential and versatility of the AvidCAR platform is exemplified by designing ON-switch CARs, which can be regulated with a clinically applied drug, and AND-gate CARs specifically recognizing combinations of two antigens. Thus, we expect that AvidCARs will be a highly valuable platform for the development of controllable CAR therapies with improved tumor specificity. The lack of tumour-specific antigens and control over T-cell activity limits the development of CAR-T cell therapies for solid tumours. Here the authors present an avidity-controlled CAR platform with inducible logic control functions. [ABSTRACT FROM AUTHOR]

Published

2020

4. A Preclinical Embryonic Zebrafish Xenograft Model to Investigate CAR T Cells in Vivo.

Author

Pascoal, Susana, Salzer, Benjamin, Scheuringer, Eva, Wenninger-Weinzierl, Andrea, Sturtzel, Caterina, Holter, Wolfgang, Taschner-Mandl, Sabine, Lehner, Manfred, and Distel, Martin

Subjects

TUMOR treatment, ANIMAL experimentation, B cells, CELL lines, CELL receptors, CELL motility, FISHES, IMMUNOTHERAPY, T cells, XENOGRAFTS, EMBRYOS, IN vivo studies

Abstract

Chimeric antigen receptor (CAR) T cells have proven to be a powerful cellular therapy for B cell malignancies. Massive efforts are now being undertaken to reproduce the high efficacy of CAR T cells in the treatment of other malignancies. Here, predictive preclinical model systems are important, and the current gold standard for preclinical evaluation of CAR T cells are mouse xenografts. However, mouse xenograft assays are expensive and slow. Therefore, an additional vertebrate in vivo assay would be beneficial to bridge the gap from in vitro to mouse xenografts. Here, we present a novel assay based on embryonic zebrafish xenografts to investigate CAR T cell-mediated killing of human cancer cells. Using a CD19-specific CAR and Nalm-6 leukemia cells, we show that live observation of killing of Nalm-6 cells by CAR T cells is possible in zebrafish embryos. Furthermore, we applied Fiji macros enabling automated quantification of Nalm-6 cells and CAR T cells over time. In conclusion, we provide a proof-of-principle study that embryonic zebrafish xenografts can be used to investigate CAR T cell-mediated killing of tumor cells. This assay is cost-effective, fast, and offers live imaging possibilities to directly investigate CAR T cell migration, engagement, and killing of effector cells. [ABSTRACT FROM AUTHOR]

Published

2020

5. Transformation efficiency by Herpesvirus saimiri is not a limiting factor in clonal CD8pos T cell outgrowth

Author

Lehner, Manfred, Grillhoesl, Christian, Full, Florian, Vogel, Benjamin, Weller, Perdita, Müller-Fleckenstein, Ingrid, Schmidt, Monika, Fleckenstein, Bernhard, Holter, Wolfgang, and Ensser, Armin

Subjects

*VIRAL genetics, *HERPESVIRUSES, *T cells, *CELL growth, *SQUIRREL monkeys, *CELL culture

Abstract

Abstract: The routine transformation of human CD8pos T cells by Herpesvirus saimiri has so far not been achieved in the case of pre-expanded antigen-specific CTLs. Here we transformed 73% of polyclonal EBV-specific CD8pos T cell cultures using an optimized culture medium supplemented with IL-2, IL-7, IL-12, and TGF-β1. Still, antigen-specific cytotoxicity was frequently lost and analysis of the TCR Vβ-chain repertoire revealed a variable outgrowth of several initially subdominant populations. Limiting dilution cloning of cells in the presence of high titers of HVS did not result in clonal transformation but in the rapid loss of the viral genome in outgrowing clones. In summary, our data suggest that transformation of CD8pos T cells out of bulk cultures can be routinely achieved, while viral transformation itself remains an infrequent event on a per cell basis. The practical use of the improved immortalization of antigen-expanded CD8pos T cell lines, however, is limited by the arbitrary outgrowth of subdominant populations of unpredictable specificity. [Copyright &y& Elsevier]

Published

2009

6. T Cells Engineered with a Cytomegalovirus-Specific Chimeric Immunoreceptor.

Author

Full, Florian, Lehner, Manfred, Thonn, Veronika, Goetz, Gabriel, Scholz, Brigitte, Kaufmann, Kerstin B., Mach, Michael, Abken, Hinrich, Holter, Wolfgang, and Ensser, Armin

Subjects

*T cells, *CYTOMEGALOVIRUSES, *HEMATOPOIETIC stem cell transplantation, *IMMUNOTHERAPY, *GLYCOPROTEINS, *CYTOKINES

Abstract

Cytomegalovirus (CMV) infection in patients receiving hematopoietic stem cell transplants (HSCT) is associated with morbidity and mortality. Adoptive T cell immunotherapy has been used to treat viral reactivation but is hardly feasible in high-risk constellations of CMV-positive HSCT patients and CMV-negative stem cell donors. We endowed human effector T cells with a chimeric immunoreceptor (cIR) directed against CMV glycoprotein B. These cIR-engineered primary T cells mediated antiviral effector functions such as cytokine production and cytolysis. This first description of cIR-redirected CMV-specific T cells opens up a new perspective for HLA-independent immunotherapy of CMV infection in high-risk patients. [ABSTRACT FROM AUTHOR]

Published

2010