Your search keyword '"Ekkehard Mössner"' showing total 10 results

1. Supplementary Methods from RG7386, a Novel Tetravalent FAP-DR5 Antibody, Effectively Triggers FAP-Dependent, Avidity-Driven DR5 Hyperclustering and Tumor Cell Apoptosis

Author

Pablo Umaña, Klaus Bosslet, Christian Klein, Suzana Vega-Harring, Gary Xu, Peng Wang, Bin Liu, Cuiying Shao, Hadassah Sade, Werner Scheuer, Frank Herting, Thomas G. Weber, Ekkehard Mössner, Ralf J. Hosse, Sherif Daouti, Ningping Feng, Kathryn Packman, Huifeng Niu, Valeria Runza, Meher Majety, Barbara Weiser, Claudia Ferrara Koller, Inja Waldhauer, Sandra Grau-Richards, Thomas Friess, Katharina Wartha, and Peter Brünker

Abstract

Supplementary information on cell maintenance, and antibody selection and characterization

Published

2023

2. Supplementary Table S3 from RG7386, a Novel Tetravalent FAP-DR5 Antibody, Effectively Triggers FAP-Dependent, Avidity-Driven DR5 Hyperclustering and Tumor Cell Apoptosis

Author

Pablo Umaña, Klaus Bosslet, Christian Klein, Suzana Vega-Harring, Gary Xu, Peng Wang, Bin Liu, Cuiying Shao, Hadassah Sade, Werner Scheuer, Frank Herting, Thomas G. Weber, Ekkehard Mössner, Ralf J. Hosse, Sherif Daouti, Ningping Feng, Kathryn Packman, Huifeng Niu, Valeria Runza, Meher Majety, Barbara Weiser, Claudia Ferrara Koller, Inja Waldhauer, Sandra Grau-Richards, Thomas Friess, Katharina Wartha, and Peter Brünker

Abstract

FAP-drozitumab antibody-mediated apoptosis does not correlate with DR5.

Published

2023

3. Supplementary Figure S3 from RG7386, a Novel Tetravalent FAP-DR5 Antibody, Effectively Triggers FAP-Dependent, Avidity-Driven DR5 Hyperclustering and Tumor Cell Apoptosis

Author

Pablo Umaña, Klaus Bosslet, Christian Klein, Suzana Vega-Harring, Gary Xu, Peng Wang, Bin Liu, Cuiying Shao, Hadassah Sade, Werner Scheuer, Frank Herting, Thomas G. Weber, Ekkehard Mössner, Ralf J. Hosse, Sherif Daouti, Ningping Feng, Kathryn Packman, Huifeng Niu, Valeria Runza, Meher Majety, Barbara Weiser, Claudia Ferrara Koller, Inja Waldhauer, Sandra Grau-Richards, Thomas Friess, Katharina Wartha, and Peter Brünker

Abstract

Characterization and optimization of RG7386 dosing in vivo.

Published

2023

4. Data from RG7386, a Novel Tetravalent FAP-DR5 Antibody, Effectively Triggers FAP-Dependent, Avidity-Driven DR5 Hyperclustering and Tumor Cell Apoptosis

Author

Pablo Umaña, Klaus Bosslet, Christian Klein, Suzana Vega-Harring, Gary Xu, Peng Wang, Bin Liu, Cuiying Shao, Hadassah Sade, Werner Scheuer, Frank Herting, Thomas G. Weber, Ekkehard Mössner, Ralf J. Hosse, Sherif Daouti, Ningping Feng, Kathryn Packman, Huifeng Niu, Valeria Runza, Meher Majety, Barbara Weiser, Claudia Ferrara Koller, Inja Waldhauer, Sandra Grau-Richards, Thomas Friess, Katharina Wartha, and Peter Brünker

Abstract

Dysregulated cellular apoptosis and resistance to cell death are hallmarks of neoplastic initiation and disease progression. Therefore, the development of agents that overcome apoptosis dysregulation in tumor cells is an attractive therapeutic approach. Activation of the extrinsic apoptotic pathway is strongly dependent on death receptor (DR) hyperclustering on the cell surface. However, strategies to activate DR5 or DR4 through agonistic antibodies have had only limited clinical success. To pursue an alternative approach for tumor-targeted induction of apoptosis, we engineered a bispecific antibody (BsAb), which simultaneously targets fibroblast-activation protein (FAP) on cancer-associated fibroblasts in tumor stroma and DR5 on tumor cells. We hypothesized that bivalent binding to both FAP and DR5 leads to avidity-driven hyperclustering of DR5 and subsequently strong induction of apoptosis in tumor cells but not in normal cells. Here, we show that RG7386, an optimized FAP-DR5 BsAb, triggers potent tumor cell apoptosis in vitro and in vivo in preclinical tumor models with FAP-positive stroma. RG7386 antitumor efficacy was strictly FAP dependent, was independent of FcR cross-linking, and was superior to conventional DR5 antibodies. In combination with irinotecan or doxorubicin, FAP-DR5 treatment resulted in substantial tumor regression in patient-derived xenograft models. FAP-DR5 also demonstrated single-agent activity against FAP-expressing malignant cells, due to cross-binding of FAP and DR5 across tumor cells. Taken together, these data demonstrate that RG7386, a novel and potent antitumor agent in both mono- and combination therapies, overcomes limitations of previous DR5 antibodies and represents a promising approach to conquer tumor-associated resistance to apoptosis. Mol Cancer Ther; 15(5); 946–57. ©2016 AACR.

Published

2023

5. Supplementary Figure S2 and Table S4 from RG7386, a Novel Tetravalent FAP-DR5 Antibody, Effectively Triggers FAP-Dependent, Avidity-Driven DR5 Hyperclustering and Tumor Cell Apoptosis

Author

Pablo Umaña, Klaus Bosslet, Christian Klein, Suzana Vega-Harring, Gary Xu, Peng Wang, Bin Liu, Cuiying Shao, Hadassah Sade, Werner Scheuer, Frank Herting, Thomas G. Weber, Ekkehard Mössner, Ralf J. Hosse, Sherif Daouti, Ningping Feng, Kathryn Packman, Huifeng Niu, Valeria Runza, Meher Majety, Barbara Weiser, Claudia Ferrara Koller, Inja Waldhauer, Sandra Grau-Richards, Thomas Friess, Katharina Wartha, and Peter Brünker

Abstract

Figure S2. Related to Figure 3. In vitro characterization of the FAP-DR5 BsAb RG7386; Table S4. Characterization of RG7386 binding avidities.

Published

2023

6. Supplementary Figure S4 from RG7386, a Novel Tetravalent FAP-DR5 Antibody, Effectively Triggers FAP-Dependent, Avidity-Driven DR5 Hyperclustering and Tumor Cell Apoptosis

Author

Pablo Umaña, Klaus Bosslet, Christian Klein, Suzana Vega-Harring, Gary Xu, Peng Wang, Bin Liu, Cuiying Shao, Hadassah Sade, Werner Scheuer, Frank Herting, Thomas G. Weber, Ekkehard Mössner, Ralf J. Hosse, Sherif Daouti, Ningping Feng, Kathryn Packman, Huifeng Niu, Valeria Runza, Meher Majety, Barbara Weiser, Claudia Ferrara Koller, Inja Waldhauer, Sandra Grau-Richards, Thomas Friess, Katharina Wartha, and Peter Brünker

Abstract

FAP-drozitumab BsAb induces tumor growth inhibition in vivo.

Published

2023

7. Supplementary Figure S1, Table S1, and Table S2 from RG7386, a Novel Tetravalent FAP-DR5 Antibody, Effectively Triggers FAP-Dependent, Avidity-Driven DR5 Hyperclustering and Tumor Cell Apoptosis

Author

Pablo Umaña, Klaus Bosslet, Christian Klein, Suzana Vega-Harring, Gary Xu, Peng Wang, Bin Liu, Cuiying Shao, Hadassah Sade, Werner Scheuer, Frank Herting, Thomas G. Weber, Ekkehard Mössner, Ralf J. Hosse, Sherif Daouti, Ningping Feng, Kathryn Packman, Huifeng Niu, Valeria Runza, Meher Majety, Barbara Weiser, Claudia Ferrara Koller, Inja Waldhauer, Sandra Grau-Richards, Thomas Friess, Katharina Wartha, and Peter Brünker

Abstract

Figure S1. Related to Figure 1. Characterization of FAP-drozitumab BsAbs and antitumor efficacy in the presence of FAP-expressing fibroblasts in in vitro co-culture models; Table S1. BsAb binding to DR5 and FAP antigens; Table S2. Anti-tumor efficacy of FAP-drozitumab bispecific molecules is FAPdependent.

Published

2023

8. Abstract 4229: Anti-P329G-CAR-T cells as a novel universal CAR-T cell platform

Author

Christian Klein, Sebastian Kobold, Floriana Cremasco, Mohamed Benmebarek, Renier Myburgh, Pablo Umana, Kay Stubenrauch, Anne Freimoser-Grundschober, Christian Jost, Mario Perro, Uwe Wessels, Ekkehard Mössner, Diana Darowski, Zeno Riester, and Jörg Benz

Subjects

Cancer Research, Immunological synapse formation, biology, Chemistry, T cell, Tumor antigen, Chimeric antigen receptor, Cell biology, Immunological synapse, medicine.anatomical_structure, Oncology, Antigen, medicine, biology.protein, Cytokine secretion, Antibody

Abstract

Introduction: In the rapidly growing field of chimeric antigen receptor (CAR) engineered T cells new approaches aim to make CAR-T cell therapy safer and more effective. Recent, designs aim towards universal or modular CARs that do not directly recognize the target antigen itself, but instead facilitate contact to CAR-adaptor molecules, which in turn bind to the target antigen. Current CAR-adaptor molecules include human antibodies of the IgG1 isotype binding to CD16 or antibodies modified by peptide or hapten tags. We developed a modular CAR-T approach that recognizes the P329G mutation clinically used to silence the Fc effector function of therapeutic antibodies. These modular anti-P329G-CAR-T cells are only functional in the presence of antibodies that possess the P329G mutation. Methods: The anti-P329G interaction with P329G-containing Fc fragment was analyzed using surface plasmon resonance and co-crystallography. Lentivirus transfected anti-P329G CAR-T cells were characterized in vitro for their selectivity and potential to mediate antigen specific tumor cell lysis, cytokine secretion and proliferation. Immunological synapse formation was investigated using confocal microscopy. Results: Anti-P329G-CAR-T cells allow the precise recognition of the P329G mutation present in therapeutic IgG1 based adaptor-molecules. Crystal structure- and SPR-analysis revealed a 1:1 binding stoichiometry with low nanomolar affinity of the P329G-Fab fragment applied in the CAR for P329G-containing IgG1 antibodies. Potent tumor cell lysis was demonstrated for multiple tumor antigens e.g. CD20, HER2, FOLR1, EpCAM, FAP and others. For all tested antigens, a huIgG1 dose-dependent activation of anti-P329G-CAR-T cells as well as dose-dependent tumor cell lysis was observed. For selected antigens P329G-CAR-T activity was found comparable to the activity mediated by T cell bispecific antibodies recognizing the respective tumor antigen. Finally, the immunological synapse formed by P329-CAR-T cells was compared to the one formed by T cell bispecific antibodies in a 2+1 format. Conclusions: P329G-CAR-T cells mediate potent and specific tumor cell killing using various tumor targeted antibodies as adaptor molecules. Based on these data in vivo studies to investigate efficacy and safety of the approach are foreseen. Notably, this approach allows control of CAR-T activity and potential side effects by titrating the adaptor molecule, as well as the simultaneous targeting of more than one antigen at the same time with the goal to prevent tumor escape mechanisms. Combining the P329G-CAR with allogenic T-cells may provide a truly off-the-shelf P329G-CAR-T cell therapy approach. Citation Format: Diana Darowski, Christian Jost, Zeno Riester, Mohamed Benmebarek, Kay Stubenrauch, Anne Freimoser-Grundschober, Uwe Wessels, Jörg Benz, Ekkehard Mössner, Renier Myburgh, Floriana Cremasco, Mario Perro, Pablo Umana, Sebastian Kobold, Christian Klein. Anti-P329G-CAR-T cells as a novel universal CAR-T cell platform [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 4229.

Published

2020

9. Abstract 3629: Engineering a novel asymmetric head-to-tail 2+1 T-cell bispecific (2+1 TCB) IgG antibody platform with superior T-cell killing compared to 1+1 asymmetric TCBs

Author

Linda Fahrni, Sylvia Herter, Oliver Ast, Ralf Hosse, Sabine Lang, Pablo Umana, Sherri Dudal, Tanja Fauti, Wolfgang Schäfer, Christian Klein, Ekkehard Mössner, Inja Waldhauer, Christiane Neumann, Samuel Moser, Peter Brünker, Sara Colombetti, Erwin van Puijenbroek, Johannes Sam, Tina Weinzierl, Jörg T. Regula, Anne Freimoser-Grundschober, and Marina Bacac

Subjects

0301 basic medicine, Antibody-dependent cell-mediated cytotoxicity, Cancer Research, biology, Chemistry, T cell, CD3, T-cell receptor, Molecular biology, CD19, 03 medical and health sciences, 030104 developmental biology, medicine.anatomical_structure, Oncology, Antigen, biology.protein, medicine, Avidity, Antibody

Abstract

T cell bispecific antibodies that recruit and engage T cells for tumor cell killing through binding to the T cell receptor (TCR) upon binding to a tumor antigen (TA) and subsequent crosslinking have attracted broad interest. Here, we describe a novel asymmetric head-to-tail 2+1 T cell bispecific antibody (2+1 TCB) platform characterized by the fusion of a flexible Fab fragment to the N-terminus of the CD3e Fab of a heterodimeric asymmetric bispecific TA-CD3e IgG1 antibody in head-to-tail geometry via a flexible linker. The resulting TCB is monovalent for CD3e (KD 70-100 nM) and binds bivalently with avidity to the TA on the target cell. Correct heavy chain pairing is enabled by knob-into-holes technology, correct light chain pairing by CrossMAb technology or using a common light chain. This enables production with standard processes in CHO cells. To exclude FcgR-mediated unspecific TCR and FcgR co-activation resulting in unspecific cytokine release, Fc- effector functions (ADCC, ADCP, CDC) are abolished by introduction of P329G LALA mutations while FcRn binding and IgG-like pharmacokinetic properties are retained as shown in mouse and Cynomolgus. For comparative profiling, the following TCBs were generated with specificity for the tumor antigens MCSP/CSPG4, FOLR1/FRalpha, CD19 and CD20: 2+1 TCBCD3-inside, 2+1 TCBCD3-outside, one-armed 1+1 TCBCD3-inside and a classical asymmetric 1+1 IgG TCB. In vitro Jurkat-NFAT, T cell killing, activation and proliferation assays show that both 2+1 TCB formats mediate superior potency of killing (for CSPG4, FOLR1, CD19, CD20) and superior absolute killing (for CSPG4, CD19) compared to the respective classical asymmetric 1+1 IgG TCB. Surprisingly, the 2+1 TCBCD3-inside format was found to be superior in potency compared to the 2+1 TCBCD3-outside format, although its binding affinity for CD3e is reduced. These data confirm that TCBs mediate extremely potent T cell killing with fM-pM EC50 values based on CD3e antibodies with affinities of only 70-100 nM. Notably, for CD19 both, 2+1 TCBCD3-inside and one-armed 1+1 TCBCD3-inside, mediate comparable potency and overall killing, and both were superior compared to the asymmetric 1+1 IgG TCB. These data underline the importance of the head-to-tail geometry with two Fabs on one arm attached to each other via a flexible G4S-linker. Finally, using 2+1 and 1+1 FOLR1 TCBs we demonstrate that bivalent binding allows better differentiation in killing of cells with high vs. low FOLR1 expression as compared to monovalent binding. Taken together, we demonstrate that the 2+1 TCBCD3-inside is the most potent, efficacious and versatile TCB design. Due to its orientation with the CD3e Fab inside, it allows the conversion of existing antibodies into potent TCBs without format restriction. Based on this platform, CEA CD3 TCB (RG7802, Phase I/Ib) and CD20 CD3 TCB (RG6026, Phase I) have entered clinical trials. Citation Format: Christian Klein, Christiane Neumann, Tanja Fauti, Tina Weinzierl, Anne Freimoser-Grundschober, Inja Waldhauer, Linda Fahrni, Sylvia Herter, Erwin van Puijenbroek, Sara Colombetti, Johannes Sam, Sabine Lang, Sherri Dudal, Wolfgang Schäfer, Jörg T. Regula, Samuel Moser, Oliver Ast, Ralf Hosse, Ekkehard Mössner, Peter Brünker, Marina Bacac, Pablo Umana. Engineering a novel asymmetric head-to-tail 2+1 T-cell bispecific (2+1 TCB) IgG antibody platform with superior T-cell killing compared to 1+1 asymmetric TCBs [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 3629. doi:10.1158/1538-7445.AM2017-3629

Published

2017

10. Abstract LB-236: M4-3-ML2, a novel glycoengineered humanized IgG1 antibody, targeting a membrane-proximal epitope of MCSP/CSPG4 exhibits potent ADCC induction in vitro and in vivo anti-tumoral efficacy in disseminated melanoma models

Author

Anne Freimoser, Olaf Mundigl, Tobias Manigold, Pablo Umana, Erwin van Puijenbroek, Tanja Fauti, Claire Dunn, Ekkehard Mössner, Samuel Moser, Lisa Culton, Inja Waldhauer, Christian Gerdes, Nicolini Valeria G, Marina Bacac, Christian Klein, Sylvia Herter, Olivier Freytag, Gerald Tuffin, Guy Georges, Sara Colombetti, Tina Otz, and Christiane Jäger

Subjects

Antibody-dependent cell-mediated cytotoxicity, Cancer Research, Melanoma, medicine.medical_treatment, Biology, medicine.disease, Humanized antibody, Epitope, Immunoscintigraphy, Oncology, Cancer immunotherapy, Immunology, Cancer research, medicine, biology.protein, Immunohistochemistry, Antibody

Abstract

MCSP/CSPG4 is a large transmembrane proteoglycan identified in melanomas as HMW-MAA. In the mouse it is known as neurite growth factor 2 (NG2), a marker of pericyte recruitment. MCSP has been used as a target for clinical imaging of (uveal) melanomas by immunoscintigraphy. MCSP shows uniform and abundant expression in ca. 60-80% of melanoma, and was described in lobular breast carcinoma, glioblastoma, osteo- & chondrosarcoma, and basal cell carcinoma. It is present at high levels on pericytes of tumor neovasculature, but down-regulated as vessels mature. Normal tissue expression is low and it is not detected on PBMCs. We have generated human/Cynomolgus cross-reactive antibodies against a membrane-proximal MCSP epitope by mouse immunization with a linear peptide derived from the membrane proximal D3 domain followed by boosting with melanoma cells. The mouse antibody LC007 was selected for humanization due to its potent induction of ADCC as a chimeric antibody, compared to antibodies to membrane distal epitopes of MCSP. LC007 as chimeric IgG1 and its humanized IgG1 derivative M4-3-ML2 are characterized by the following properties: i) Specific binding to the native epitope on MCSP+ melanoma cells, but no induction of internalization; ii) Specific IHC staining of MCSP+ cells in FFPET samples; iii) ca 10 nM monovalent affinity for hMCSP D3 domain. Moreover, glycoengineering of LC007 and M4-3-ML2 antibodies using GlycoMab technology resulted in increased binding affinity for hFcgRIIIa and enhanced ADCC potency and absolute killing of melanoma cell lines. As expected, neither up to 10 ug/mL wildtype, nor glycoengineered M4-3-ML2 induced relevant cytokine (IL-6, TNF-α, IFN-γ) release in human whole blood supporting that MCSP is not expressed there. Subsequently, we studied anti-tumoral efficacy of the chimeric antibody LC007 and the humanized antibody M4-3-ML2 in disseminated models of MV3 and MDA-MB435 melanoma after i.v. injection of tumor cells in hCD16 transgenic Scid mice, which express the functional human high affinity FcgRIIIa receptor on NK cells. Both, glycoengineered LC007 and M4-3-ML2 mediated efficacy in terms of enhanced median and overall survival in both disseminated xenograft models, and were superior to the respective non-glycoengineered antibodies. Taken together, our studies support MCSP/CSPG4 as an attractive target for antibody-based cancer immunotherapy. Further studies investigating the anti-angiogenic effect of MCSP antibodies via their action on pericytes/vascular smooth muscle cells are ongoing. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 103rd Annual Meeting of the American Association for Cancer Research; 2012 Mar 31-Apr 4; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2012;72(8 Suppl):Abstract nr LB-236. doi:1538-7445.AM2012-LB-236

Published

2012