Your search keyword '"Annette Seidl"' showing total 13 results

1. Supplemental Figure 3 from A Novel Carcinoembryonic Antigen T-Cell Bispecific Antibody (CEA TCB) for the Treatment of Solid Tumors

Author

Pablo Umaña, Christian Klein, Vaios Karanikas, Jose Saro, Christiane Jaeger, Thomas von Hirschheydt, Sebastian Neumann, Sherri Dudal, Nathalie Steinhoff, Valeria Nicolini, Mario Perro, Christian Gerdes, Annette Seidl, Teilo Schaller, Sandra Grau-Richards, Peter Bruenker, Oliver Ast, Ekkehard Moessner, Ralf J. Hosse, Thomas Hofer, Steffi Lehmann, Walter Bodmer, Djamila Ouaret, Tina Weinzierl, Sara Colombetti, Johannes Sam, Tanja Fauti, and Marina Bacac

Abstract

Detection of tumor targeting by in vivo imaging (fluorescent intensity, FLI)of CEA TCB formats having bivalent or monovalent binding to CEA and directly labeled with Alexa647.

Published

2023

2. Supplemental Figure 2 from A Novel Carcinoembryonic Antigen T-Cell Bispecific Antibody (CEA TCB) for the Treatment of Solid Tumors

Author

Pablo Umaña, Christian Klein, Vaios Karanikas, Jose Saro, Christiane Jaeger, Thomas von Hirschheydt, Sebastian Neumann, Sherri Dudal, Nathalie Steinhoff, Valeria Nicolini, Mario Perro, Christian Gerdes, Annette Seidl, Teilo Schaller, Sandra Grau-Richards, Peter Bruenker, Oliver Ast, Ekkehard Moessner, Ralf J. Hosse, Thomas Hofer, Steffi Lehmann, Walter Bodmer, Djamila Ouaret, Tina Weinzierl, Sara Colombetti, Johannes Sam, Tanja Fauti, and Marina Bacac

Abstract

Pharmacokinetic profiles of CEA TCB in mice, additional information on CD3 signaling, T cell activation, tumor cell lysis and cytokine release upon CEA TCB and untargeted control TCB treatment.

Published

2023

3. Data from A Novel Carcinoembryonic Antigen T-Cell Bispecific Antibody (CEA TCB) for the Treatment of Solid Tumors

Author

Pablo Umaña, Christian Klein, Vaios Karanikas, Jose Saro, Christiane Jaeger, Thomas von Hirschheydt, Sebastian Neumann, Sherri Dudal, Nathalie Steinhoff, Valeria Nicolini, Mario Perro, Christian Gerdes, Annette Seidl, Teilo Schaller, Sandra Grau-Richards, Peter Bruenker, Oliver Ast, Ekkehard Moessner, Ralf J. Hosse, Thomas Hofer, Steffi Lehmann, Walter Bodmer, Djamila Ouaret, Tina Weinzierl, Sara Colombetti, Johannes Sam, Tanja Fauti, and Marina Bacac

Abstract

Purpose: CEA TCB is a novel IgG-based T-cell bispecific (TCB) antibody for the treatment of CEA-expressing solid tumors currently in phase I clinical trials (NCT02324257). Its format incorporates bivalent binding to CEA, a head-to-tail fusion of CEA- and CD3e-binding Fab domains and an engineered Fc region with completely abolished binding to FcγRs and C1q. The study provides novel mechanistic insights into the activity and mode of action of CEA TCB.Experimental Design: CEA TCB activity was characterized on 110 cell lines in vitro and in xenograft tumor models in vivo using NOG mice engrafted with human peripheral blood mononuclear cells.Results: Simultaneous binding of CEA TCB to tumor and T cells leads to formation of immunologic synapses, T-cell activation, secretion of cytotoxic granules, and tumor cell lysis. CEA TCB activity strongly correlates with CEA expression, with higher potency observed in highly CEA-expressing tumor cells and a threshold of approximately 10,000 CEA-binding sites/cell, which allows distinguishing between high- and low-CEA–expressing tumor and primary epithelial cells, respectively. Genetic factors do not affect CEA TCB activity confirming that CEA expression level is the strongest predictor of CEA TCB activity. In vivo, CEA TCB induces regression of CEA-expressing xenograft tumors with variable amounts of immune cell infiltrate, leads to increased frequency of activated T cells, and converts PD-L1 negative into PD-L1–positive tumors.Conclusions: CEA TCB is a novel generation TCB displaying potent antitumor activity; it is efficacious in poorly infiltrated tumors where it increases T-cell infiltration and generates a highly inflamed tumor microenvironment. Clin Cancer Res; 22(13); 3286–97. ©2016 AACR.

Published

2023

4. Video 2 from A Novel Carcinoembryonic Antigen T-Cell Bispecific Antibody (CEA TCB) for the Treatment of Solid Tumors

Author

Pablo Umaña, Christian Klein, Vaios Karanikas, Jose Saro, Christiane Jaeger, Thomas von Hirschheydt, Sebastian Neumann, Sherri Dudal, Nathalie Steinhoff, Valeria Nicolini, Mario Perro, Christian Gerdes, Annette Seidl, Teilo Schaller, Sandra Grau-Richards, Peter Bruenker, Oliver Ast, Ekkehard Moessner, Ralf J. Hosse, Thomas Hofer, Steffi Lehmann, Walter Bodmer, Djamila Ouaret, Tina Weinzierl, Sara Colombetti, Johannes Sam, Tanja Fauti, and Marina Bacac

Abstract

Representative videos of intravital two-photon (2P) microscopy of tumors treated with CEA TCB. Tumor cells red, T cells green.

Published

2023

5. Video 1 from A Novel Carcinoembryonic Antigen T-Cell Bispecific Antibody (CEA TCB) for the Treatment of Solid Tumors

Author

Pablo Umaña, Christian Klein, Vaios Karanikas, Jose Saro, Christiane Jaeger, Thomas von Hirschheydt, Sebastian Neumann, Sherri Dudal, Nathalie Steinhoff, Valeria Nicolini, Mario Perro, Christian Gerdes, Annette Seidl, Teilo Schaller, Sandra Grau-Richards, Peter Bruenker, Oliver Ast, Ekkehard Moessner, Ralf J. Hosse, Thomas Hofer, Steffi Lehmann, Walter Bodmer, Djamila Ouaret, Tina Weinzierl, Sara Colombetti, Johannes Sam, Tanja Fauti, and Marina Bacac

Abstract

Representative videos of intravital two-photon (2P) microscopy of tumors treated with untargeted TCB. Tumor cells red, T cells green.

Published

2023

6. Table S1 from A Novel Carcinoembryonic Antigen T-Cell Bispecific Antibody (CEA TCB) for the Treatment of Solid Tumors

Author

Pablo Umaña, Christian Klein, Vaios Karanikas, Jose Saro, Christiane Jaeger, Thomas von Hirschheydt, Sebastian Neumann, Sherri Dudal, Nathalie Steinhoff, Valeria Nicolini, Mario Perro, Christian Gerdes, Annette Seidl, Teilo Schaller, Sandra Grau-Richards, Peter Bruenker, Oliver Ast, Ekkehard Moessner, Ralf J. Hosse, Thomas Hofer, Steffi Lehmann, Walter Bodmer, Djamila Ouaret, Tina Weinzierl, Sara Colombetti, Johannes Sam, Tanja Fauti, and Marina Bacac

Abstract

List, Source and CEA binding sites of Cell Lines used in the study

Published

2023

7. Supplemental Figure 1 from A Novel Carcinoembryonic Antigen T-Cell Bispecific Antibody (CEA TCB) for the Treatment of Solid Tumors

Author

Pablo Umaña, Christian Klein, Vaios Karanikas, Jose Saro, Christiane Jaeger, Thomas von Hirschheydt, Sebastian Neumann, Sherri Dudal, Nathalie Steinhoff, Valeria Nicolini, Mario Perro, Christian Gerdes, Annette Seidl, Teilo Schaller, Sandra Grau-Richards, Peter Bruenker, Oliver Ast, Ekkehard Moessner, Ralf J. Hosse, Thomas Hofer, Steffi Lehmann, Walter Bodmer, Djamila Ouaret, Tina Weinzierl, Sara Colombetti, Johannes Sam, Tanja Fauti, and Marina Bacac

Abstract

Assessment of binding of CEA TCB to human and cynomolgus monkey CEA- and CD3-expressing cells, internalization and ADCC, CDC activity.

Published

2023

8. Supplemental Information from A Novel Carcinoembryonic Antigen T-Cell Bispecific Antibody (CEA TCB) for the Treatment of Solid Tumors

Author

Pablo Umaña, Christian Klein, Vaios Karanikas, Jose Saro, Christiane Jaeger, Thomas von Hirschheydt, Sebastian Neumann, Sherri Dudal, Nathalie Steinhoff, Valeria Nicolini, Mario Perro, Christian Gerdes, Annette Seidl, Teilo Schaller, Sandra Grau-Richards, Peter Bruenker, Oliver Ast, Ekkehard Moessner, Ralf J. Hosse, Thomas Hofer, Steffi Lehmann, Walter Bodmer, Djamila Ouaret, Tina Weinzierl, Sara Colombetti, Johannes Sam, Tanja Fauti, and Marina Bacac

Abstract

Supplemental Material and Methods describing CEA TCB production and purification process, determination of affinity and avidity, genetic characterization of cell lines, determination of CEA binding sites, assessment of T cell proliferation and activation, Jurkat NFAT assay, confocal microscopy, FRET, SDPK, in vivo efficacy and imaging studies. Supplemental Video Legends are also within the file.

Published

2023

9. Association of physical activity with utilization of long-term care in community-dwelling older adults in Germany: results from the population-based KORA-Age observational study

Author

Professur für Public Health und Prävention, Steinbeisser, Kathrin;Schwarzkopf, Larissa;Schwettmann, Lars;Laxy, Michael;Grill, Eva;Rester, Christian;Peters, Annette;Seidl, Hildegard, Professur für Public Health und Prävention, and Steinbeisser, Kathrin;Schwarzkopf, Larissa;Schwettmann, Lars;Laxy, Michael;Grill, Eva;Rester, Christian;Peters, Annette;Seidl, Hildegard

Published

2021

10. A re-engineered immunotoxin shows promising preclinical activity in ovarian cancer

Author

Annette Seidl, Fabian Birzele, Natascha Rieder, Martin Kaufmann, Stefan Scheiblich, Klaus Hirzel, Sabine Wilson, Gwendlyn Kollmorgen, Ben-Fillippo Krippendorff, Edgar Voss, Klara Palme, Christian Clemens, Frank Herting, and Gerhard Niederfellner

Subjects

0301 basic medicine, Immunoconjugates, endocrine system diseases, lcsh:Medicine, Antineoplastic Agents, Apoptosis, Article, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Immunotoxin, Cell Line, Tumor, medicine, Humans, Cytotoxic T cell, Pseudomonas exotoxin, Mesothelin, lcsh:Science, Cell Proliferation, Ovarian Neoplasms, Cisplatin, Multidisciplinary, biology, business.industry, Immunotoxins, Immunogenicity, lcsh:R, medicine.disease, 030104 developmental biology, Paclitaxel, chemistry, 030220 oncology & carcinogenesis, biology.protein, Cancer research, Female, lcsh:Q, Ovarian cancer, business, medicine.drug

Abstract

RG7787 is a re-engineered mesothelin-targeted immunotoxin with reduced immunogenicity composed of a humanized anti-mesothelin Fab fragment and a B-cell epitope silenced 24 kD fragment of Pseudomonas exotoxin A. High prevalence of mesothelin-positive cases and a large unmet medical need make ovarian cancer a promising indication for the clinical development of RG7787. However, ovarian cancer patients also frequently have elevated serum levels of the cancer antigen 125 (CA-125). In principle this could pose a problem, since the binding sites for CA-125 and RG7787 on mesothelin were reported to overlap. However, we show here that RG7787 can readily displace even excess amounts of CA-125 in different cellular assays. Moreover when tested in-vitro on a panel of 12 ovarian cancer cell lines, RG7787 had high cytotoxic activity on COV644, Caov-4, and SNU-119 cells and fully inhibited growth of EFO-21, KURAMOCHI, OVSAHO, and Caov-3 cells with potency values ranging from 1 to 86 pM. Finally, we evaluated the in-vivo efficacy of RG7787 in OvCa6668, a patient-derived ovarian cancer model with high levels of CA-125 expression. RG7787 had moderate monotherapy efficacy but in combination with standard chemotherapies (cisplatin, paclitaxel) achieved pronounced tumor regressions. In summary our data support clinical testing of RG7787 in ovarian cancer.

Published

2017

11. A novel carcinoembryonic antigen t cell bispecific antibody (cea tcb) for the treatment of solid tumors

Author

Pablo Umana, Sebastian Neumann, Djamila Ouaret, Christian Klein, Walter F. Bodmer, Vaios Karanikas, Steffi Lehmann, Tanja Fauti, Oliver Ast, Mario Perro, Sara Colombetti, Ralf Hosse, Hofer Thomas U, Christiane Jaeger, Peter Bruenker, Johannes Sam, Ekkehard Moessner, Sherri Dudal, Tina Weinzierl, Sandra Grau-Richards, Teilo H Schaller, Annette Seidl, Nathalie Steinhoff, Jose Saro, Marina Bacac, Thomas von Hirschheydt, Nicolini Valeria G, and Christian Gerdes

Subjects

0301 basic medicine, Cancer Research, Pathology, medicine.medical_specialty, CD3 Complex, endocrine system diseases, T-Lymphocytes, medicine.medical_treatment, T cell, Antineoplastic Agents, Receptors, Fc, Lymphocyte Activation, Peripheral blood mononuclear cell, Mice, 03 medical and health sciences, 0302 clinical medicine, Carcinoembryonic antigen, In vivo, Cell Line, Tumor, Neoplasms, Antibodies, Bispecific, medicine, Animals, Humans, Cytotoxic T cell, neoplasms, Tumor microenvironment, Binding Sites, biology, Chemistry, Antibodies, Monoclonal, Immunotherapy, Xenograft Model Antitumor Assays, digestive system diseases, Carcinoembryonic Antigen, 030104 developmental biology, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, Cancer research, biology.protein, Female, Antibody

Abstract

Purpose: CEA TCB is a novel IgG-based T-cell bispecific (TCB) antibody for the treatment of CEA-expressing solid tumors currently in phase I clinical trials (NCT02324257). Its format incorporates bivalent binding to CEA, a head-to-tail fusion of CEA- and CD3e-binding Fab domains and an engineered Fc region with completely abolished binding to FcγRs and C1q. The study provides novel mechanistic insights into the activity and mode of action of CEA TCB. Experimental Design: CEA TCB activity was characterized on 110 cell lines in vitro and in xenograft tumor models in vivo using NOG mice engrafted with human peripheral blood mononuclear cells. Results: Simultaneous binding of CEA TCB to tumor and T cells leads to formation of immunologic synapses, T-cell activation, secretion of cytotoxic granules, and tumor cell lysis. CEA TCB activity strongly correlates with CEA expression, with higher potency observed in highly CEA-expressing tumor cells and a threshold of approximately 10,000 CEA-binding sites/cell, which allows distinguishing between high- and low-CEA–expressing tumor and primary epithelial cells, respectively. Genetic factors do not affect CEA TCB activity confirming that CEA expression level is the strongest predictor of CEA TCB activity. In vivo, CEA TCB induces regression of CEA-expressing xenograft tumors with variable amounts of immune cell infiltrate, leads to increased frequency of activated T cells, and converts PD-L1 negative into PD-L1–positive tumors. Conclusions: CEA TCB is a novel generation TCB displaying potent antitumor activity; it is efficacious in poorly infiltrated tumors where it increases T-cell infiltration and generates a highly inflamed tumor microenvironment. Clin Cancer Res; 22(13); 3286–97. ©2016 AACR.

Published

2016

12. Abstract 5321: Preclinical validation for treatment with RG7787 in ovarian cancer

Author

Klara Palme, Pamela Wilfert, Stefan Scheiblich, Klaus Hirzel, Gerhard Niederfellner, Moritz Marcinowski, Bernd Satzinger, Annette Seidl, Christian Clemens, Frank Herting, Edgar Voss, Martin Kaufmann, and Gwendlyn Kollmorgen

Subjects

Cancer Research, biology, business.industry, Cancer, medicine.disease, Epitope, Oncology, Antigen, Pancreatic cancer, Cancer cell, Immunology, medicine, Cancer research, biology.protein, Mesothelin, Antibody, Ovarian cancer, business

Abstract

RG7787 is composed of a Fab fragment from an anti-MSLN antibody fused to a de-immunized and truncated pseudomonas endotoxin A variant. Once RG7787 is bound and internalized by MSLN positive cells, the toxin is transported to the cytosol, where it inhibits protein synthesis, eventually causing tumor cell death. Mesothelin (MSLN) is a tumor specific differentiation antigen. On normal tissue, its expression is restricted to differentiated mesothelial cells that line as single cell layer body cavities and major organs (e.g. pleura, pericardium, and peritoneum). In cancer, MSLN is highly expressed not only on mesotheliomas but also on a number of other types of solid tumors like ovarian and pancreatic cancer. In both indications patients frequently also have significant serum levels of the cancer antigen-125 (CA-125), sometimes even >1000 U/ml. MSLN has been described to bind CA-125 and this interaction has been suggested to play a role for the ability of cancer cells to metastasize e.g. to the peritoneum. The region in MSLN that is responsible for its interaction with CA-125 has been reported to overlap with the binding epitope of RG7787 potentially resulting in competition between CA-125 and RG7787 for binding to MSLN. The high percentage of MSLN positive cases as well as a clear unmet medical need makes ovarian and pancreatic cancer promising indications for clinical development of RG7787. We investigated, whether abundance of CA-125 can negatively affect ability of RG7787 to bind and be taken up by tumor cells thereby antagonizing RG7787 treatment. We found that indeed RG7787 competes with CA-125 for binding to mesothelin. However, in SPR experiments, the interaction of MSLN with CA-125 was not strong enough to block binding of the anti-MSLN Fab moiety that targets RG7787 to tumor cells. At 20°C the absolute affinity (KD) of RG7787 for human MSLN was determined to be 12.5 pM using two orthogonal “affinity in solution” methods, ELISA and SPR. In agreement with such high affinity binding, we found that adding soluble CA-125 to cell viability assays did not reduce the cytotoxic potency of RG7787. In one set of assays, ascites fluid containing a 10 fold excess of CA-125 compared to the average levels observed in sera of ovarian patients was used for competition. In another set of assays, we used a 100 fold excess of a truncated recombinant CA-125 fragment, containing the domain that interacts with MSLN. Neither the ascites fluid, nor the recombinant CA-125 fragment had any effect on the in-vitro potency of RG7787, indicating that soluble CA-125 levels in patients will not antagonize RG7787 treatment. Finally we demonstrated in cell-cell interaction assays that RG7787 can efficiently block the attachment of MSLN positive cells to OVCAR3 cells that express high levels of CA-125 on their surface. Based on these encouraging data we are currently evaluating in-vivo efficacy of RG7787 in a patient-derived ovarian cancer model. Citation Format: Gwendlyn Kollmorgen, Klara Palme, Annette Seidl, Stefan Scheiblich, Christian Clemens, Edgar Voss, Martin Kaufmann, Klaus Hirzel, Pamela Wilfert, Moritz Marcinowski, Bernd Satzinger, Frank Herting, Gerhard Niederfellner. Preclinical validation for treatment with RG7787 in ovarian cancer. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 5321. doi:10.1158/1538-7445.AM2015-5321

Published

2015

13. Abstract 4827: Humanized hepsin neutralizing antibody RO5486055 inhibits tumor growth and leads to accumulation of hepsin substrate laminin-332

Author

Brian Higgins, Markus Thomas, Annette Seidl, Chandra Pamulapati, Alvin S. Stern, Packman Kathryn E, Silke Hansen, Ying Li, Huifeng Niu, Kuo-Sen Huang, David C. Heimbrook, Windy Berkofsky-Fessler, Sherif Daouti, Julie Hang, Olaf Mundigl, Debra Lucas-McGady, James Cai, Zoran Filipovic, Xiaolei Zhang, Holly Hilton, Ueli Gubler, Gennady Samokhin, and Christine Tardell

Subjects

Cancer Research, medicine.medical_specialty, Cetuximab, business.industry, Hepsin, Cancer, medicine.disease, Metastasis, Prostate cancer, chemistry.chemical_compound, Breast cancer, Endocrinology, Oncology, chemistry, Internal medicine, LNCaP, Cancer research, medicine, Growth inhibition, business, medicine.drug

Abstract

Hepsin is overexpressed in prostate and other cancers where it is implicated in promoting tumor growth, invasion, and metastasis. To further our understanding of the role of hepsin in prostate and breast cancer, a fully humanized monoclonal antibody that recognizes human and cynomolgus hepsin has been developed. RO5486055 selectively binds to hepsin but not related type II transmembrane serine proteases, and neutralizes hepsin serine protease activity with an IC50 in the single digit nM range. In LNCaP prostate cancer cells, both shRNA knockdown of the hepsin gene and RO5486055 treatment cause a similar accumulation of the β3 chain of laminin-332, a known hepsin substrate. With ip administration in mice, RO5486055 demonstrates dose-dependent exposure and a long serum half-life of 168-406 hours. RO5486055 attenuates tumor growth in the LNCaP prostate cancer and T-47D breast cancer xenograft models, but not in the CRW-22Rv1 prostate or MCF-7 breast cancer xenografts. In these models, it has been shown that the level of the β3 chain of laminin-332 detected by Western blot analysis predicts sensitivity to RO5486055-mediated growth inhibition. Moreover, accumulation of the β3 chain during RO5486055 treatment correlates with antitumor activity. In 8/10 hepsin-expressing patient-derived prostate tumors, an inverse correlation between hepsin and β3 chain expression is observed. The β3 chain of laminin-332 may therefore be useful as both a predictive and response biomarker for anti-hepsin therapy. RO5486055-mediated tumor growth inhibition is enhanced by combination with the EGFR-targeted antibody cetuximab in LNCaP prostate cancer xenografts, and by combination with hormone withdrawal in T-47D breast cancer xenografts. These preclinical results suggest that hepsin-directed therapy could be effective in prostate and breast cancer treatment. 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 4827. doi:1538-7445.AM2012-4827

Published

2012