Your search keyword '"David, Andre"' showing total 4 results

1. Abstract 957: Zenocutuzumab: An antibody that can overcome HER3 mediated HRG signalling in tumor cells by docking on HER2

Author

Linda Johanna Aleida Hendriks, John de Kruif, Tristan Gallenne, David Andre Baptiste Maussang-Detaille, Jan P. Gerlach, Mark Throsby, Cecile Geuijen, and Arjen Kramer

Subjects

Cancer Research, biology, Kinase, medicine.drug_class, Chemistry, Cancer, medicine.disease, Monoclonal antibody, body regions, Oncology, Pancreatic cancer, Cancer research, medicine, biology.protein, Avidity, Antibody, skin and connective tissue diseases, Protein kinase B, PI3K/AKT/mTOR pathway

Abstract

HER2-driven cancers require phosphatidylinositide-3 kinase (PI3K)/Akt signaling through HER3 to promote tumor growth and survival. The HER2/HER3 complex is most active in the presence of heregulin (HRG) and upregulation of HRG is one of the key resistance mechanisms after TKI treatment. Zenocutuzumab is an HER2/HER3 bispecific antibody that specifically and potently blocks HRG-driven signaling of the heterodimeric complex. Zenocutuzumab has demonstrated clinical activity in patients with advanced cancer where the HRG-driven HER2/HER3 pathway is active [Ref].Zenocutuzumab was discovered through a large unbiased screen with HER2×HER3 Biclonics® (bAbs). Zenocutuzumab specifically blocks HRG-induced signaling of HER2:HER3 but not of HER2:HER4, EGFR:HER2 or EGFR:HER3 heterodimers. Zenocutuzumab demonstrates an in vitro potency superior to other high affinity anti-HER2 and anti-HER3 antibodies in cells stimulated with high concentrations of HRG, thereby overcoming one of the resistance mechanisms of current HER2 therapies. The potent activity of Zenocutuzumab is based in-part on its binding to domain I of HER2. Docking of Zenocutuzumab in this position increases the effective affinity of the anti-HER3 Fab arm. As a result, Zenocutuzumab displaces HRG binding to HER3, even at high ligand concentrations, keeping HER3 in an inactive state and blocking HRG-mediated HER2/HER3 signaling. In binding experiments on cells expressing different levels of HER2 and HER3, HER2:HER3 ratios point to the anti-HER2 Fab binding arm being the main driver of Zenocutuzumab avidity. In an in vivo orthotopic breast cancer xenograft model that used Micro-PET imaging, the tumor penetration of a variant of Zenocutuzumab is HER2-dependent despite the high subnanomolar affinity of the HER3 Fab arm for its receptor. Gamma-counter quantification of radioactivity confirmed that antibody levels in the tumors with the HER2xHER3 bAb were 2.5-fold higher than for the parental HER3 mAb. Zenocutuzumab reduced tumor growth in an in vivo orthotopic pancreatic cancer xenograft model that expresses HRG. The brain is one of the organs with high HRG concentrations to which many tumors metastasize. Mice bearing intracranial HER2-amplified breast cancer cells presented at the end of the treatment period 100% survival when treated with MCLA-128, in contrast to 38% survival when treated with HER2 antibody drug conjugate T-DM1.Conclusion: Zenocutuzumab uses a Dock & Block™ mechanism for potent and specific tumor targeting and simultaneous inhibition of HRG-driven proliferation of HER2-amplified tumors, even at supramaximal concentrations of HRG. Citation Format: Cecile Geuijen, David Maussang-Detaille, Tristan Gallenne, Linda Hendriks, Arjen Kramer, Jan Gerlach, Mark Throsby, John de Kruif. Zenocutuzumab: An antibody that can overcome HER3 mediated HRG signalling in tumor cells by docking on HER2 [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 957.

Published

2021

2. Abstract 32: Preclinical evaluation of MCLA-158: A bispecific antibody targeting LGR5 and EGFR using patient-derived colon carcinoma organoids

Author

Lex Bakker, Ingrid Kolfschoten, Robert P. de Vries, Marc van de Wetering, David Andre Baptiste Maussang-Detaille, Hans Clevers, Robert Doornbos, Lucia Salinaro, Leo S. Price, Mark Throsby, Carme Cortina, Mark James, Rob Roovers, Kuan Yan, Sylvia Boy, John de Kruif, Berina Eppink, Bram Herpers, Wim de Lau, and Eduard Batlle

Subjects

Antibody-dependent cell-mediated cytotoxicity, Cancer Research, Cetuximab, Colorectal cancer, business.industry, LGR5, Wnt signaling pathway, medicine.disease_cause, medicine.disease, Molecular biology, 03 medical and health sciences, 0302 clinical medicine, Oncology, In vivo, medicine, Organoid, KRAS, business, 030215 immunology, medicine.drug

Abstract

Background. Colorectal cancer (CRC) is the third most common cancer and remains a large unmet need. Dysregulation of Wnt and receptor tyrosine kinase (RTK) signalling pathways are important oncogenic driving events in CRC. Due to this dysregulation, Wnt target genes are expressed at higher levels in CRC particularly in tumor initiating cells. We previously performed an unbiased screen of bispecific antibodies (bAbs) targeting Wnt and RTK targets that resulted in the selection of MCLA-158. Methods. A cohort of 32 genetically and transcriptionally annotated patient-derived colorectal cancer and normal colon organoids were used to functionally characterize responses to antibodies based on morphological changes with high content 3D imaging. Binding affinity was measured by surface plasma resonance and cell based assays. The antibody binding epitopes were mapped by shotgun mutagenesis and FACS based screening. Ligand (R-spondin or EGF) blocking activity was measured in vitro by competition for ligand binding or functional inhibition of ligand dependent growth. In vivo activity was evaluated in xenograft models generated from organoids subcutaneously implanted into immunocompromised mice. Safety was evaluated via once weekly intravenous administration of MCLA-158 to cynomolgus monkeys for 4 weeks and monitoring for pathological changes. Results. MCLA-158, an ADCC enhanced common light chain IgG1 bispecific antibody, binds in domain III of EGFR and in the N-Cap/1st LRR of LGR5, both ligand binding regions, however, only EGF binding was blocked by MCLA-158. MCLA-158 demonstrated inhibitory activity in 74% of tumor organoids independent of KRAS mutational status but was not active on organoids of the cohort harboring both KRAS and PIK3CA mutations. MCLA-158 was significantly more active on organoids derived from tumors than from normal tissue in contrast to cetuximab, which demonstrated equivalent activity on both (range 20-100 fold, n=4). In vivo activity was evaluated against tumor organoids with different KRAS mutation status shown to be sensitive to MCLA-158 in vitro. In all cases, MCLA-158 significantly inhibited the growth of the tumor compared to both control and cetuximab treatment. Inhibitors of both the Wnt and EGFR pathways have shown significant toxicity in humans. An initial evaluation of MCLA-158 toxicity in cynomolgus monkeys did not demonstrate any pathological finding after repeated dosing at 25mg/kg. Conclusions. MCLA-158 demonstrates superior activity compared to reference antibodies in both in vitro and in vivo tumor organoid based assays regardless of KRAS status and was well tolerated in non-human primates. These preclinical data suggest MCLA-158 could benefit patients with metastatic CRC and warrant clinical evaluation. Citation Format: Rob Roovers, Bram Herpers, Mark James, Berina Eppink, Carme Cortina, David Maussang-Detaille, Ingrid Kolfschoten, Sylvia Boy, Marc van de Wetering, Wim De Lau, Robert Doornbos, Kuan Yan, Lucia Salinaro, Lex Bakker, john de Kruif, Hans Clevers, Robert Vries, Eduard Batlle, Leo Price, Mark Throsby. Preclinical evaluation of MCLA-158: A bispecific antibody targeting LGR5 and EGFR using patient-derived colon carcinoma organoids [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 32. doi:10.1158/1538-7445.AM2017-32

Published

2017

3. Abstract 33: The binding mode of the bispecific anti-HER2xHER3 antibody MCLA-128 is responsible for its potent inhibition of HRG-driven tumorigenesis

Author

Ton Logtenberg, Camilla De Nardis, Mark Throsby, Lex Bakker, Cecile Geuijen, Eric Rovers, John de Kruif, Robert Doornbos, Piet Gros, Carina Bartelink-Clements, David Andre Baptiste Maussang-Detaille, Linda Johanna Aleida Hendriks, and Tristan Gallenne

Subjects

Cancer Research, Biodistribution, biology, medicine.drug_class, Chemistry, Alanine scanning, Monoclonal antibody, medicine.disease_cause, Molecular biology, Epitope, In vitro, Oncology, In vivo, medicine, biology.protein, Antibody, skin and connective tissue diseases, Carcinogenesis

Abstract

Introduction: MCLA-128 is as an ADCC-enhanced IgG1 bispecific antibody that targets the HER2:HER3 dimer and is currently being tested in Phase I/II clinical trials. MCLA-128 demonstrates an in vitro potency superior to other anti-HER2 and anti-HER3 antibodies in cells stimulated with high concentrations of heregulin (HRG) thereby overcoming one of the resistance mechanisms of current HER2 therapies. This study investigates the binding mode of MCLA-128 and proof of concept studies in HRG-driven tumor models. Methods: Alanine scanning shotgun mutagenesis was used to map the epitopes of MCLA-128 to HER2 and HER3. Fab fragments of MCLA-128 were crystallized with the soluble extracellular domains of HER2 and HER3. SAXS analysis on the HER2-HER3-MCLA-128 complex was performed to investigate the binding mode of the bispecific antibody in solution. Ligand-induced dimer specificity was investigated with PathHunter® heterodimerization assays. Bispecific anti-HER2xHER3 antibody and its parental anti-HER3 monoclonal antibody were labelled with 64Cu to compare their biodistribution profiles. The efficacy of MCLA-128 in HRG-driven systems was shown in vitro in MDA-MB-175 cells and in vivo in an orthotopic intracranial patient-derived xenograft (PDX) model originating from a breast cancer brain metastasis Results: The shotgun mutagenesis study identified that the bispecific antibody MCLA-128 binds amino acids T144, R166, R181 in HER2 domain I and R426 in HER3 domain III. Crystallographic studies confirmed the involvement of these critical residues and suggested that MCLA-128 locks the HER3 receptor in its ligand-unbound inactive confirmation. SAXS analysis suggests that the bispecific antibody MCLA-128 forms inter-dimer rather than intra-dimer interactions. In vitro, MCLA-128 specifically blocked HRG-induced signaling of HER2:HER3 but not HER2:HER4 heterodimers. Biodistribution of MCLA-128 in a xenograft model of breast cancer showed that the penetration of MCLA-128 in JIMT-1 HER2-amplified tumors is HER2-dependent despite the high affinity of the HER3 Fab arm for its receptor. MCLA-128 efficiently blocked tumor growth of the HRG-driven HER2 (1+) breast cancer cell line MDA-MB-175 in 3D in vitro. Treatment of orthotopically transplanted HER2-amplified breast cancer brain tumors in mice led to 100% survival with MCLA-128, in contrast to 38% and 0% survival in T-DM1 and vehicle treated mice respectively. Conclusion: MCLA-128 targets HER2-positive tumors via its HER2 arm and locks HER3 in an inactive confirmation. The potent anti-proliferative activity of MCLA-128 in vitro and in vivo supports the clinical development of this bispecific HER2xHER3 antibody in HRG-driven tumors. Citation Format: David Maussang-Detaille, Camilla de Nardis, Linda Hendriks, Carina Bartelink-Clements, Eric Rovers, Tristan Gallenne, Robert Doornbos, Lex Bakker, John de Kruif, Ton Logtenberg, Piet Gros, Cecile Geuijen, Mark Throsby. The binding mode of the bispecific anti-HER2xHER3 antibody MCLA-128 is responsible for its potent inhibition of HRG-driven tumorigenesis [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 33. doi:10.1158/1538-7445.AM2017-33

Published

2017

4. Abstract LB-261: Mechanism of action of MCLA-128, a humanized bispecific IgG1 antibody targeting the HER2:HER3 heterodimer

Author

Cecile Geuijen, Nellie Nieuwenhuizen, John de Kruif, Arjen Kramer, Katinka van Zoest, Willem Bartelink, Rob Roovers, Vanessa Zondag-van der Zande, Mark Throsby, Leo S. Price, Renate den Blanken-Smit, David Andre Baptiste Maussang-Detaille, Linda Kaldenberg, Therese Visser, Lex Bakker, Tristan Gallenne, Eric Rovers, Setareh van Driel, Robert Doornbos, Pieter-Fokko van Loo, Ton Logtenberg, Roy Nijhuis, Stefan R. Braam, and Carina Clements

Subjects

Antibody-dependent cell-mediated cytotoxicity, Cancer Research, medicine.drug_class, Cell growth, Biology, Monoclonal antibody, Molecular biology, chemistry.chemical_compound, Oncology, chemistry, medicine, Pertuzumab, Growth inhibition, skin and connective tissue diseases, Protein kinase B, Tyrosine kinase, PI3K/AKT/mTOR pathway, medicine.drug

Abstract

Background: MCLA-128 is an ADCC-enhanced humanized common light chain bispecific IgG1 antibody that targets the HER2:HER3 dimer with nanomolar affinity, potently inhibiting tumor growth in vitro and in vivo. MCLA-128 shows superior activity to the combination trastuzumab/ pertuzumab and HER3 targeting monoclonal antibodies and is currently being evaluated in a Phase I clinical trial. This study investigated the mechanism of action of MCLA-128. Methods: Phosphorylation of HER receptors and downstream signaling molecules was studied in vitro and in vivo on HER2-amplified cancer cell lines by Pathscan arrays, luminex beads and Western blot analysis. Inhibition of MCLA-128 cell growth in combination with tyrosine kinase inhibitors and small molecules targeting the MAPK and PI3 kinase/Akt pathway was determined by proliferation inhibition and high content imaging assays. The potential effect of MCLA-128 on primary cardiomyocytes in the presence of Doxorubicin was analyzed by measuring ATP. Binding of MCLA-128 to a panel of cell lines in comparison to HER2 and HER3 antibodies was determined by FACS. Results: In contrast to other HER2 and HER3 targeted agents, only MCLA-128 inhibited phosphorylation of HER3 and downstream Akt and ERK in HER2 amplified cell lines cultured with high concentrations of heregulin in vitro. In xenograft studies, growth inhibition of the trastuzumab-resistant cell line JIMT-1 by MCLA-128 was correlated with reduced HER2:HER3 dimerization and a profound inhibition of the PI3K pathway. Synergistic growth inhibition in vitro was observed when tyrosine kinase inhibitors or inhibitors of the PI3K pathway were added to HER2 amplified cancer cells in the presence of MCLA-128. MCLA-128 did not show any evidence of cardiotoxicity in vitro in contrast to trastuzumab. MCLA-128 binds and coats breast cancer cell lines with differing levels of HER2 expression more efficiently in comparison to monospecific HER2 or HER3 monoclonal antibodies. Conclusions: The unique simultaneous targeting of MCLA-128 to HER2 and HER3 on HER2-overexpressing breast cancer cells leads to severe impairment of PI3K signaling and reduced cell growth whereas proliferation of primary cardiomyocytes is unaffected. The enhanced coating effect of MCLA-128 also supports its ADCC activity. Citation Format: Cecile Geuijen, Eric Rovers, Tristan Gallenne, David Maussang-Detaille, Arjen Kramer, Nellie Nieuwenhuizen, Carina Clements, Katinka van Zoest, Roy Nijhuis, Therese Visser, Renate Den Blanken-Smit, Willem Bartelink, Vanessa Zondag-van der Zande, Linda Kaldenberg, Pieter-Fokko van Loo, Rob Roovers, Robert Doornbos, Leo Price, Stefan Braam, Setareh van Driel, Lex Bakker, Ton Logtenberg, John de Kruif, Mark Throsby. Mechanism of action of MCLA-128, a humanized bispecific IgG1 antibody targeting the HER2:HER3 heterodimer. [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 LB-261. doi:10.1158/1538-7445.AM2015-LB-261

Published

2015