Literature DB >> 32744151

Bivalent binding on cells varies between anti-CD20 antibodies and is dose-dependent.

Sina Bondza1,2, Toine Ten Broeke3,4, Marika Nestor1, Jeanette H W Leusen3, Jos Buijs1,2.   

Abstract

Based on their mechanism of action, two types of anti-CD20 antibodies are distinguished: Type I, which efficiently mediate complement-dependent cytotoxicity, and Type II, which instead are more efficient in inducing direct cell death. Several molecular characteristics of these antibodies have been suggested to underlie these different biological functions, one of these being the manner of binding to CD20 expressed on malignant B cells. However, the exact binding model on cells is unclear. In this study, the binding mechanism of the Type I therapeutic antibodies rituximab (RTX) and ofatumumab (OFA) and the Type II antibody obinutuzumab (OBI) were established by real-time interaction analysis on live cells. It was found that the degree of bivalent stabilization differed for the antibodies: OFA was stabilized the most, followed by RTX and then OBI, which had the least amount of bivalent stabilization. Bivalency inversely correlated with binding dynamics for the antibodies, with OBI displaying the most dynamic binding pattern, followed by RTX and OFA. For RTX and OBI, bivalency and binding dynamics were concentration dependent; at higher concentrations the interactions were more dynamic, whereas the percentage of antibodies that bound bivalent was less, resulting in concentration-dependent apparent affinities. This was barely noticeable for OFA, as almost all molecules bound bivalently at the tested concentrations. We conclude that the degree of bivalent binding positively correlates with the complement recruiting capacity of the investigated CD20 antibodies.

Entities:  

Keywords:  Affinity; CD20; binding kinetics; cell-based assay; obinutuzumab; ofatumumab; receptor-ligand interactions; rituximab; therapeutic antibodies

Year:  2020        PMID: 32744151      PMCID: PMC7531561          DOI: 10.1080/19420862.2020.1792673

Source DB:  PubMed          Journal:  MAbs        ISSN: 1942-0862            Impact factor:   5.857


  28 in total

1.  Complement-mediated lysis by anti-CD20 mAb correlates with segregation into lipid rafts.

Authors:  Mark S Cragg; Suzanne M Morgan; H T Claude Chan; B Paul Morgan; A V Filatov; Peter W M Johnson; Ruth R French; Martin J Glennie
Journal:  Blood       Date:  2002-09-19       Impact factor: 22.113

2.  CD20-induced lymphoma cell death is independent of both caspases and its redistribution into triton X-100 insoluble membrane rafts.

Authors:  H T Claude Chan; David Hughes; Ruth R French; Alison L Tutt; Claire A Walshe; Jessica L Teeling; Martin J Glennie; Mark S Cragg
Journal:  Cancer Res       Date:  2003-09-01       Impact factor: 12.701

3.  The biological activity of human CD20 monoclonal antibodies is linked to unique epitopes on CD20.

Authors:  Jessica L Teeling; Wendy J M Mackus; Luus J J M Wiegman; Jeroen H N van den Brakel; Stephen A Beers; Ruth R French; Tom van Meerten; Saskia Ebeling; Tom Vink; Jerry W Slootstra; Paul W H I Parren; Martin J Glennie; Jan G J van de Winkel
Journal:  J Immunol       Date:  2006-07-01       Impact factor: 5.422

4.  Engineered anti-CD20 antibodies with enhanced complement-activating capacity mediate potent anti-lymphoma activity.

Authors:  Akito Natsume; Yukiko Shimizu-Yokoyama; Mitsuo Satoh; Kenya Shitara; Rinpei Niwa
Journal:  Cancer Sci       Date:  2009-08-25       Impact factor: 6.716

5.  Epitope interactions of monoclonal antibodies targeting CD20 and their relationship to functional properties.

Authors:  Christian Klein; Alfred Lammens; Wolfgang Schäfer; Guy Georges; Manfred Schwaiger; Ekkehard Mössner; Karl-Peter Hopfner; Pablo Umaña; Gerhard Niederfellner
Journal:  MAbs       Date:  2012-12-04       Impact factor: 5.857

6.  Novel Real-Time Proximity Assay for Characterizing Multiple Receptor Interactions on Living Cells.

Authors:  Sina Bondza; Hanna Björkelund; Marika Nestor; Karl Andersson; Jos Buijs
Journal:  Anal Chem       Date:  2017-12-05       Impact factor: 6.986

7.  The carbohydrate at FcgammaRIIIa Asn-162. An element required for high affinity binding to non-fucosylated IgG glycoforms.

Authors:  Claudia Ferrara; Fiona Stuart; Peter Sondermann; Peter Brünker; Pablo Umaña
Journal:  J Biol Chem       Date:  2005-12-05       Impact factor: 5.157

8.  Development of a new fully human anti-CD20 monoclonal antibody for the treatment of B-cell malignancies.

Authors:  Gadi Gazit Bornstein; Christophe Quéva; Mohammad Tabrizi; Anne van Abbema; Carlos Chavez; Ping Wang; Orit Foord; Kiran Ahluwalia; Naomi Laing; Sandhya Raja; Shenghua Wen; Larry L Green; Xiaodong Yang; Carl Webster; Ross Stewart; David Blakey
Journal:  Invest New Drugs       Date:  2009-07-21       Impact factor: 3.850

9.  Complement is activated by IgG hexamers assembled at the cell surface.

Authors:  Christoph A Diebolder; Frank J Beurskens; Rob N de Jong; Roman I Koning; Kristin Strumane; Margaret A Lindorfer; Marleen Voorhorst; Deniz Ugurlar; Sara Rosati; Albert J R Heck; Jan G J van de Winkel; Ian A Wilson; Abraham J Koster; Ronald P Taylor; Erica Ollmann Saphire; Dennis R Burton; Janine Schuurman; Piet Gros; Paul W H I Parren
Journal:  Science       Date:  2014-03-14       Impact factor: 47.728

Review 10.  Rituximab in B-Cell Hematologic Malignancies: A Review of 20 Years of Clinical Experience.

Authors:  Gilles Salles; Martin Barrett; Robin Foà; Joerg Maurer; Susan O'Brien; Nancy Valente; Michael Wenger; David G Maloney
Journal:  Adv Ther       Date:  2017-10-05       Impact factor: 3.845
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  7 in total

1.  The selection of variable regions affects effector mechanisms of IgA antibodies against CD20.

Authors:  Mitchell Evers; Thies Rösner; Anna Dünkel; J H Marco Jansen; Niklas Baumann; Toine Ten Broeke; Maaike Nederend; Klara Eichholz; Katja Klausz; Karli Reiding; Denis M Schewe; Christian Kellner; Matthias Peipp; Jeanette H W Leusen; Thomas Valerius
Journal:  Blood Adv       Date:  2021-10-12

2.  Complement-Dependent Activity of CD20-Specific IgG Correlates With Bivalent Antigen Binding and C1q Binding Strength.

Authors:  Sina Bondza; Anita Marosan; Sibel Kara; Josephine Lösing; Matthias Peipp; Falk Nimmerjahn; Jos Buijs; Anja Lux
Journal:  Front Immunol       Date:  2021-01-11       Impact factor: 7.561

Review 3.  Complement Activation in the Treatment of B-Cell Malignancies.

Authors:  Clive S Zent; Jonathan J Pinney; Charles C Chu; Michael R Elliott
Journal:  Antibodies (Basel)       Date:  2020-12-01

Review 4.  Targeting B Cells to Modify MS, NMOSD, and MOGAD: Part 1.

Authors:  Jonas Graf; Jan Mares; Michael Barnett; Orhan Aktas; Philipp Albrecht; Scott S Zamvil; Hans-Peter Hartung
Journal:  Neurol Neuroimmunol Neuroinflamm       Date:  2020-12-16

Review 5.  Physiological Considerations for Modeling in vivo Antibody-Target Interactions.

Authors:  Tyler Dunlap; Yanguang Cao
Journal:  Front Pharmacol       Date:  2022-02-24       Impact factor: 5.988

6.  CD20 Expression as a Possible Novel Prognostic Marker in CLL: Application of EuroFlow Standardization Technique and Normalization Procedures in Flow Cytometric Expression Analysis.

Authors:  Anke Schilhabel; Peter Jonas Walter; Paula Cramer; Julia von Tresckow; Saskia Kohlscheen; Monika Szczepanowski; Anna Laqua; Kirsten Fischer; Barbara Eichhorst; Sebastian Böttcher; Christof Schneider; Eugen Tausch; Monika Brüggemann; Michael Kneba; Michael Hallek; Matthias Ritgen
Journal:  Cancers (Basel)       Date:  2022-10-07       Impact factor: 6.575

7.  KD determination from time-resolved experiments on live cells with LigandTracer and reconciliation with end-point flow cytometry measurements.

Authors:  Diana Spiegelberg; Jonas Stenberg; Pascale Richalet; Marc Vanhove
Journal:  Eur Biophys J       Date:  2021-07-24       Impact factor: 1.733
  7 in total

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