Optimization of an Antibody Light Chain Framework Enhances Expression, Biophysical Properties and Pharmacokinetics

Patrice Douillard; Michael Freissmuth; Gerhard Antoine; Michael Thiele; Daniel Fleischanderl; Peter Matthiessen; Dirk Voelkel; Randolf  J. Kerschbaumer; Friedrich Scheiflinger; Nicolas Sabarth

doi:10.3390/antib8030046

Antibodies (Sep 2019)

Optimization of an Antibody Light Chain Framework Enhances Expression, Biophysical Properties and Pharmacokinetics

Patrice Douillard,
Michael Freissmuth,
Gerhard Antoine,
Michael Thiele,
Daniel Fleischanderl,
Peter Matthiessen,
Dirk Voelkel,
Randolf J. Kerschbaumer,
Friedrich Scheiflinger,
Nicolas Sabarth

Affiliations

Patrice Douillard: Baxalta Innovations GmbH (part of Takeda), Indusriestrasse 67, 1221 Vienna, Austria
Michael Freissmuth: Institute of Pharmacology, Centre of Physiology and Pharmacology, Medical University Vienna, 1090 Vienna, Austria
Gerhard Antoine: Baxalta Innovations GmbH (part of Takeda), Indusriestrasse 67, 1221 Vienna, Austria
Michael Thiele: Baxalta Innovations GmbH (part of Takeda), Indusriestrasse 67, 1221 Vienna, Austria
Daniel Fleischanderl: Baxalta Innovations GmbH (part of Takeda), Indusriestrasse 67, 1221 Vienna, Austria
Peter Matthiessen: Baxalta Innovations GmbH (part of Takeda), Indusriestrasse 67, 1221 Vienna, Austria
Dirk Voelkel: Baxalta Innovations GmbH (part of Takeda), Indusriestrasse 67, 1221 Vienna, Austria
Randolf J. Kerschbaumer: Baxalta Innovations GmbH (part of Takeda), Indusriestrasse 67, 1221 Vienna, Austria
Friedrich Scheiflinger: Baxalta Innovations GmbH (part of Takeda), Indusriestrasse 67, 1221 Vienna, Austria
Nicolas Sabarth: Baxalta Innovations GmbH (part of Takeda), Indusriestrasse 67, 1221 Vienna, Austria

DOI: https://doi.org/10.3390/antib8030046
Journal volume & issue: Vol. 8, no. 3
p. 46

Abstract

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Efficacy, safety, and manufacturability of therapeutic antibodies are influenced by their biopharmaceutical and biophysical properties. These properties can be optimized by library approaches or rationale protein design. Here, we employed a protein engineering approach to modify the variable domain of the light chain (VL) framework of an oxidized macrophage migration inhibitory factor (oxMIF)-specific antibody. The amendment of the antibody sequence was based on homology to human germline VL genes. Three regions or positions were identified in the VL domain—L1-4, L66, L79—and mutated independently or in combination to match the closest germline V gene. None of the mutations altered oxMIF specificity or affinity, but some variants improved thermal stability, aggregation propensity, and resulted in up to five-fold higher expression. Importantly, the improved biopharmaceutical properties translated into a superior pharmacokinetic profile of the antibody. Thus, optimization of the V domain framework can ameliorate the biophysical qualities of a therapeutic antibody candidate, and as result its manufacturability, and also has the potential to improve pharmacokinetics.

Published in Antibodies

ISSN: 2073-4468 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Medicine: Internal medicine: Specialties of internal medicine: Immunologic diseases. Allergy
Website: http://www.mdpi.com/journal/antibodies

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Abstract

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