Humanized IgG1 Variants With Differential Binding Properties To The Neonatal Fc Receptor:  Relationship To Pharmacokinetics In Mice And Primates

doi:10.1124/dmd.106.011734

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Drug Metabolism and Disposition Fast Forward
First published on October 18, 2006; DOI: 10.1124/dmd.106.011734

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Received for publication July 3, 2006.
Revised October 3, 2006.
Accepted for publication October 11, 2006.

Humanized IgG1 Variants With Differential Binding Properties To The Neonatal Fc Receptor: Relationship To Pharmacokinetics In Mice And Primates

Amita Datta-Mannan ¹, Derrick R Witcher ¹, Ying Tang ², Jeffry Watkins ², Weidong Jiang ³, Victor J Wroblewski ¹^*

¹ Eli Lilly and Company ² Applied Molecular Evolution ³ Vasgene Therapeutics

^* Address correspondence to: E-mail: wroblewski_victor{at}lilly.com

Abstract

It is well established that the neonatal Fc receptor (FcRn)plays a critical role in regulating immunoglobulin (IgG) homeostasisin vivo. As such, modification of the interaction of IgG withFcRn has been the focus of protein engineering strategies designedto generate therapeutic antibodies with improved pharmacokineticproperties. In the current work, we characterized differencesin interaction of IgG between mouse and primate receptors usingthree humanized anti-TNF ${alpha}$ antibodies with variant IgG₁ Fc regions. The wild-type and variant IgGs demonstrated a differentialcombination of improved affinity, modified dissociation kineticsand altered pH-dependent complex dissociation when evaluatedon the primate and murine receptors. The observed in vitrobinding differences within and between species allowed us tomore completely relate these parameters to their influence onthe in vivo pharmacokinetics in mice and cynomolgus monkeys. The variant antibodies have different pharmacokinetic behaviorin cynomolgus monkeys and mice which appears to be related tothe unique binding characteristics observed with the murinereceptor. However, we did not observe a direct relationshipbetween increased binding affinity to the receptor and improvedpharmacokinetic properties for these molecules in either species. This work provides further insights into how the FcRn:IgGinteraction may be modulated to develop monoclonal antibodieswith improved therapeutic properties.

Key words: antibodies, drug disposition, in vitro-in vivo prediction, kinetics, protein-protein interactions

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