Understanding the Stabilizing Effect of Histidine on mAb Aggregation: A Molecular Dynamics Study

Jian Lu; Thomas Waigh; Zongyi Li; Peter Hollowell; Cavan Kalonia; John Seddon; Fernando Bresme; Peixun Li; John P R Webster; Suman Saurabh

doi:10.1021/acs.molpharmaceut.2c00453

Understanding the Stabilizing Effect of Histidine on mAb Aggregation: A Molecular Dynamics Study

Jian Lu, Thomas Waigh, Zongyi Li, Peter Hollowell, Cavan Kalonia, John Seddon, Fernando Bresme, Peixun Li, John P R Webster, Suman Saurabh

Biological Physics Group

Research output: Contribution to journal › Article › peer-review

Abstract

Histidine, a widely used buffer in monoclonal antibody (mAb) formulations, is known to reduce antibody aggregation. While experimental studies suggest a nonelectrostatic, nonstructural (relating to secondary structure preservation) origin of the phenomenon, the underlying microscopic mechanism behind the histidine action is still unknown. Understanding this mechanism will help evaluate and predict the stabilizing effect of this buffer under different experimental conditions and for different mAbs. We have used all-atom molecular dynamics simulations and contact-based free energy calculations to investigate molecular-level interactions between the histidine buffer and mAbs, which lead to the observed stability of therapeutic formulations in the presence of histidine. We reformulate the Spatial Aggregation Propensity index by including the buffer–protein interactions. The buffer adsorption on the protein surface …

Original language	English
Pages (from-to)	3288-3303
Number of pages	15
Journal	Molecular Pharmaceutics
Volume	19
Issue number	9
Early online date	10 Aug 2022
DOIs	https://doi.org/10.1021/acs.molpharmaceut.2c00453
Publication status	Published - 5 Sept 2022

Keywords

Monoclonal Antibodies
Histidine
Molecular Dynamics
Protein Aggregation
Spatial Aggregation Propensity
COE3

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10.1021/acs.molpharmaceut.2c00453Licence: CC BY

Structural changes of interfacially adsorbed antibody molecules
Lu, J. (PI) & Waigh, T. (CoI)
1/01/20 → 30/06/23
Project: Research

Cite this

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title = "Understanding the Stabilizing Effect of Histidine on mAb Aggregation: A Molecular Dynamics Study",

abstract = "Histidine, a widely used buffer in monoclonal antibody (mAb) formulations, is known to reduce antibody aggregation. While experimental studies suggest a nonelectrostatic, nonstructural (relating to secondary structure preservation) origin of the phenomenon, the underlying microscopic mechanism behind the histidine action is still unknown. Understanding this mechanism will help evaluate and predict the stabilizing effect of this buffer under different experimental conditions and for different mAbs. We have used all-atom molecular dynamics simulations and contact-based free energy calculations to investigate molecular-level interactions between the histidine buffer and mAbs, which lead to the observed stability of therapeutic formulations in the presence of histidine. We reformulate the Spatial Aggregation Propensity index by including the buffer–protein interactions. The buffer adsorption on the protein surface …",

keywords = "Monoclonal Antibodies, Histidine, Molecular Dynamics, Protein Aggregation, Spatial Aggregation Propensity, COE3",

author = "Jian Lu and Thomas Waigh and Zongyi Li and Peter Hollowell and Cavan Kalonia and John Seddon and Fernando Bresme and Peixun Li and Webster, {John P R} and Suman Saurabh",

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doi = "10.1021/acs.molpharmaceut.2c00453",

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AU - Lu, Jian

AU - Waigh, Thomas

AU - Li, Zongyi

AU - Hollowell, Peter

AU - Kalonia, Cavan

AU - Seddon, John

AU - Bresme, Fernando

AU - Li, Peixun

AU - Webster, John P R

AU - Saurabh, Suman

PY - 2022/9/5

Y1 - 2022/9/5

N2 - Histidine, a widely used buffer in monoclonal antibody (mAb) formulations, is known to reduce antibody aggregation. While experimental studies suggest a nonelectrostatic, nonstructural (relating to secondary structure preservation) origin of the phenomenon, the underlying microscopic mechanism behind the histidine action is still unknown. Understanding this mechanism will help evaluate and predict the stabilizing effect of this buffer under different experimental conditions and for different mAbs. We have used all-atom molecular dynamics simulations and contact-based free energy calculations to investigate molecular-level interactions between the histidine buffer and mAbs, which lead to the observed stability of therapeutic formulations in the presence of histidine. We reformulate the Spatial Aggregation Propensity index by including the buffer–protein interactions. The buffer adsorption on the protein surface …

AB - Histidine, a widely used buffer in monoclonal antibody (mAb) formulations, is known to reduce antibody aggregation. While experimental studies suggest a nonelectrostatic, nonstructural (relating to secondary structure preservation) origin of the phenomenon, the underlying microscopic mechanism behind the histidine action is still unknown. Understanding this mechanism will help evaluate and predict the stabilizing effect of this buffer under different experimental conditions and for different mAbs. We have used all-atom molecular dynamics simulations and contact-based free energy calculations to investigate molecular-level interactions between the histidine buffer and mAbs, which lead to the observed stability of therapeutic formulations in the presence of histidine. We reformulate the Spatial Aggregation Propensity index by including the buffer–protein interactions. The buffer adsorption on the protein surface …

KW - Monoclonal Antibodies

KW - Histidine

KW - Molecular Dynamics

KW - Protein Aggregation

KW - Spatial Aggregation Propensity

KW - COE3

U2 - 10.1021/acs.molpharmaceut.2c00453

DO - 10.1021/acs.molpharmaceut.2c00453

M3 - Article

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EP - 3303

JO - Molecular Pharmaceutics

JF - Molecular Pharmaceutics

IS - 9

ER -

Understanding the Stabilizing Effect of Histidine on mAb Aggregation: A Molecular Dynamics Study

Abstract

Keywords

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Structural changes of interfacially adsorbed antibody molecules

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