Conformational and Colloidal Stabilities of Isolated Constant Domains of Human Immunoglobulin G and Their Impact on Antibody Aggregation under Acidic Conditions

Yageta, Seiki; Lauer, Timothy M.; Trout, Bernhardt L.; Honda, Shinya

doi:10.1021/mp500759p

Cited by 35 publications

(48 citation statements)

References 51 publications

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“…Note that these are extreme values and, as we show in a subsequent section, antibody-antigen interfaces are relatively polar. and CH3 domains (Yageta et al, 2015). Measured phase diagram boundaries for these domains, derived at acidic pH (Yageta et al, 2015) has been marked (Figure 3), showing a good match between these calculations and experiment.…”

Section: One Step Visualisation Of Charged and Hydrophobic Surface Pasupporting

confidence: 63%

“…and CH3 domains (Yageta et al, 2015). Measured phase diagram boundaries for these domains, derived at acidic pH (Yageta et al, 2015) has been marked (Figure 3), showing a good match between these calculations and experiment. For example, looking across the pH variation at 0.15 M ionic strength, there is a greater variation in pH-dependence for CH2 than for CH3 domains.…”

Section: One Step Visualisation Of Charged and Hydrophobic Surface Pasupporting

confidence: 63%

“…In order to compare qualitatively with experiment, CH2 and CH3 domains from the IgG1 PDB structure 1HZH are used (Saphire et al, 2001), since pH and ionic strength variations in stability have been reported for IgG1 CH2 and CH3 domains (Yageta et al, 2015). Measured phase diagram boundaries for these domains, derived at acidic pH (Yageta et al, 2015) has been marked (Figure 3), showing a good match between these calculations and experiment. For example, looking across the pH range at 0.15 M ionic strength, there is a greater variation in pH-dependence for CH2 than for CH3…”

Section: Heatmaps Show the Predicted Ph And Ionic Strength Dependencementioning

confidence: 70%

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Computational investigation of protein surface polarity and pH-dependence: application to antibodies shows that antibody-antigen interfaces tend to be relatively polar

Hebditch

Warwicker

2018

Preprint

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Protein instability leads to reversible self-association and irreversible aggregation which is a major concern for developing new biopharmaceutical leads. Protein solution behaviour is dictated by the physicochemical properties of the protein and the solution. Optimising protein solutions through experimental screens and targeted protein engineering can be a difficult and time consuming processes. Here, we describe further development of the protein-sol web tool, which was previously restricted to protein solubility prediction from amino acid sequence. Tools are presented for calculating and mapping patches of hydrophobicity and charge on the protein surface. In addition, predictions of folded state stability and net charge are displayed as a heatmap for a range of pH and ionic strength conditions. The tool is evaluated in the context of the interfaces present in Fab fragments and their antigens. Surprisingly, antibody-antigen interfaces are, on average, at least as polar as Fab surfaces. This benchmarking process provides the user with thresholds with which to assess non-polar surface patches, and possible solubility implications, in proteins of interest. Stability heatmaps compare favourably with experimental data for CH2 and CH3 domains. Display and quantification of surface polarity and pH / ionic strength dependence will be useful generally for investigation of protein biophysics.

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Section: One Step Visualisation Of Charged and Hydrophobic Surface Pasupporting

confidence: 63%

Section: One Step Visualisation Of Charged and Hydrophobic Surface Pasupporting

confidence: 63%

Section: Heatmaps Show the Predicted Ph And Ionic Strength Dependencementioning

confidence: 70%

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Computational investigation of protein surface polarity and pH-dependence: application to antibodies shows that antibody-antigen interfaces tend to be relatively polar

Hebditch

Warwicker

2018

Preprint

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“…17 Furthermore, Seiki Yageta et al reported C H 3 domain plays the most critical role in driving intact IgG aggregation under acidic conditions. 18 Here, we report nivolumab was prone to aggregation during a purification process conventionally used for mAbs. Aggregate and monomer fractions of nivolumab bulk substance were characterized in-depth by liquid chromatography-mass spectrometry (LC-MS).…”

Section: Introductionmentioning

confidence: 94%

Acid-induced aggregation propensity of nivolumab is dependent on the Fc

Liu

Guo

et al. 2016

mAbs

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Nivolumab, an anti-programmed death (PD)1 IgG 4 antibody, has shown notable success as a cancer treatment. Here, we report that nivolumab was susceptible to aggregation during manufacturing, particularly in routine purification steps. Our experimental results showed that exposure to low pH caused aggregation of nivolumab, and the Fc was primarily responsible for an acid-induced unfolding phenomenon. To compare the intrinsic propensity of acid-induced aggregation for other IgGs subclasses, tocilizumab (IgG 1 ), panitumumab (IgG 2 ) and atezolizumab (aglyco-IgG 1 ) were also investigated. The accurate pH threshold of acid-induced aggregation for individual IgG Fc subclasses was identified and ranked as: IgG 1 < aglyco-IgG 1 < IgG 2 < IgG 4 . This result was cross-validated by thermostability and conformation analysis. We also assessed the effect of several protein stabilizers on nivolumab, and found mannitol ameliorated the acid-induced aggregation of the molecule. Our results provide valuable insight into downstream manufacturing process development, especially for immune checkpoint modulating molecules with a human IgG 4 backbone.

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“…Subsequent work from the same group suggests that before acid treatment, the CH2 exhibits stronger interactions with the CH3 domain, but upon renaturation, the CH2 instead forms stronger interactions with the CH1 domain (Martsev et al, 1995). Lastly, experimental determination of the conformational stability of isolated IgG constant domains using circular dichroism suggests that CH2 and and CH3 domains are less stable than the CH1-CL dimer at pH 2 (Yageta et al, 2015). Our work suggests that of the Fc domains, both structures exhibit a relative sensitivity to acid pH, but as CH2 exhibits a more destabilising energy in the acidic regime we suggest CH2 will be more acid sensitive.…”

Section: Resultsmentioning

confidence: 99%

Modelling of pH-dependence to develop a strategy for stabilising mAbs at acidic steps in production

Hebditch

Kean

Warwicker

2019

Preprint

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Engineered proteins are increasingly being required to function or pass through environmental stresses for which the underlying protein has not evolved. A major example in health are antibody therapeutics, where a low pH step is used for purification and viral clearance. In order to develop a computational model for analysis of pH-stability, predictions are compared with experimental data for the relative pH-sensitivities of antibody domains. The model is then applied to proteases that have evolved to be functional in an acid environment, showing a clear signature for low pH-dependence of stability in the neutral to acidic pH region, largely through reduction of saltbridges. Interestingly, an extensively acidic protein surface can maintain contribution to structural stabilisation at acidic pH through replacement of basic sidechains with polar, hydrogen-bonding groups. These observations form a design principle for engineering acid-stable proteins.

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Conformational and Colloidal Stabilities of Isolated Constant Domains of Human Immunoglobulin G and Their Impact on Antibody Aggregation under Acidic Conditions

Cited by 35 publications

References 51 publications

Computational investigation of protein surface polarity and pH-dependence: application to antibodies shows that antibody-antigen interfaces tend to be relatively polar

Computational investigation of protein surface polarity and pH-dependence: application to antibodies shows that antibody-antigen interfaces tend to be relatively polar

Acid-induced aggregation propensity of nivolumab is dependent on the Fc

Modelling of pH-dependence to develop a strategy for stabilising mAbs at acidic steps in production

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