2014
DOI: 10.1021/jp500434b
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Entanglement Model of Antibody Viscosity

Abstract: Antibody solutions are typically much more viscous than solutions of globular proteins at equivalent volume fraction. Here we propose that this is due to molecular entanglements that are caused by the elongated shape and intrinsic flexibility of antibody molecules. We present a simple theory in which the antibodies are modeled as linear polymers that can grow via reversible bonds between the antigen binding domains. This mechanism explains the observation that relatively subtle changes to the interparticle int… Show more

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Cited by 52 publications
(91 citation statements)
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“…Recognizing that for mAbs of similar isotype (IgG1 in the present case), the variable domain Fv (and the CDRs within) presumably plays a critical role in defining intermolecular interactions leading to differences in viscosity (8,9), we set out to determine what parameters can be extracted to capture the contributing hydrophobic and electrostatic elements (10,11). It has been postulated recently that such interactions may produce molecular entanglements, leading to increased viscosity (12). We focused on sequence only because this provided the simplest means of data generation and analysis.…”
mentioning
confidence: 99%
“…Recognizing that for mAbs of similar isotype (IgG1 in the present case), the variable domain Fv (and the CDRs within) presumably plays a critical role in defining intermolecular interactions leading to differences in viscosity (8,9), we set out to determine what parameters can be extracted to capture the contributing hydrophobic and electrostatic elements (10,11). It has been postulated recently that such interactions may produce molecular entanglements, leading to increased viscosity (12). We focused on sequence only because this provided the simplest means of data generation and analysis.…”
mentioning
confidence: 99%
“…As such, folded or native dimers and oligomers are not observed until very high concentrations (~ 10 2 mg/mL), or are not observed at all within the range of concentration up the protein solubility limit [14,15]. In some cases, stable dimers and oligomers are a predominant and long-lived species [13].…”
Section: Why and How Do Proteins Aggregate?mentioning
confidence: 99%
“…In some cases, stable dimers and oligomers are a predominant and long-lived species [13]. In other case they may be small transient clusters [15,16], although there remains debate as to the limitations and interpretation of the available experimental techniques [1720]. In the opposite extreme, large clusters can be stable and isolated for imaging, providing one can avoid difficulties with metastable or trapped aggregate states [21].…”
Section: Why and How Do Proteins Aggregate?mentioning
confidence: 99%
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“…It should be noted that the effect of aggregates on viscosity requires careful investigation because the shape of aggregates can play an important role on viscosity. Elongated and flexible aggregates have an effect to enhance the viscosity, whereas spherical aggregates reduce the viscosity (Yadav et al 2012;Schmit et al 2014).…”
Section: Discussionmentioning
confidence: 99%