Andrew Semple scite author profile

With the rapid growth of biopharmaceutical product development, knowledge of therapeutic protein stability has become increasingly important. We evaluated assays that measure solution-mediated interactions and key molecular characteristics of 9 formulated monoclonal antibody (mAb) therapeutics, to predict their stability behavior. Colloidal interactions, self-association propensity and conformational stability were measured using effective surface charge via zeta potential, diffusion interaction parameter (k D ) and differential scanning calorimetry (DSC), respectively. The molecular features of all 9 mAbs were compared to their stability at accelerated (25 C and 40 C) and long-term storage conditions (2-8 C) as measured by size exclusion chromatography. At accelerated storage conditions, the majority of the mAbs in this study degraded via fragmentation rather than aggregation. Our results show that colloidal stability, self-association propensity and conformational characteristics (exposed tryptophan) provide reasonable prediction of accelerated stability, with limited predictive value at 2-8 C stability. While no correlations to stability behavior were observed with onset-of-melting temperatures or domain unfolding temperatures, by DSC, melting of the Fab domain with the C H 2 domain suggests lower stability at stressed conditions. The relevance of identifying appropriate biophysical assays based on the primary degradation pathways is discussed.

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DSF Method Optimization and Its Application in Predicting Protein Thermal Aggregation Kinetics

Shi

Semple

Cheung

et al. 2013

Journal of Pharmaceutical Sciences

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FTIR Spectroscopy Detects Intermolecular β-Sheet Formation Above the High Temperature Tm for Two Monoclonal Antibodies

et al. 2020

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The temperature-dependent secondary structure of two monoclonal IgG antibodies, anti-IGF1R and anti-TSLP, were examined by transmission mode Fourier Transform Infrared (FTIR) spectroscopy. Anti-IGF1R and anti-TSLP are IgG monoclonal antibodies (mAbs) directed against human Insulin-like Growth Factor 1 Receptor for anti-tumor activity and Thymic Stromal Lymphopoietin cytokine for anti-asthma activity, respectively. Differential scanning calorimetry (DSC) clearly indicates both antibodies in their base formulations have a lower temperature protein conformational change near 70 °C (Tm1) and a higher temperature protein conformational change near 85 °C (Tm2). Thermal scanning dynamic light scatting (TS-DLS) indicates a significant particle size increase for both antibodies near Tm2 suggesting a high level of protein aggregation. The nature of these protein conformational changes associated with increasing the formulation temperature and decreasing sucrose concentration were identified by transmission mode FTIR and second derivative FTIR spectroscopy of temperature controlled aqueous solutions of both monoclonal antibodies. The transition from intra-molecular β sheets to inter-molecular β sheets was clearly captured for both monoclonal antibodies using FTIR spectroscopy. Finally, FTIR Spectroscopy was able to show the impact of a common excipient such as sucrose on the stability of each monoclonal antibody, further demonstrating the usefulness of FTIR spectroscopy for studying protein aggregation and formulation effects.

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Application of a High-Throughput Relative Chemical Stability Assay to Screen Therapeutic Protein Formulations by Assessment of Conformational Stability and Correlation to Aggregation Propensity

Rizzo

Shi

et al. 2015

Journal of Pharmaceutical Sciences

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Overcoming Challenges With Intravenous Administration of an Investigational Protein Therapeutic

Shi

Hashemi

Wang

et al. 2017

Journal of Pharmaceutical Sciences

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Andrew Semple

A comparison of biophysical characterization techniques in predicting monoclonal antibody stability

DSF Method Optimization and Its Application in Predicting Protein Thermal Aggregation Kinetics

FTIR Spectroscopy Detects Intermolecular β-Sheet Formation Above the High Temperature Tm for Two Monoclonal Antibodies

Application of a High-Throughput Relative Chemical Stability Assay to Screen Therapeutic Protein Formulations by Assessment of Conformational Stability and Correlation to Aggregation Propensity

Overcoming Challenges With Intravenous Administration of an Investigational Protein Therapeutic

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