Detection of IgG Aggregation by a High Throughput Method Based on Extrinsic Fluorescence

Overview

Journal J Pharm Sci

Publisher Elsevier

Specialties Pharmacology
Pharmacy

Date 2009 Dec 30

PMID 20039384

Citations 14

Authors

Feng He

Duke H Phan

Sabine Hogan

Robert Bailey

Gerald W Becker

Linda O Narhi

Vladimir I Razinkov

Affiliations

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Abstract

The utility of extrinsic fluorescence as a tool for high throughput detection of monoclonal antibody aggregates was explored. Several IgG molecules were thermally stressed and the high molecular weight species were fractionated using size-exclusion chromatography (SEC). The isolated aggregates and monomers were studied by following the fluorescence of an extrinsic probe, SYPRO Orange. The dye displayed high sensitivity to structurally altered, aggregated IgG structures compared to the native form, which resulted in very low fluorescence in the presence of the dye. An example of the application is presented here to demonstrate the properties of this detection method. The fluorescence assay was shown to correlate with the SEC method in quantifying IgG aggregates. The fluorescent probe method appears to have potential to detect protein particles that could not be analyzed by SEC. This method may become a powerful high throughput tool to detect IgG aggregates in pharmaceutical solutions and to study other protein properties involving aggregation. It can also be used to study the kinetics of antibody particle formation, and perhaps allow identification of the species, which are the early building blocks of protein particles.

Citing Articles

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Evaluation of fluorescent dyes to measure protein aggregation within mammalian cell culture supernatants.

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