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Physicochemical and biological assays for quality control of biopharmaceuticals: Interferon alfa-2 case study

Physicochemical and biological assays for quality control of biopharmaceuticals: Interferon alfa-2 case study
Physicochemical and biological assays for quality control of biopharmaceuticals: Interferon alfa-2 case study
A selection of physicochemical and biological assays were investigated for their utility in detecting changes in preparations of Interferon alfa-2a and Interferon alfa-2b (IFN-α2a, IFN-α2b), which had been subjected to stressed conditions, in order to create models of biopharmaceutical products containing product-related impurities. The stress treatments, which included oxidation of methionine residues and storage at elevated temperatures for different periods of time, were designed to induce various degrees of degradation, aggregation or oxidation of the interferon. Biological activity of the stressed preparations was assessed in three different in vitro cell-based bioassay systems: a late-stage anti-proliferative assay and early-stage assays measuring reporter gene activation or endogenous gene expression by quantitative real time Reverse Transcription-Polymerase Chain Reaction (qRT-PCR). Relevant physicochemical methods such as SDS-PAGE, reverse phase (RP) chromatography, size-exclusion chromatography (SEC) and dynamic light scattering (DLS), proved their complementarity in detecting structural changes in the stressed preparations which were reflected by reductions in biological activity.
Interferon Bioassay Dynamic light scattering Biopharmaceutical qRT-PCR
1045-1056
383-392
Silva, Marta M. C. G.
d6992ece-beef-4649-a08a-b18d32cc8071
Lamarre, Baptiste
f269271f-1c0b-4d1e-b0c3-4fd15f795bb8
Cerasoli, Eleonora
18ce2ec4-cab6-4367-8c8c-b6ba12d8ab55
Rakowska, Paulina
73bf2145-e2fa-46ee-9ad9-f74c80d5a369
Hills, Anna
dbccbd9d-c5a8-43ba-8fa9-f43ea629635c
Bailey, Marc J. A.
94a3e46a-5d78-443f-aa32-1853846d3b48
Wheeler, Jun X.
c028063e-e5e2-4647-9f29-1afefe771286
Burns, Chris J.
be3ec851-d9f5-4e79-b261-ae302ca9b382
Gaines-Das, Rose E.
159d932c-11e6-4857-bc48-96f8321a9656
Silva, Marta M. C. G.
d6992ece-beef-4649-a08a-b18d32cc8071
Lamarre, Baptiste
f269271f-1c0b-4d1e-b0c3-4fd15f795bb8
Cerasoli, Eleonora
18ce2ec4-cab6-4367-8c8c-b6ba12d8ab55
Rakowska, Paulina
73bf2145-e2fa-46ee-9ad9-f74c80d5a369
Hills, Anna
dbccbd9d-c5a8-43ba-8fa9-f43ea629635c
Bailey, Marc J. A.
94a3e46a-5d78-443f-aa32-1853846d3b48
Wheeler, Jun X.
c028063e-e5e2-4647-9f29-1afefe771286
Burns, Chris J.
be3ec851-d9f5-4e79-b261-ae302ca9b382
Gaines-Das, Rose E.
159d932c-11e6-4857-bc48-96f8321a9656

Silva, Marta M. C. G., Lamarre, Baptiste, Cerasoli, Eleonora, Rakowska, Paulina, Hills, Anna, Bailey, Marc J. A., Wheeler, Jun X., Burns, Chris J. and Gaines-Das, Rose E. (2008) Physicochemical and biological assays for quality control of biopharmaceuticals: Interferon alfa-2 case study. Biologicals, 36 (6), 383-392. (doi:10.1016/j.biologicals.2008.06.003).

Record type: Article

Abstract

A selection of physicochemical and biological assays were investigated for their utility in detecting changes in preparations of Interferon alfa-2a and Interferon alfa-2b (IFN-α2a, IFN-α2b), which had been subjected to stressed conditions, in order to create models of biopharmaceutical products containing product-related impurities. The stress treatments, which included oxidation of methionine residues and storage at elevated temperatures for different periods of time, were designed to induce various degrees of degradation, aggregation or oxidation of the interferon. Biological activity of the stressed preparations was assessed in three different in vitro cell-based bioassay systems: a late-stage anti-proliferative assay and early-stage assays measuring reporter gene activation or endogenous gene expression by quantitative real time Reverse Transcription-Polymerase Chain Reaction (qRT-PCR). Relevant physicochemical methods such as SDS-PAGE, reverse phase (RP) chromatography, size-exclusion chromatography (SEC) and dynamic light scattering (DLS), proved their complementarity in detecting structural changes in the stressed preparations which were reflected by reductions in biological activity.

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More information

Published date: 8 August 2008
Keywords: Interferon Bioassay Dynamic light scattering Biopharmaceutical qRT-PCR

Identifiers

Local EPrints ID: 445179
URI: http://eprints.soton.ac.uk/id/eprint/445179
DOI: doi:10.1016/j.biologicals.2008.06.003
ISSN: 1045-1056
PURE UUID: fe1bbfb8-a749-476d-a161-e36377401f1b
ORCID for Paulina Rakowska: ORCID iD orcid.org/0000-0002-3710-8395

Catalogue record

Date deposited: 24 Nov 2020 17:34
Last modified: 17 Mar 2024 04:04

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Contributors

Author: Marta M. C. G. Silva
Author: Baptiste Lamarre
Author: Eleonora Cerasoli
Author: Paulina Rakowska ORCID iD
Author: Anna Hills
Author: Marc J. A. Bailey
Author: Jun X. Wheeler
Author: Chris J. Burns
Author: Rose E. Gaines-Das

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