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Alternative buffer systems in biopharmaceutical formulations and their effect on protein stability
ID
Lebar, Blaž
(
Author
),
ID
Zidar, Mitja
(
Author
),
ID
Mravljak, Janez
(
Author
),
ID
Šink, Roman
(
Author
),
ID
Žula, Aleš
(
Author
),
ID
Pajk, Stane
(
Author
)
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https://acta.pharmaceutica.farmaceut.org/wp-content/uploads/2024/09/47924.pdf
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https://sciendo.com/article/10.2478/acph-2024-0022?tab=abstract
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Abstract
The formulation of biopharmaceutical drugs is designed to eliminate chemical instabilities, increase conformational and colloidal stability of proteins, and optimize interfacial stability. Among the various excipients involved, buffer composition plays a pivotal role. However, conventional buffers like histidine and phosphate buffers may not always be the optimal choice for all monoclonal antibodies (mAbs). In this study, we investigated the effects of several alternative buffer systems on seven different mAbs, exploring various combinations of ionic strengths, concentrations of the main buffer component, mAb concentrations and stress conditions. Protein stability was assessed by analysing soluble aggregate formation through size exclusion chromatography. At low protein concentration, protein instability after temperature stress was exclusively observed in the bis-TRIS/glucuronate buffer. Conversely, freeze-thaw stress led to significant increase in aggregate formation in tested formulations, highlighting the efficacy of several alternative buffers, particularly arginine/citrate, in preserving protein stability. Under temperature stress, the introduction of arginine to histidine buffer systems provided additional stabilization, while the addition of lysine resulted in protein destabilization. Similarly, the incorporation of arginine into histidine/HCl buffer further enhanced protein stability during freeze thaw cycles. At high protein concentration, the histidine/citrate buffer emerged as one of the most optimal choices for addressing temperature and light induced stress. The efficacy of histidine buffers in combating light stress might be attributed to the light absorbing properties of histidine molecules. Our findings demonstrate that the development of biopharmaceutical formulations should not be confined to conventional buffer systems, as numerous alternative options exhibit comparable or even superior performance.
Language:
English
Keywords:
biopharmaceuticals
,
buffer
,
stress
,
aggregates
,
alternative buffers
,
stability
Work type:
Article
Typology:
1.01 - Original Scientific Article
Organization:
FFA - Faculty of Pharmacy
Publication status:
Published
Publication version:
Version of Record
Year:
2024
Number of pages:
Str. 479–493
Numbering:
Vol. 74, no. 3
PID:
20.500.12556/RUL-163471
UDC:
615.4:54
ISSN on article:
1846-9558
DOI:
10.2478/acph-2024-0022
COBISS.SI-ID:
197188099
Publication date in RUL:
07.10.2024
Views:
87
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4642
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Record is a part of a journal
Title:
Acta pharmaceutica
Shortened title:
Acta pharm.
Publisher:
Croatian Pharmaceutical Society
ISSN:
1846-9558
COBISS.SI-ID:
3817585
Licences
License:
CC BY-NC 4.0, Creative Commons Attribution-NonCommercial 4.0 International
Link:
http://creativecommons.org/licenses/by-nc/4.0/
Description:
A creative commons license that bans commercial use, but the users don’t have to license their derivative works on the same terms.
Secondary language
Language:
Slovenian
Keywords:
biofarmacevtika
,
pufer
,
stres
,
agregati
,
alternativni pufri
,
stabilnost
,
farmacevtska kemija
Projects
Funder:
Other - Other funder or multiple funders
Funding programme:
Novartis Pharmaceutical Manufacturing LLC
Funder:
ARIS - Slovenian Research and Innovation Agency
Project number:
P1-0208
Name:
Farmacevtska kemija: načrtovanje, sinteza in vrednotenje učinkovin
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