Towards protein crystallization as a process step in downstream processing of therapeutic antibodies: screening and optimization at microbatch scale.

Towards protein crystallization as a process step in downstream processing of therapeutic antibodies: screening and optimization at microbatch scale.

Crystallization conditions of an intact monoclonal IgG4 (immunoglobulin G, subclass 4) antibody were established in vapor diffusion mode by sparse matrix screening and subsequent optimization. The procedure was transferred to microbatch conditions and a phase diagram was built showing surprisingly l...

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Main Authors: Yuguo Zang, Bernd Kammerer, Maike Eisenkolb, Katrin Lohr, Hans Kiefer
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2011-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3178630?pdf=render
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spelling doaj-8b43bc8c1f10438398ad3d5cb39e9c942020-11-24T21:26:26ZengPublic Library of Science (PLoS)PLoS ONE1932-62032011-01-0169e2528210.1371/journal.pone.0025282Towards protein crystallization as a process step in downstream processing of therapeutic antibodies: screening and optimization at microbatch scale.Yuguo ZangBernd KammererMaike EisenkolbKatrin LohrHans KieferCrystallization conditions of an intact monoclonal IgG4 (immunoglobulin G, subclass 4) antibody were established in vapor diffusion mode by sparse matrix screening and subsequent optimization. The procedure was transferred to microbatch conditions and a phase diagram was built showing surprisingly low solubility of the antibody at equilibrium. With up-scaling to process scale in mind, purification efficiency of the crystallization step was investigated. Added model protein contaminants were excluded from the crystals to more than 95%. No measurable loss of Fc-binding activity was observed in the crystallized and redissolved antibody. Conditions could be adapted to crystallize the antibody directly from concentrated and diafiltrated cell culture supernatant, showing purification efficiency similar to that of Protein A chromatography. We conclude that crystallization has the potential to be included in downstream processing as a low-cost purification or formulation step.http://europepmc.org/articles/PMC3178630?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Yuguo Zang
Bernd Kammerer
Maike Eisenkolb
Katrin Lohr
Hans Kiefer
spellingShingle Yuguo Zang
Bernd Kammerer
Maike Eisenkolb
Katrin Lohr
Hans Kiefer
Towards protein crystallization as a process step in downstream processing of therapeutic antibodies: screening and optimization at microbatch scale.
PLoS ONE
author_facet Yuguo Zang
Bernd Kammerer
Maike Eisenkolb
Katrin Lohr
Hans Kiefer
author_sort Yuguo Zang
title Towards protein crystallization as a process step in downstream processing of therapeutic antibodies: screening and optimization at microbatch scale.
title_short Towards protein crystallization as a process step in downstream processing of therapeutic antibodies: screening and optimization at microbatch scale.
title_full Towards protein crystallization as a process step in downstream processing of therapeutic antibodies: screening and optimization at microbatch scale.
title_fullStr Towards protein crystallization as a process step in downstream processing of therapeutic antibodies: screening and optimization at microbatch scale.
title_full_unstemmed Towards protein crystallization as a process step in downstream processing of therapeutic antibodies: screening and optimization at microbatch scale.
title_sort towards protein crystallization as a process step in downstream processing of therapeutic antibodies: screening and optimization at microbatch scale.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2011-01-01
description Crystallization conditions of an intact monoclonal IgG4 (immunoglobulin G, subclass 4) antibody were established in vapor diffusion mode by sparse matrix screening and subsequent optimization. The procedure was transferred to microbatch conditions and a phase diagram was built showing surprisingly low solubility of the antibody at equilibrium. With up-scaling to process scale in mind, purification efficiency of the crystallization step was investigated. Added model protein contaminants were excluded from the crystals to more than 95%. No measurable loss of Fc-binding activity was observed in the crystallized and redissolved antibody. Conditions could be adapted to crystallize the antibody directly from concentrated and diafiltrated cell culture supernatant, showing purification efficiency similar to that of Protein A chromatography. We conclude that crystallization has the potential to be included in downstream processing as a low-cost purification or formulation step.
url http://europepmc.org/articles/PMC3178630?pdf=render
work_keys_str_mv AT yuguozang towardsproteincrystallizationasaprocessstepindownstreamprocessingoftherapeuticantibodiesscreeningandoptimizationatmicrobatchscale
AT berndkammerer towardsproteincrystallizationasaprocessstepindownstreamprocessingoftherapeuticantibodiesscreeningandoptimizationatmicrobatchscale
AT maikeeisenkolb towardsproteincrystallizationasaprocessstepindownstreamprocessingoftherapeuticantibodiesscreeningandoptimizationatmicrobatchscale
AT katrinlohr towardsproteincrystallizationasaprocessstepindownstreamprocessingoftherapeuticantibodiesscreeningandoptimizationatmicrobatchscale
AT hanskiefer towardsproteincrystallizationasaprocessstepindownstreamprocessingoftherapeuticantibodiesscreeningandoptimizationatmicrobatchscale
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