Nadejda Koloteva-Levine scite author profile

Recombinant protein products such as monoclonal antibodies (mAbs) for use in the clinic must be clear of host cell impurities such as host cell protein (HCP), DNA/RNA, and high molecular weight immunogenic aggregates. Despite the need to remove and monitor HCPs, the nature, and fate of these during downstream processing (DSP) remains poorly characterized. We have applied a proteomic approach to investigate the dynamics and fate of HCPs in the supernatant of a mAb producing cell line during early DSP including centrifugation, depth filtration, and protein A capture chromatography. The primary clarification technique selected was shown to influence the HCP profile that entered subsequent downstream steps. MabSelect protein A chromatography removed the majority of contaminating proteins, however using 2D-PAGE we could visualize not only the antibody species in the eluate (heavy and light chain) but also contaminant HCPs. These data showed that the choice of secondary clarification impacts upon the HCP profile post-protein A chromatography as differences arose in both the presence and abundance of specific HCPs when depth filters were compared. A number of intracellularly located HCPs were identified in protein A elution fractions from a Null cell line culture supernatant including the chaperone Bip/GRP78, heat shock proteins, and the enzyme enolase. We demonstrate that the selection of early DSP steps influences the resulting HCP profile and that 2D-PAGE can be used for monitoring and identification of HCPs post-protein A chromatography. This approach could be used to screen cell lines or hosts to select those with reduced HCP profiles, or to identify HCPs that are problematic and difficult to remove so that cell-engineering approaches can be applied to reduced, or eliminate, such HCPs.

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Methionine Oxidation of Sup35 Protein Induces Formation of the [PSI+] Prion in a Yeast Peroxiredoxin Mutant

Sideri

Koloteva-Levine

Tuite

et al. 2011

Journal of Biological Chemistry

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The frequency with which the yeast [PSI+] prion form of Sup35 arises de novo is controlled by a number of genetic and environmental factors. We have previously shown that in cells lacking the antioxidant peroxiredoxin proteins Tsa1 and Tsa2, the frequency of de novo formation of [PSI+] is greatly elevated. We show here that Tsa1/Tsa2 also function to suppress the formation of the [PIN+] prion form of Rnq1. However, although oxidative stress increases the de novo formation of both [PIN+] and [PSI+], it does not overcome the requirement of cells being [PIN+] to form the [PSI+] prion. We use an anti-methionine sulfoxide antibody to show that methionine oxidation is elevated in Sup35 during oxidative stress conditions. Abrogating Sup35 methionine oxidation by overexpressing methionine sulfoxide reductase (MSRA) prevents [PSI+] formation, indicating that Sup35 oxidation may underlie the switch from a soluble to an aggregated form of Sup35. In contrast, we were unable to detect methionine oxidation of Rnq1, and MSRA overexpression did not affect [PIN+] formation in a tsa1 tsa2 mutant. The molecular basis of how yeast and mammalian prions form infectious amyloid-like structures de novo is poorly understood. Our data suggest a causal link between Sup35 protein oxidation and de novo [PSI+] prion formation.

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The physical dimensions of amyloid aggregates control their infective potential as prion particles

Marchante

Béal

Koloteva-Levine

et al. 2017

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Transmissible amyloid particles called prions are associated with infectious prion diseases in mammals and inherited phenotypes in yeast. All amyloid aggregates can give rise to potentially infectious seeds that accelerate their growth. Why some amyloid seeds are highly infectious prion particles while others are less infectious or even inert, is currently not understood. To address this question, we analyzed the suprastructure and dimensions of synthetic amyloid fibrils assembled from the yeast (Saccharomyces cerevisiae) prion protein Sup35NM. We then quantified the ability of these particles to induce the [PSI+] prion phenotype in cells. Our results show a striking relationship between the length distribution of the amyloid fibrils and their ability to induce the heritable [PSI+] prion phenotype. Using a simple particle size threshold model to describe transfection activity, we explain how dimensions of amyloid fibrils are able to modulate their infectious potential as prions.

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Interaction of hnRNP‐C1/C2 proteins with RNA: analysis using the yeast three‐hybrid system

2002

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Three-hybrid assays for the analysis of RNA^protein interactions in vivo are usually used, due to technical limitations, only for RNA baits that do not contain runs of four or more consecutive uridines. The present study provides the ¢rst example of a three-hybrid analysis of synthetic and natural uridinerich RNA sequences. The use of the three-hybrid assay enabled us to demonstrate a functional di¡erence between two closely related proteins, heterogeneous nuclear ribonucleoprotein C1 (hnRNP-C1) and hnRNP-C2. The hnRNP-C2 protein, an alternatively spliced variant of hnRNP-C1, contains an additional 13 amino acids between an RNA binding domain (RBD) and a basic leucine zipper-like motif (bZLM), also implied in RNA binding. This study shows that (i) for e⁄cient binding of hnRNP-C1/C2 to RNA, the context of the U-stretch is more important than the stretch itself; (ii) both the RBD and the bZLM bind RNA independently ; and (iii) the C2-related 13-amino acid insert enhances the speci¢city of either the RBD, the bZLM, or the full-length protein towards its ligand, allowing it to bind only the most high-a⁄nity sequences while discriminating against those that do not perfectly match this category. The three-hybrid system is a powerful tool to work out the functional signi¢cance of peptide 'modules' within RNA binding proteins generated by alternative splicing. ß

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