Host Cell Protein Analysis using Enrichment Beads Coupled with Limited Digestion

Sisi Zhang; Hui Xiao; Ning Li

doi:10.3791/65544

Análise de Proteína de Células Hospedeiras usando Contas de Enriquecimento Acopladas a Digestão L...

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Chemistry

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JoVE Journal Chemistry

Host Cell Protein Analysis using Enrichment Beads Coupled with Limited Digestion

Análise de Proteína de Células Hospedeiras usando Contas de Enriquecimento Acopladas a Digestão Limitada

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09:45 min

January 19, 2024

DOI: 10.3791/65544-v

Sisi Zhang¹, Hui Xiao¹, Ning Li¹

¹Analytical Chemistry,Regeneron Pharmaceuticals Inc.

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Overview

This article presents a sensitive method for enriching and detecting low-abundance host cell proteins (HCPs) from drug products using proteome enrichment beads. The approach is exemplified with a monoclonal antibody drug substance, providing a reference for evaluating various analytical methods.

Key Study Components

Area of Science

Biotechnology
Pharmaceutical Analysis
Proteomics

Background

Host cell proteins (HCPs) can interfere with drug product efficacy and safety.
Detecting low-abundance HCPs is crucial for quality control in biopharmaceuticals.
Traditional methods often struggle with the dynamic range between antibodies and HCPs.
Improving detection limits is essential for accurate HCP analysis.

Purpose of Study

To develop a method for enriching and detecting HCPs in drug products.
To identify challenges in HCP analysis and propose solutions.
To evaluate the performance of the method using a well-characterized monoclonal antibody.

Methods Used

Protein enrichment beads for HCP isolation.
Liquid chromatography coupled with mass spectrometry (LC-MS).
Targeted methods including immunoprecipitation and molecular weight cutoff.
Multiple reaction monitoring for enhanced sensitivity.

Main Results

The method successfully enriched HCPs from the drug product.
Improved detection limits were achieved compared to traditional methods.
The approach effectively reduced the dynamic range issues in LC-MS analysis.
Demonstrated applicability with a monoclonal antibody reference material.

Conclusions

The developed method enhances the detection of low-abundance HCPs.
It addresses significant challenges in HCP analysis for biopharmaceuticals.
This protocol can serve as a benchmark for future studies in HCP detection.

Frequently Asked Questions

What are host cell proteins?

Host cell proteins (HCPs) are proteins derived from the cells used to produce biopharmaceuticals, which can affect drug safety and efficacy.

Why is detecting HCPs important?

Detecting HCPs is crucial for ensuring the quality and safety of biopharmaceutical products.

What challenges exist in HCP analysis?

The main challenge is the dynamic range between the abundant therapeutic antibodies and the low-abundance HCPs.

How does the new method improve HCP detection?

The method enhances sensitivity and reduces the dynamic range issues by using protein enrichment beads and targeted detection techniques.

What techniques are used in this study?

Techniques include protein enrichment, liquid chromatography, and mass spectrometry.

Can this method be applied to other drug products?

Yes, the method can be adapted for various biopharmaceuticals beyond monoclonal antibodies.

Um protocolo é apresentado para o enriquecimento de proteínas da célula hospedeira (HCPs) a partir de produtos farmacêuticos (PD) e detecção de peptídeos usando esferas de enriquecimento de proteoma. O método é demonstrado usando uma substância medicamentosa (MD) de anticorpos monoclonais (mAb) fabricada internamente, que é um material de referência bem caracterizado para avaliar e comparar diferentes métodos em termos de desempenho.

Desenvolvemos um método altamente sensível para detectar essas proteínas de células hospedeiras pouco abundantes a partir do produto farmacêutico usando as esferas de enriquecimento de proteoma. Esta abordagem ajuda-nos a encontrar a causa raiz e o risco associado ao produto farmacêutico. Existem várias maneiras de melhorar o limite de detecção da análise de HCP, o método não direcionado, incluindo, mas não limitado a, depleção de proteína A, a digestão limitada, o corte de peso molecular, a imunoprecipitação.

A maneira direcionada de detectar a proteína da célula hospedeira, incluindo cromatografia líquida, monitoramento de reação múltipla e monitoramento de reação paralela por cromatografia não líquida. O maior desafio associado a essas análises de PCH é a faixa dinâmica significativa entre a droga de anticorpos e as proteínas da célula hospedeira. Assim, a maioria dos métodos visa reduzir a quantidade de anticorpos e enriquecer o HCP antes da análise do LCMS para diminuir a faixa dinâmica entre peptídeos de anticorpos e peptídeos de HCP.

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