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Submicrometer silica particles for high-throughput separations of protein pharmac

$268,639R01FY2013GMNIH

Purdue University, West Lafayette IN

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Abstract

DESCRIPTION (provided by applicant): The proposed research is to increase the resolution per minute for protein separations. Faster protein separations are crucial to developing and formulating protein drugs because the separations are the bottleneck. Proteins, particularly monoclonal antibodies, are growing rapidly as a class of candidates in the pharmaceutical pipeline. Protein drugs promise higher specificity with fewer adverse effects, but protein heterogeneity can cause immunogenicity. Separations are required to analyze for heterogeneity. The low throughput of existing separations slows the optimizing of both protein production and drug formulation. The proposal is to increase throughput significantly by introducing extremely efficient separation media made of submicrometer particles with low-adsorptivity surfaces. Three major types of separations essential for protein drugs are addressed: 1) reversed phase chromatography for detecting small mass changes, 2) hydrophilic interaction chromatography for characterizing glycosylation, and 3) hydrodynamic chromatography for assessing aggregation. These separations will be tested with therapeutic monoclonal antibodies provided by Eli Lilly. The outcome of the research will be to speed drug development and advance drug safety for therapeutic monoclonal antibodies and other protein drugs. The enabling technology will broadly benefit research in the health sciences, including top-down proteomics, protein biomarker discovery, and basic research on disease mechanisms.

View original record on NIH RePORTER →