Rationally Engineered Therapeutic Proteins with Reduced Immunogenicity

Overview

Journal J Immunol

Specialty Allergy & Immunology

Date 2005 Mar 8

PMID 15749848

Citations 73

Authors

Shabnam Tangri

Bianca R Mothe

Julie Eisenbraun

John Sidney

Scott Southwood

Kristen Briggs

John Zinckgraf

Pamuk Bilsel

Mark Newman

Robert Chesnut

Cynthia LiCalsi

Alessandro Sette

Affiliations

Soon will be listed here.

Abstract

Chronic administration of protein therapeutics may elicit unacceptable immune responses to the specific protein. Our hypothesis is that the immunogenicity of protein drugs can be ascribed to a few immunodominant helper T lymphocyte (HTL) epitopes, and that reducing the MHC binding affinity of these HTL epitopes contained within these proteins can generate drugs with lower immunogenicity. To test this hypothesis, we studied the protein therapeutic erythropoietin (Epo). Two regions within Epo, designated Epo 91-120 and Epo 126-155, contained HTL epitopes that were recognized by individuals with numerous HLA-DR types, a property common to immunodominant HTL epitopes. We then engineered analog epitopes with reduced HLA binding affinity. These analog epitopes were associated with reduced in vitro immunogenicity. Two modified forms of Epo containing these substitutions were shown to be bioactive and nonimmunogenic in vitro. These findings support our hypothesis and demonstrate that immunogenicity of protein drugs can be reduced in a systematic and predictable manner.

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