Computationally optimized deimmunization libraries yield highly mutated enzymes with low immunogenicity and enhanced activity

Salvat Regina S.; Verma Deeptak; Parker Andrew S.Kirsch Jack R.Brooks Seth A.Bailey-Kellogg ChrisGriswold Karl E.

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Computationally optimized deimmunization libraries yield highly mutated enzymes with low immunogenicity and enhanced activity

机译：Computationally optimized deimmunization libraries yield highly mutated enzymes with low immunogenicity and enhanced activity

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Therapeutic proteins of wide-ranging function hold great promise for treating disease, but immune surveillance of these macromolecules can drive an antidrug immune response that compromises efficacy and even undermines safety. To eliminate widespread T-cell epitopes in any biotherapeutic and thereby mitigate this key source of detrimental immune recognition, we developed a Pareto optimal deimmunization library design algorithm that optimizes protein libraries to account for the simultaneous effects of combinations of mutations on both molecular function and epitope content. Active variants identified by high-throughput screening are thus inherently likely to be deimmunized. Functional screening of an optimized 10-site library (1,536 variants) of P99 beta-lactamase (P99 beta L), a component of ADEPT cancer therapies, revealed that the population possessed high overall fitness, and comprehensive analysis of peptide-MHC II immunoreactivity showed the population possessed lower average immunogenic potential than the wild-type enzyme. Although similar functional screening of an optimized 30-site library (2.15 x 10(9) variants) revealed reduced population-wide fitness, numerous individual variants were found to have activity and stability better than the wild type despite bearing 13 or more deimmunizing mutations per enzyme. The immunogenic potential of one highly active and stable 14-mutation variant was assessed further using ex vivo cellular immunoassays, and the variant was found to silence T-cell activation in seven of the eight blood donors who responded strongly to wild-type P99 beta L. In summary, our multiobjective library-design process readily identified large and mutually compatible sets of epitope-deleting mutations and produced highly active but aggressively deimmunized constructs in only one round of library screening.

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《Proceedings of the National Academy of Sciences of the United States of America.》 |2017年第26期|E5085-E5093|共9页
作者
Salvat Regina S.; Verma Deeptak; Parker Andrew S.Kirsch Jack R.Brooks Seth A.Bailey-Kellogg ChrisGriswold Karl E.;
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作者单位

Dartmouth Coll, Thayer Sch Engn, Hanover, NH 03755 USA;

Dartmouth Coll, Dept Comp Sci, Hanover, NH 03755 USA;

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收录信息美国《科学引文索引》(SCI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种英语
中图分类自然科学总论;
关键词
deimmunization; computational protein design; immunogenicity; T-cell epitope; combinatorial library;

Computationally optimized deimmunization libraries yield highly mutated enzymes with low immunogenicity and enhanced activity

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