Pseudo-Isolated α‑Helix Platform for the Recognition of Deep and Narrow Targets
Although interest in stabilized α-helical peptides as next-generation therapeutics for modulating biomolecular interfaces is increasing, peptides have limited functionality and stability due to their small size. In comparison, α-helical ligands based on proteins can make steric clash with targets du...
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Veröffentlicht in: | Journal of the American Chemical Society 2022-08, Vol.144 (34), p.15519-15528 |
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creator | Kim, Dong-in Han, So-hee Park, Hahnbeom Choi, Sehwan Kaur, Mandeep Hwang, Euimin Han, Seong-jae Ryu, Jung-yeon Cheong, Hae-Kap Barnwal, Ravi Pratap Lim, Yong-beom |
description | Although interest in stabilized α-helical peptides as next-generation therapeutics for modulating biomolecular interfaces is increasing, peptides have limited functionality and stability due to their small size. In comparison, α-helical ligands based on proteins can make steric clash with targets due to their large size. Here, we report the design of a monomeric pseudo-isolated α-helix (mPIH) system in which proteins behave as if they are peptides. The designed proteins contain α-helix ligands that do not require any covalent chemical modification, do not have frayed ends, and importantly can make sterically favorable interactions similar to isolated peptides. An optimal mPIH showed a more than 100-fold increase in target selectivity, which might be related to the advantages in conformational selection due to the absence of frayed ends. The α-helical ligand in the mPIH displayed high thermal stability well above human body temperature and showed reversible and rapid folding/unfolding transitions. Thus, mPIH can become a promising protein-based platform for developing stabilized α-helix pharmaceuticals. |
doi_str_mv | 10.1021/jacs.2c03858 |
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In comparison, α-helical ligands based on proteins can make steric clash with targets due to their large size. Here, we report the design of a monomeric pseudo-isolated α-helix (mPIH) system in which proteins behave as if they are peptides. The designed proteins contain α-helix ligands that do not require any covalent chemical modification, do not have frayed ends, and importantly can make sterically favorable interactions similar to isolated peptides. An optimal mPIH showed a more than 100-fold increase in target selectivity, which might be related to the advantages in conformational selection due to the absence of frayed ends. The α-helical ligand in the mPIH displayed high thermal stability well above human body temperature and showed reversible and rapid folding/unfolding transitions. 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Am. Chem. Soc</addtitle><date>2022-08-31</date><risdate>2022</risdate><volume>144</volume><issue>34</issue><spage>15519</spage><epage>15528</epage><pages>15519-15528</pages><issn>0002-7863</issn><eissn>1520-5126</eissn><abstract>Although interest in stabilized α-helical peptides as next-generation therapeutics for modulating biomolecular interfaces is increasing, peptides have limited functionality and stability due to their small size. In comparison, α-helical ligands based on proteins can make steric clash with targets due to their large size. Here, we report the design of a monomeric pseudo-isolated α-helix (mPIH) system in which proteins behave as if they are peptides. The designed proteins contain α-helix ligands that do not require any covalent chemical modification, do not have frayed ends, and importantly can make sterically favorable interactions similar to isolated peptides. 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title | Pseudo-Isolated α‑Helix Platform for the Recognition of Deep and Narrow Targets |
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