2024年 新着論文 42 分子生命科学分野から論文が発表されました

Redox-active chemical chaperones exhibiting promiscuous binding promote oxidative protein folding under condensed sub-millimolar conditions

Chem Sci. 2024 Jul 29;15(32):12676-12685. doi: 10.1039/d4sc02123a. eCollection 2024 Aug 14.

Authors

Koki Suzuki  1 Ryoya Nojiri  1 Motonori Matsusaki  2 Takuya Mabuchi  3   4 Shingo Kanemura  3 Kotone Ishii  3 Hiroyuki Kumeta  5 Masaki Okumura  3 Tomohide Saio  2 Takahiro Muraoka  1   6

Affiliations

  • 1 Department of Applied Chemistry, Graduate School of Engineering, Tokyo University of Agriculture and Technology Koganei Tokyo 184-8588 Japan muraoka@go.tuat.ac.jp.
  • 2 Division of Molecular Life Science, Institute of Advanced Medical Sciences, Tokushima University Tokushima 770-8503 Japan saio@tokushima-u.ac.jp.
  • 3 Frontier Research Institute for Interdisciplinary Sciences, Tohoku University Sendai Miyagi 980-8578 Japan okmasaki@tohoku.ac.jp.
  • 4 Institute of Fluid Science, Tohoku University Sendai Miyagi 980-8577 Japan.
  • 5 Faculty of Advanced Life Science, Hokkaido University Sapporo Hokkaido 060-0810 Japan.
  • 6 Kanagawa Institute of Industrial Science and Technology (KISTEC) Kanagawa 243-0435 Japan.

Abstract

Proteins form native structures through folding processes, many of which proceed through intramolecular hydrophobic effect, hydrogen bond and disulfide-bond formation. In vivo, protein aggregation is prevented even in the highly condensed milieu of a cell through folding mediated by molecular chaperones and oxidative enzymes. Chemical approaches to date have not replicated such exquisite mediation. Oxidoreductases efficiently promote folding by the cooperative effects of oxidative reactivity for disulfide-bond formation in the client unfolded protein and chaperone activity to mitigate aggregation. Conventional synthetic folding promotors mimic the redox-reactivity of thiol/disulfide units but do not address client-recognition units for inhibiting aggregation. Herein, we report thiol/disulfide compounds containing client-recognition units, which act as synthetic oxidoreductase-mimics. For example, compound βCDWSH/SS bears a thiol/disulfide unit at the wide rim of β-cyclodextrin as a client recognition unit. βCDWSH/SS shows promiscuous binding to client proteins, mitigates protein aggregation, and accelerates disulfide-bond formation. In contrast, positioning a thiol/disulfide unit at the narrow rim of β-cyclodextrin promotes folding less effectively through preferential interactions at specific residues, resulting in aggregation. The combination of promiscuous client-binding and redox reactivity is effective for the design of synthetic folding promoters. βCDWSH/SS accelerates oxidative protein folding at highly condensed sub-millimolar protein concentrations.

Conflict of interest statement

There are no conflicts to declare.