DLiP-PPI library: An integrated chemical database of small-to-medium-sized molecules targeting protein-protein interactions

Kazuyoshi Ikeda; Yuta Maezawa; Tomoki Yonezawa; Yugo Shimizu; Toshiyuki Tashiro; Satoru Kanai; Nobuyoshi Sugaya; Yoshiaki Masuda; Naoko Inoue; Tatsuya Niimi; Keiichi Masuya; Kenji Mizuguchi; Toshio Furuya; Masanori Osawa

doi:10.3389/fchem.2022.1090643

DLiP-PPI library: An integrated chemical database of small-to-medium-sized molecules targeting protein-protein interactions

Front Chem. 2023 Jan 9:10:1090643. doi: 10.3389/fchem.2022.1090643. eCollection 2022.

Authors

Kazuyoshi Ikeda^{1

2}, Yuta Maezawa³, Tomoki Yonezawa², Yugo Shimizu², Toshiyuki Tashiro⁴, Satoru Kanai⁵, Nobuyoshi Sugaya⁵, Yoshiaki Masuda⁵, Naoko Inoue⁵, Tatsuya Niimi⁵, Keiichi Masuya⁵, Kenji Mizuguchi^{6

7}, Toshio Furuya⁵, Masanori Osawa²

Affiliations

¹ HPC-and AI-driven Drug Development Platform Division, Center for Computational Science, Yokohama, Kanagawa, Japan.
² Division of Physics for Life Functions, Keio University Faculty of Pharmacy, Tokyo, Japan.
³ Udzuki Inc., Tokyo, Japan.
⁴ Lifematics Co., Ltd., Tokyo, Japan.
⁵ PeptiDream Inc., Chiyoda-Ku, Kanagawa, Japan.
⁶ Artificial Intelligence Center for Health and Biomedical Research, National Institutes of Biomedical Innovation, Health and Nutrition, Osaka, Japan.
⁷ Institute for Protein Research, Osaka University, Osaka, Japan.

Abstract

Protein-protein interactions (PPIs) are recognized as important targets in drug discovery. The characteristics of molecules that inhibit PPIs differ from those of small-molecule compounds. We developed a novel chemical library database system (DLiP) to design PPI inhibitors. A total of 32,647 PPI-related compounds are registered in the DLiP. It contains 15,214 newly synthesized compounds, with molecular weight ranging from 450 to 650, and 17,433 active and inactive compounds registered by extracting and integrating known compound data related to 105 PPI targets from public databases and published literature. Our analysis revealed that the compounds in this database contain unique chemical structures and have physicochemical properties suitable for binding to the protein-protein interface. In addition, advanced functions have been integrated with the web interface, which allows users to search for potential PPI inhibitor compounds based on types of protein-protein interfaces, filter results by drug-likeness indicators important for PPI targeting such as rule-of-4, and display known active and inactive compounds for each PPI target. The DLiP aids the search for new candidate molecules for PPI drug discovery and is available online (https://skb-insilico.com/dlip).

Keywords: PMI; chemical library; database; drug design; physicochemical property; protein–protein interaction (PPI); rule-of-4.

Grants and funding

This study was supported by AMED under Grant Numbers JP19ak0101039h0005 and by Platform Project for Supporting Drug Discovery and Life Science Research [Basis for Supporting Innovative Drug Discovery and Life Science Research (BINDS)] from AMED under Grant Number JP22ama121028.