Development of Orally Bioavailable Peptides Targeting an Intracellular Protein: From a Hit to a Clinical KRAS Inhibitor

  • J Am Chem Soc. 2023 Aug 2;145(30):16610-16620. doi: 10.1021/jacs.3c03886.
Mikimasa Tanada  1 Minoru Tamiya  1 Atsushi Matsuo  1 Aya Chiyoda  1 Koji Takano  1 Toshiya Ito  1 Machiko Irie  1 Tomoya Kotake  1 Ryuuichi Takeyama  1 Hatsuo Kawada  1 Ryuji Hayashi  1 Shiho Ishikawa  1 Kenichi Nomura  1 Noriyuki Furuichi  1 Yuya Morita  1 Mirai Kage  1 Satoshi Hashimoto  1 Keiji Nii  1 Hitoshi Sase  1 Kazuhiro Ohara  1 Atsushi Ohta  1 Shino Kuramoto  1 Yoshikazu Nishimura  1 Hitoshi Iikura  1 Takuya Shiraishi  1
Affiliations
  • 1. Research Division, Chugai Pharmaceutical Co. Ltd., 216, Totsuka-cho, Totsuka-ku, Yokohama, Kanagawa 244-8602, Japan.
Abstract

Cyclic peptides as a therapeutic modality are attracting a lot of attention due to their potential for oral absorption and accessibility to intracellular tough targets. Here, starting with a drug-like hit discovered using an mRNA display library, we describe a chemical optimization that led to the orally available clinical compound known as LUNA18, an 11-mer cyclic peptide inhibitor for the intracellular tough target Ras. The key findings are as follows: (i) two peptide side chains were identified that each increase Ras affinity over 10-fold; (ii) physico-chemical properties (PCP) including Clog P can be adjusted by side-chain modification to increase membrane permeability; (iii) restriction of cyclic peptide conformation works effectively to adjust PCP and improve bio-activity; (iv) cellular efficacy was observed in peptides with a permeability of around 0.4 × 10-6 cm/s or more in a Caco-2 permeability assay; and (v) while keeping the cyclic peptide's main-chain conformation, we found one example where the Ras protein structure was changed dramatically through induced-fit to our peptide side chain. This study demonstrates how the chemical optimization of bio-active peptides can be achieved without scaffold hopping, much like the processes for small molecule drug discovery that are guided by Lipinski's rule of five. Our approach provides a versatile new strategy for generating peptide drugs starting from drug-like hits.

Products
  • Cat. No.
    Product Name
    Description
    Target
    Research Area
  • 99.76%, KRAS Inhibitor, ERK Inhibitor, RAS Inhibitor
    target: Ras; ERK
    Research Areas: Cancer