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Lenalidomide derivatives and proteolysis-targeting chimeras for controlling neosubstrate degradation

Author

Listed:
  • Satoshi Yamanaka

    (Ehime University
    Ehime University)

  • Hirotake Furihata

    (Ehime University
    The University of Tokyo)

  • Yuta Yanagihara

    (Ehime University)

  • Akihito Taya

    (Nagoya Institute of Technology)

  • Takato Nagasaka

    (Nagoya Institute of Technology)

  • Mai Usui

    (Nagoya Institute of Technology)

  • Koya Nagaoka

    (Ehime University)

  • Yuki Shoya

    (Ehime University)

  • Kohei Nishino

    (Tokushima University)

  • Shuhei Yoshida

    (Ehime University)

  • Hidetaka Kosako

    (Tokushima University)

  • Masaru Tanokura

    (The University of Tokyo)

  • Takuya Miyakawa

    (The University of Tokyo
    Kyoto University)

  • Yuuki Imai

    (Ehime University)

  • Norio Shibata

    (Nagoya Institute of Technology)

  • Tatsuya Sawasaki

    (Ehime University)

Abstract

Lenalidomide, an immunomodulatory drug (IMiD), is commonly used as a first-line therapy in many haematological cancers, such as multiple myeloma (MM) and 5q myelodysplastic syndromes (5q MDS), and it functions as a molecular glue for the protein degradation of neosubstrates by CRL4CRBN. Proteolysis-targeting chimeras (PROTACs) using IMiDs with a target protein binder also induce the degradation of target proteins. The targeted protein degradation (TPD) of neosubstrates is crucial for IMiD therapy. However, current IMiDs and IMiD-based PROTACs also break down neosubstrates involved in embryonic development and disease progression. Here, we show that 6-position modifications of lenalidomide are essential for controlling neosubstrate selectivity; 6-fluoro lenalidomide induced the selective degradation of IKZF1, IKZF3, and CK1α, which are involved in anti-haematological cancer activity, and showed stronger anti-proliferative effects on MM and 5q MDS cell lines than lenalidomide. PROTACs using these lenalidomide derivatives for BET proteins induce the selective degradation of BET proteins with the same neosubstrate selectivity. PROTACs also exert anti-proliferative effects in all examined cell lines. Thus, 6-position-modified lenalidomide is a key molecule for selective TPD using thalidomide derivatives and PROTACs.

Suggested Citation

  • Satoshi Yamanaka & Hirotake Furihata & Yuta Yanagihara & Akihito Taya & Takato Nagasaka & Mai Usui & Koya Nagaoka & Yuki Shoya & Kohei Nishino & Shuhei Yoshida & Hidetaka Kosako & Masaru Tanokura & Ta, 2023. "Lenalidomide derivatives and proteolysis-targeting chimeras for controlling neosubstrate degradation," Nature Communications, Nature, vol. 14(1), pages 1-18, December.
  • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-40385-9
    DOI: 10.1038/s41467-023-40385-9
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    References listed on IDEAS

    as
    1. Hirotake Furihata & Satoshi Yamanaka & Toshiaki Honda & Yumiko Miyauchi & Atsuko Asano & Norio Shibata & Masaru Tanokura & Tatsuya Sawasaki & Takuya Miyakawa, 2020. "Structural bases of IMiD selectivity that emerges by 5-hydroxythalidomide," Nature Communications, Nature, vol. 11(1), pages 1-11, December.
    2. Mary E. Matyskiela & Gang Lu & Takumi Ito & Barbra Pagarigan & Chin-Chun Lu & Karen Miller & Wei Fang & Nai-Yu Wang & Derek Nguyen & Jack Houston & Gilles Carmel & Tam Tran & Mariko Riley & Lyn’Al Nos, 2016. "A novel cereblon modulator recruits GSPT1 to the CRL4CRBN ubiquitin ligase," Nature, Nature, vol. 535(7611), pages 252-257, July.
    3. Eric S. Fischer & Kerstin Böhm & John R. Lydeard & Haidi Yang & Michael B. Stadler & Simone Cavadini & Jane Nagel & Fabrizio Serluca & Vincent Acker & Gondichatnahalli M. Lingaraju & Ritesh B. Tichkul, 2014. "Structure of the DDB1–CRBN E3 ubiquitin ligase in complex with thalidomide," Nature, Nature, vol. 512(7512), pages 49-53, August.
    4. Jian An & Charles M. Ponthier & Ragna Sack & Jan Seebacher & Michael B. Stadler & Katherine A. Donovan & Eric S. Fischer, 2017. "pSILAC mass spectrometry reveals ZFP91 as IMiD-dependent substrate of the CRL4CRBN ubiquitin ligase," Nature Communications, Nature, vol. 8(1), pages 1-11, August.
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