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. 2025 May;6(5):874-891.
doi: 10.1038/s43018-025-00945-y. Epub 2025 Apr 30.

An organoid library unveils subtype-specific IGF-1 dependency via a YAP-AP1 axis in human small cell lung cancer

Takahiro Fukushima #  1 Kazuhiro Togasaki #  2   3   4 Junko Hamamoto  1 Katsura Emoto  5 Toshiki Ebisudani  1   2 Akifumi Mitsuishi  1 Kai Sugihara  1 Taro Shinozaki  1 Masahiko Okada  1 Ayaka Saito  1 Hatsuyo Takaoka  1 Fumimaro Ito  1 Lisa Shigematsu  1 Yuki Ohta  2   3 Sirirat Takahashi  2   3 Mami Matano  2   3 Yutaka Kurebayashi  5 Keiko Ohgino  1 Takashi Sato  6 Ichiro Kawada  1 Keisuke Asakura  7 Tomoyuki Hishida  7 Hisao Asamura  7 Shinnosuke Ikemura  8 Hideki Terai  1 Kenzo Soejima  8 Mayumi Oda  2   3 Masayuki Fujii  2   3 Koichi Fukunaga  1 Hiroyuki Yasuda  9 Toshiro Sato  10   11
Affiliations

An organoid library unveils subtype-specific IGF-1 dependency via a YAP-AP1 axis in human small cell lung cancer

Takahiro Fukushima et al. Nat Cancer. 2025 May.

Abstract

Small cell lung cancer (SCLC) is a devastating disease with limited therapeutic advancements. Although SCLC has recently been classified into four molecular subtypes, subtype-specific therapies are still lacking. Here, we established 40 patient-derived SCLC organoid lines with predominant TP53 and RB1 alterations and rare targetable genetic lesions. Transcriptome profiling divided the SCLC organoids into neuroendocrine (NE)-type SCLC and non-NE-type SCLC, with the latter characterized by YAP1 or POU2F3 expression. NE-type SCLC organoids grew independent of alveolar niche factors, whereas non-NE-type SCLC organoids relied on insulin-like growth factor (IGF)-1-driven YAP1 and AP1 activation. Therapeutic targeting of IGF-1, YAP1 and AP1 effectively suppressed the growth of non-NE-type organoids. Co-knockout of TP53 and RB1 in human alveolar cells altered their lineage toward the airway epithelium-like fate and conferred IGF-1 dependency, validating the subtype-phenotype connection. Our SCLC organoid library represents a valuable resource for developing biology-based therapies and has the potential to reshape the drug discovery landscape.

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Conflict of interest statement

Competing interests: Toshiro Sato is an inventor on several patents related to organoid culture. All other authors declare no competing interests.

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