Neoplasia: An International Journal for Oncology Research (Nov 2024)

Non-canonical olfactory pathway activation induces cell fusion of cervical cancer cells

  • Keigo Araki,
  • Takeru Torii,
  • Kohei Takeuchi,
  • Natsuki Kinoshita,
  • Ryoto Urano,
  • Rinka Nakajima,
  • Yaxuan Zhou,
  • Tokuo Kobayashi,
  • Tadayoshi Hanyu,
  • Kiyoshi Ohtani,
  • Kimiharu Ambe,
  • Keiko Kawauchi

Journal volume & issue
Vol. 57
p. 101044

Abstract

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Multinucleation occurs in various types of advanced cancers and contributes to their malignant characteristics, including anticancer drug resistance. Therefore, inhibiting multinucleation can improve cancer prognosis; however, the molecular mechanisms underlying multinucleation remain elusive. Here, we introduced a genetic mutation in cervical cancer cells to induce cell fusion-mediated multinucleation. The olfactory receptor OR1N2 was heterozygously mutated in these fused cells; the same OR1N2 mutation was detected in multinucleated cells from clinical cervical cancer specimens. The mutation-induced structural change in the OR1N2 protein activated protein kinase A (PKA), which, in turn, mediated the non-canonical olfactory pathway. PKA phosphorylated and activated furin protease, resulting in the cleavage of the fusogenic protein syncytin-1. Because this cleaved form of syncytin-1, processed by furin, participates in cell fusion, furin inhibitors could suppress multinucleation and reduce surviving cell numbers after anticancer drug treatment. The improved anticancer drug efficacy indicates a promising therapeutic approach for advanced cervical cancers.

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