Cell Reports (Aug 2023)

ASCL1 is activated downstream of the ROR2/CREB signaling pathway to support lineage plasticity in prostate cancer

  • Nakisa Tabrizian,
  • Shaghayegh Nouruzi,
  • Cassandra Jingjing Cui,
  • Maxim Kobelev,
  • Takeshi Namekawa,
  • Ishana Lodhia,
  • Amina Talal,
  • Olena Sivak,
  • Dwaipayan Ganguli,
  • Amina Zoubeidi

Journal volume & issue
Vol. 42, no. 8
p. 112937

Abstract

Read online

Summary: Lineage plasticity is a form of therapy-induced drug resistance. In prostate cancer, androgen receptor (AR) pathway inhibitors potentially lead to the accretion of tumor relapse with loss of AR signaling and a shift from a luminal state to an alternate program. However, the molecular and signaling mechanisms orchestrating the development of lineage plasticity under the pressure of AR-targeted therapies are not fully understood. Here, a survey of receptor tyrosine kinases (RTKs) identifies ROR2 as the top upregulated RTK following AR pathway inhibition, which feeds into lineage plasticity by promoting stem-cell-like and neuronal networks. Mechanistically, ROR2 activates the ERK/CREB signaling pathway to modulate the expression of the lineage commitment transcription factor ASCL1. Collectively, our findings nominate ROR2 as a potential therapeutic target to reverse the ENZ-induced plastic phenotype and potentially re-sensitize tumors to AR pathway inhibitors.

Keywords