Minor Intron Splicing is Critical for Survival of Lethal Prostate Cancer

Overview

Journal Mol Cell

Publisher Cell Press

Specialty Cell Biology

Date 2023 Jun 9

PMID 37295433

Authors

Anke Augspach

Kyle D Drake

Luca Roma

Ellen Qian

Se Ri Lee

Declan Clarke

Sushant Kumar

Muriel Jaquet

John Gallon

Marco Bolis

Joanna Triscott

Jose A Galvan

Yu Chen

George N Thalmann

Marianna Kruithof-de Julio

Jean-Philippe P Theurillat

Stefan Wuchty

Mark Gerstein

Salvatore Piscuoglio

Rahul N Kanadia

Mark A Rubin

Affiliations

Soon will be listed here.

Abstract

The evolutionarily conserved minor spliceosome (MiS) is required for protein expression of ∼714 minor intron-containing genes (MIGs) crucial for cell-cycle regulation, DNA repair, and MAP-kinase signaling. We explored the role of MIGs and MiS in cancer, taking prostate cancer (PCa) as an exemplar. Both androgen receptor signaling and elevated levels of U6atac, a MiS small nuclear RNA, regulate MiS activity, which is highest in advanced metastatic PCa. siU6atac-mediated MiS inhibition in PCa in vitro model systems resulted in aberrant minor intron splicing leading to cell-cycle G1 arrest. Small interfering RNA knocking down U6atac was ∼50% more efficient in lowering tumor burden in models of advanced therapy-resistant PCa compared with standard antiandrogen therapy. In lethal PCa, siU6atac disrupted the splicing of a crucial lineage dependency factor, the RE1-silencing factor (REST). Taken together, we have nominated MiS as a vulnerability for lethal PCa and potentially other cancers.

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