The long noncoding RNA H19 regulates tumor plasticity in neuroendocrine prostate cancer

Neha Singh; Varune Rohan Ramnarine; Jin H. Song; Ritu Pandey; Sathish K.R. Padi; Mannan Nouri; Virginie Olive; Maxim Kobelev; Kōichi Okumura; David McCarthy; Michelle M. Hanna; Piali Mukherjee; Belinda Sun; Benjamin R. Lee; J. Brandon Parker; Debabrata Chakravarti; Noel A. Warfel; Muhan Zhou; Jeremiah J. Bearss; Ewan A. Gibb; Mohammed Alshalalfa; R. Karnes; Eric J. Small; Rahul Aggarwal; Felix Y. Feng; Yuzhuo Wang; Ralph Buttyan; Amina Zoubeidi; Mark A. Rubin; Martin Gleave; Frank J. Slack; Elai Davicioni; Himisha Beltran; Colin C. Collins; Andrew S. Kraft

doi:10.1038/s41467-021-26901-9

The long noncoding RNA H19 regulates tumor plasticity in neuroendocrine prostate cancer

Neha Singh(University of Arizona), Varune Rohan Ramnarine(Harvard University), Jin H. Song(University of Arizona), Ritu Pandey(University of Arizona), Sathish K.R. Padi(University of Arizona), Mannan Nouri(University of British Columbia), Virginie Olive(University of Arizona), Maxim Kobelev(University of British Columbia), Kōichi Okumura(University of Arizona), David McCarthy, Michelle M. Hanna, Piali Mukherjee(Cornell University), Belinda Sun(University of Arizona), Benjamin R. Lee(University of Arizona), J. Brandon Parker(Northwestern University), Debabrata Chakravarti(Northwestern University), Noel A. Warfel(University of Arizona), Muhan Zhou(University of Arizona), Jeremiah J. Bearss(University of Arizona), Ewan A. Gibb(Decipher Biosciences (Canada)), Mohammed Alshalalfa(University of California, San Francisco), R. Karnes(Mayo Clinic), Eric J. Small(University of California, San Francisco), Rahul Aggarwal(University of California, San Francisco), Felix Y. Feng(University of California, San Francisco), Yuzhuo Wang(University of British Columbia), Ralph Buttyan(University of British Columbia), Amina Zoubeidi(University of British Columbia), Mark A. Rubin(University of Bern), Martin Gleave(University of British Columbia), Frank J. Slack(Harvard University), Elai Davicioni(Decipher Biosciences (Canada)), Himisha Beltran(Dana-Farber Cancer Institute), Colin C. Collins(University of British Columbia Hospital), Andrew S. Kraft(University of Arizona)

Nature Communications

December 21, 2021

10.1038/s41467-021-26901-9

Cited by 104Open Access

Full Text

Abstract

Neuroendocrine (NE) prostate cancer (NEPC) is a lethal subtype of castration-resistant prostate cancer (PCa) arising either de novo or from transdifferentiated prostate adenocarcinoma following androgen deprivation therapy (ADT). Extensive computational analysis has identified a high degree of association between the long noncoding RNA (lncRNA) H19 and NEPC, with the longest isoform highly expressed in NEPC. H19 regulates PCa lineage plasticity by driving a bidirectional cell identity of NE phenotype (H19 overexpression) or luminal phenotype (H19 knockdown). It contributes to treatment resistance, with the knockdown of H19 re-sensitizing PCa to ADT. It is also essential for the proliferation and invasion of NEPC. H19 levels are negatively regulated by androgen signaling via androgen receptor (AR). When androgen is absent SOX2 levels increase, driving H19 transcription and facilitating transdifferentiation. H19 facilitates the PRC2 complex in regulating methylation changes at H3K27me3/H3K4me3 histone sites of AR-driven and NEPC-related genes. Additionally, this lncRNA induces alterations in genome-wide DNA methylation on CpG sites, further regulating genes associated with the NEPC phenotype. Our clinical data identify H19 as a candidate diagnostic marker and predictive marker of NEPC with elevated H19 levels associated with an increased probability of biochemical recurrence and metastatic disease in patients receiving ADT. Here we report H19 as an early upstream regulator of cell fate, plasticity, and treatment resistance in NEPC that can reverse/transform cells to a treatable form of PCa once therapeutically deactivated.

Related Papers

No related papers found

Powered by citation graph analysis