The long noncoding RNA landscape of neuroendocrine prostate cancer and its clinical implications

Ramnarine, Varune Rohan; Alshalalfa, Mohammed; Mo, Fan; Nabavi, Noushin; Erho, Nicholas; Takhar, Mandeep; Shukin, Robert; Brahmbhatt, Sonal; Gawronski, Alexander; Kobelev, Maxim; Nouri, Mannan; Lin, Dong; Tsai, Harrison; Lotan, Tamara L.; Karnes, R.; Rubin, Mark A.; Zoubeidi, Amina; Gleave, Martin; Sahinalp, Cenk; Wyatt, Alexander W.; Volik, Stanislav V.; Beltran, Himisha; Davicioni, Elai; Wang, Yuzhuo; Collins, Colin C.

doi:10.1093/gigascience/giy050

Cited by 60 publications

(62 citation statements)

References 170 publications

(214 reference statements)

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“…Whole‐transcriptome datasets of Beltran 2011, Beltran 2016, and VPC 2018 patient cohorts, LTL PDX models, and LnNE RNA‐sequenced datasets were analyzed to determine the expression of GIT1 splice variants in the various prostate cancer models. The software Integrative Genomics Viewer was used to visualize the coverage of RNA‐seq reads corresponding to the GIT1 gene.…”

Section: Resultsmentioning

confidence: 99%

“…Currently, there are no commercially available GIT1 antibodies to specifically detect each splice variant. As a result, we used RISH, a well‐established alternative technique, on a TMA to study and confirm the expression of GIT1‐A and GIT1‐C . We created probes to target the unique exon 7/8 junction of GIT1‐A , as well as the exon 7/9 junction of GIT1‐C , to detect RNA expression levels on the TMA.…”

Section: Resultsmentioning

confidence: 99%

“…Human CRPC TMA contains 64 cores: 52 AdPC, six AdNC, and six SCNC. Details of these prostate cancer subtype classifications have been previously published by our group . Briefly, AdPC is classified by the presence of glandular structures, large cells with a prominent nucleolus, and no NE cells.…”

Section: Resultsmentioning

confidence: 99%

“…RNA‐seq datasets from the Beltran 2011, Beltran 2016, and Vancouver Prostate Centre (VPC) 2018 clinical cohorts were used. Cohort composition for the Beltran 2011, Beltran 2016, and VPC 2018 was seven NEPC and 30 AdPC, 15 NEPC and 34 CRPC‐Ad, and five NEPC and 24 AdPC, respectively.…”

Section: Methodsmentioning

confidence: 99%

“…Red dots indicate positive RISH signals under 10× and 40× magnification. IHC assays on the CRPC TMA and scoring methods for RISH or IHC were carried out, as previously described . Briefly, RISH scores of 0, 1, and 2 indicate no positive signal, ≤20% positive signal, and >20% positive signal of cells within a tissue core, respectively.…”

Section: Methodsmentioning

confidence: 99%

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Alternative RNA splicing of the GIT1 gene is associated with neuroendocrine prostate cancer

et al. 2018

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Potent androgen receptor pathway inhibition (ARPI) therapies have given rise to a lethal, aggressive subtype of castration‐resistant prostate cancer (CRPC) called treatment‐induced neuroendocrine prostate cancer (t‐NEPC). Now, t‐NEPC poses a major clinical problem as approximately 20% of CRPC cases bear this subtype—a rate of occurrence that is predicted to rise with the widespread use of ARPI therapies. Unfortunately, there are no targeted therapies currently available to treat t‐NEPC as the origin and molecular underpinnings of t‐NEPC development remain unclear. In the present study, we identify that RNA splicing of the G protein‐coupled receptor kinase‐interacting protein 1 (GIT1) gene is a unique event in t‐NEPC patients. Specifically, upregulation of the GIT1‐A splice variant and downregulation of the GIT1‐C variant expressions are associated with t‐NEPC patient tumors, patient‐derived xenografts, and cell models. RNA‐binding assays show that RNA splicing of GIT1 is directly driven by SRRM4 and is associated with the neuroendocrine phenotype in CRPC cohorts. We show that GIT1‐A and GIT1‐C regulate differential transcriptomes in prostate cancer cells, where GIT1‐A regulates genes associated with morphogenesis, neural function, environmental sensing via cell‐adhesion processes, and epigenetic regulation. Consistent with our transcriptomic analyses, we report opposing functions of GIT1‐A and GIT1‐C in the stability of focal adhesions, whereby GIT1‐A promotes focal adhesion stability. In summary, our study is the first to report that alternative RNA splicing of the GIT1 gene is associated with t‐NEPC and reprograms its function involving FA‐mediated signaling and cell processes, which may contribute to t‐NEPC development.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

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Alternative RNA splicing of the GIT1 gene is associated with neuroendocrine prostate cancer

et al. 2018

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PIM protein kinases regulate the level of the long noncoding RNA H19 to control stem cell gene transcription and modulate tumor growth

et al. 2020

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The proviral integration site for Moloney murine leukemia virus (PIM) serine/threonine kinases have an oncogenic and prosurvival role in hematological and solid cancers. However, the mechanism by which these kinases drive tumor growth has not been completely elucidated. To determine the genes controlled by these protein kinases, we carried out a microarray analysis in T‐cell acute lymphoblastic leukemia (T‐ALL) comparing early progenitor (ETP‐ALL) cell lines whose growth is driven by PIM kinases to more mature T‐ALL cells that have low PIM levels. This analysis demonstrated that the long noncoding RNA (lncRNA) H19 was associated with increased PIM levels in ETP‐ALL. Overexpression or knockdown of PIM in these T‐ALL cell lines controlled the level of H19 and regulated the methylation of the H19 promoter, suggesting a mechanism by which PIM controls H19 transcription. In these T‐ALL cells, the expression of PIM1 induced stem cell gene expression (SOX2, OCT‐4, and NANOG) through H19. Identical results were found in prostate cancer (PCa) cell lines where PIM kinases drive cancer growth, and both H19 and stem cell gene levels. Small molecule pan‐PIM inhibitors (PIM‐i) currently in clinical trials reduced H19 expression in both of these tumor types. Importantly, the knockdown of H19 blocked the ability of PIM to induce stem cell genes in T‐ALL cells, suggesting a novel signal transduction cascade. In PCa, increases in SOX2 levels have been shown to cause both resistance to the androgen deprivation therapy (ADT) and the induction of neuroendocrine PCa, a highly metastatic form of this disease. Treatment of PCa cells with a small molecule pan‐PIM‐i reduced stem cell gene transcription and enhanced ADT, while overexpression of H19 suppressed the ability of pan‐PIM‐i to regulate hormone blockade. Together, these results demonstrate that the PIM kinases control the level of lncRNA H19, which in turn modifies stem cell gene transcription regulating tumor growth.

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The evolutionarily conserved long non‐coding RNA LINC00261 drives neuroendocrine prostate cancer proliferation and metastasis via distinct nuclear and cytoplasmic mechanisms

et al. 2021

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Metastatic neuroendocrine prostate cancer (NEPC) is a highly aggressive disease, whose incidence is rising. Long noncoding RNAs (lncRNAs) represent a large family of disease-and tissue-specific transcripts, most of which are still functionally uncharacterized. Thus, we set out to identify the highly conserved lncRNAs that play a central role in NEPC pathogenesis. To this end, we performed transcriptomic analyses of donor-matched patient-derived xenograft models (PDXs) with immunohistologic features of prostate adenocarcinoma (AR + /PSA + ) or NEPC (AR À /SYN + /CHGA + ) and through differential expression analyses identified lncRNAs that were upregulated upon neuroendocrine transdifferentiation. These genes were prioritized for functional assessment based on the level of conservation in vertebrates. Here, LINC00261 emerged as the top gene with over 3229-fold upregulation in NEPC. Consistently, LINC00261 expression was significantly upregulated in NEPC specimens in multiple patient cohorts. Knockdown of LINC00261 in PC-3 cells dramatically attenuated its proliferative and metastatic abilities, which are explained by parallel downregulation of CBX2 and FOXA2 through distinct molecular mechanisms. In the cell

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The long noncoding RNA landscape of neuroendocrine prostate cancer and its clinical implications

Cited by 60 publications

References 170 publications

Alternative RNA splicing of the GIT1 gene is associated with neuroendocrine prostate cancer

Alternative RNA splicing of the GIT1 gene is associated with neuroendocrine prostate cancer

PIM protein kinases regulate the level of the long noncoding RNA H19 to control stem cell gene transcription and modulate tumor growth

The evolutionarily conserved long non‐coding RNA LINC00261 drives neuroendocrine prostate cancer proliferation and metastasis via distinct nuclear and cytoplasmic mechanisms

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