MicroRNA-like snoRNA-Derived RNAs (sdRNAs) Promote Castration-Resistant Prostate Cancer.
Alexander B ColeyAshlyn N StahlyMohan V KasukurthiAddison A BarchieSam B HutchesonDominika HouserovaYulong HuangBrianna C WattersValeria M KingMeghan A DeanJustin T RobertsJeffrey D DeMeisKrisha V AminCameron H McInnisNoel L GodangRyan M WrightDavid F HaiderNeha B PirachaCana L BrownZohaib M IjazShengyu LiYaguang XiOliver G McDonaldJingshan HuangGlen Mark BorchertPublished in: Cells (2022)
We have identified 38 specifically excised, differentially expressed snoRNA fragments (sdRNAs) in TCGA prostate cancer (PCa) patient samples as compared to normal prostate controls. SnoRNA-derived fragments sdRNA-D19b and -A24 emerged among the most differentially expressed and were selected for further experimentation. We found that the overexpression of either sdRNA significantly increased PC3 (a well-established model of castration-resistant prostate cancer (CRPC)) cell proliferation, and that sdRNA-D19b overexpression also markedly increased the rate of PC3 cell migration. In addition, both sdRNAs provided drug-specific resistances with sdRNA-D19b levels correlating with paclitaxel resistance and sdRNA-24A conferring dasatinib resistance. In silico and in vitro analyses revealed that two established PCa tumor suppressor genes, CD44 and CDK12, represent targets for sdRNA-D19b and sdRNA-A24, respectively. This outlines a biologically coherent mechanism by which sdRNAs downregulate tumor suppressors in AR-PCa to enhance proliferative and metastatic capabilities and to encourage chemotherapeutic resistance. Aggressive proliferation, rampant metastasis, and recalcitrance to chemotherapy are core characteristics of CRPC that synergize to produce a pathology that ranks second in cancer-related deaths for men. This study defines sdRNA-D19b and -A24 as contributors to AR-PCa, potentially providing novel biomarkers and therapeutic targets of use in PCa clinical intervention.
Keyphrases
- prostate cancer
- cell proliferation
- cell migration
- cell cycle
- radical prostatectomy
- randomized controlled trial
- small cell lung cancer
- squamous cell carcinoma
- transcription factor
- signaling pathway
- genome wide
- emergency department
- molecular docking
- case report
- single cell
- pi k akt
- locally advanced
- radiation therapy
- dna methylation