Journal
CELLULAR & MOLECULAR BIOLOGY LETTERS
Volume 27, Issue 1, Pages -Publisher
BMC
DOI: 10.1186/s11658-022-00313-z
Keywords
Prostate cancer; SNHG3; miR-152-3p; Methionine dependence
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In recent years, the morbidity and mortality of prostate cancer have increased dramatically, while the understanding of its onset and progression remains limited. In this study, it was discovered that SNHG3 acts as a molecular sponge and stimulates proliferation, migration, and invasion of prostate cancer cells by targeting SLC7A11. It also inhibits methionine dependence and apoptosis and affects the cell cycle. These findings provide new insights into the molecular mechanism of SNHG3 in regulating prostate cancer progression.
In recent years, morbidity and mortality of prostate cancer (PCa) have increased dramatically, while mechanistic understanding of its onset and progression remains unmet. LncRNA SNHG3 has been proved to stimulate malignant progression of multiple cancers, whereas its functional mechanism in PCa needs to be deciphered. In this study, our analysis in the TCGA database revealed high SNHG3 expression in PCa tissue. Further analysis in starBase, TargetScan, and mirDIP databases identified the SNHG3/miR-152-3p/SLC7A11 regulatory axis. FISH was conducted to assess the distribution of SNHG3 in PCa tissue. Dual-luciferase reporter gene and RIP assays confirmed the relationship among the three objects. Next, qRT-PCR and western blot were conducted to measure expression levels of SNHG3, miR-152-3p, and SLC7A11. CCK-8, colony formation, Transwell, and flow cytometry were carried out to assess proliferation, migration, invasion, methionine dependence, apoptosis, and the cell cycle. It was noted that SNHG3 as a molecular sponge of miR-152-3p stimulated proliferation, migration, and invasion, restrained methionine dependence and apoptosis, and affected the cell cycle of PCa cells via targeting SLC7A11. Additionally, we constructed xenograft tumor models in nude mice and confirmed that knockdown of SNHG3 could restrain PCa tumor growth and elevate methionine dependence in vivo. In conclusion, our investigation improved understanding of the molecular mechanism of SNHG3 modulating PCa progression, thereby generating novel insights into clinical therapy for PCa.
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