Li Yu1, Jie Xie1, Xiaoming Liu2, Yan Yu1, Siping Wang3. 1. Department of Health Medicine, Second Medical Center of Chinese PLA General Hospital, No.28, Fuxing Road, Beijing, 100853, China. 2. Key Laboratory of Animal Ecology and Conservation Biology, Institute of Zoology, Chinese Academy of Sciences, Beijing, China. 3. Department of Health Medicine, Second Medical Center of Chinese PLA General Hospital, No.28, Fuxing Road, Beijing, 100853, China. wpgfeq@163.com.
Abstract
BACKGROUND: Exosome-mediated transfer of circular RNAs (circRNAs) is related to gastric cancer (GC) development. CircRNA NIMA-related kinase 9 (circNEK9; hsa_circ_0032683) was reported to be up-regulated in GC. AIMS: The biological role of circNEK9 and its underlying mechanisms in GC progression were explored. METHODS: The levels of RNAs and proteins were determined by quantitative real-time polymerase chain reaction (qRT-PCR) and Western blot assay. Cell proliferation was assessed by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay, colony formation assay, and flow cytometry. Wound healing assay and transwell assays were conducted to analyze cell motility. Intermolecular interaction was verified by dual-luciferase reporter assay and RNA pull-down assay. Animal experiments were used to evaluate the role of circNEK9 in the growth of xenograft tumors in vivo. RESULTS: CircNEK9 was up-regulated in GC tissues and cell lines. CircNEK9 interference suppressed the proliferation and motility of GC cells. CircNEK9 silencing enhanced microRNA-409-3p (miR-409-3p) level through direct interaction. CircNEK9 silencing-mediated influences on the proliferation and metastasis of GC cells were partly overturned by the interference of miR-409-3p. MiR-409-3p directly interacted with microtubule-associated protein 7 (MAP7) messenger RNA (mRNA). MiR-409-3p-induced effects in GC cells were largely counteracted by the overexpression of MAP7. CircNEK9 silencing blocked GC tumor growth in vivo. Exosome-mediated transfer of circNEK9 promoted the motility of recipient GC cells. CONCLUSIONS: CircNEK9 accelerated the proliferation, migration, and invasion of GC cells through targeting miR-409-3p/MAP7 axis. Plasma exosomal circNEK9 promoted the migration and invasion of recipient GC cells.
BACKGROUND: Exosome-mediated transfer of circular RNAs (circRNAs) is related to gastric cancer (GC) development. CircRNA NIMA-related kinase 9 (circNEK9; hsa_circ_0032683) was reported to be up-regulated in GC. AIMS: The biological role of circNEK9 and its underlying mechanisms in GC progression were explored. METHODS: The levels of RNAs and proteins were determined by quantitative real-time polymerase chain reaction (qRT-PCR) and Western blot assay. Cell proliferation was assessed by 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay, colony formation assay, and flow cytometry. Wound healing assay and transwell assays were conducted to analyze cell motility. Intermolecular interaction was verified by dual-luciferase reporter assay and RNA pull-down assay. Animal experiments were used to evaluate the role of circNEK9 in the growth of xenograft tumors in vivo. RESULTS: CircNEK9 was up-regulated in GC tissues and cell lines. CircNEK9 interference suppressed the proliferation and motility of GC cells. CircNEK9 silencing enhanced microRNA-409-3p (miR-409-3p) level through direct interaction. CircNEK9 silencing-mediated influences on the proliferation and metastasis of GC cells were partly overturned by the interference of miR-409-3p. MiR-409-3p directly interacted with microtubule-associated protein 7 (MAP7) messenger RNA (mRNA). MiR-409-3p-induced effects in GC cells were largely counteracted by the overexpression of MAP7. CircNEK9 silencing blocked GC tumor growth in vivo. Exosome-mediated transfer of circNEK9 promoted the motility of recipient GC cells. CONCLUSIONS: CircNEK9 accelerated the proliferation, migration, and invasion of GC cells through targeting miR-409-3p/MAP7 axis. Plasma exosomal circNEK9 promoted the migration and invasion of recipient GC cells.
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