Identification of miR-195-3p as an oncogene in RCC

Jin, Lü; Li, Xi; Li, Yifan; Zeng, Zhen; He, Tao; Hu, Jia; Lü, Jiaju; Chen, Mingwei; Shi, Min; Jiang, Ziyu; Gui, Yaoting; Yang, Shangqi; Mao, Xiangming; Lai, Yongqing

doi:10.3892/mmr.2017.6198

Cited by 14 publications

(9 citation statements)

References 39 publications

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“…They negatively regulate the expression of their target gene by binding to complementary 3′-UTR sequences of target mRNA ( 19 , 47 ). miR-195-3p reportedly associates with renal cell carcinoma tumorigenesis, including cell proliferation, migration and invasion ( 48 ). Reduced miR-195-3p expression is associated with poor overall survival in patients with tongue squamous cell carcinoma ( 49 ), but its effect upon VEGF-C expression is unclear.…”

Section: Discussionmentioning

confidence: 99%

Chemokine CCL4 Induces Vascular Endothelial Growth Factor C Expression and Lymphangiogenesis by miR-195-3p in Oral Squamous Cell Carcinoma

et al. 2018

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The inflammatory chemokine (C–C motif) ligand 4 (CCL4) plays an important role in the pathogenesis and progression of cancer. In particular, higher serum CCL4 levels in patients with oral squamous cell carcinoma (OSCC) are associated with a more advanced stage of disease. OSCC accounts for approximately 95% of oral cancer in Taiwan and has a poor prognosis, due to aggressive local invasion and metastasis, leading to recurrence. OSCC spreads preferentially through lymphatic vessels and has the propensity to metastasize to the cervical lymph nodes even in the early stage of disease. Vascular endothelial growth factor C (VEGF-C) is an essential regulator of lymphangiogenesis. In particular, VEGF-C is specific to lymphatic vessel development, and VEGF-C expression levels have been found to directly correlate with lymph node metastasis in OSCC. However, it is unclear as to whether CCL4 correlates with VEGF-C expression and lymphangiogenesis in OSCC. We found that CCL4 increased VEGF-C expression and promoted lymphangiogenesis in oral cancer cells in vitro and in vivo. miR-195-3p mimic reversed CCL4-enhanced VEGF-C expression. CCL4 stimulation of oral cancer cells augmented JAK2 and STAT3 phosphorylation. Thus, CCL4 may be a new molecular therapeutic target for inhibition of lymphangiogenesis and metastasis in OSCC.

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Section: Discussionmentioning

confidence: 99%

Chemokine CCL4 Induces Vascular Endothelial Growth Factor C Expression and Lymphangiogenesis by miR-195-3p in Oral Squamous Cell Carcinoma

et al. 2018

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“…We have learned from a large number of studies that the occurrence, development and prognosis of RCC are related to multiple miRNAs, in which miRNAs regulate downstream pathways to mediate RCC proliferation and apoptosis [22][23]. The results of this experiment also con rmed that the exosomal miR-19b-3p targeted TGFβR2, activated the phosphorylation of SMAD2/3, and up-regulated KLF10.…”

Section: Discussionmentioning

confidence: 76%

Blocking Exosomal miR-19b-3p from Renal Cell Carcinoma Cells Enhances Sunitinib Mediated Anti-Tumor Activity via Promoting TGFBR2/KLF10 Expression

Shen

Yao

et al. 2021

Preprint

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Background Multiple studies have found that microRNAs contribute to the malignant progression and chemoresistance of renal cell carcinoma (RCC). This study intends to probe the effect of miR-19b-3p shuttled by exosomes derived from RCC cells on RCC development and its resistance to Sunitinib. Methods Sunitinib-resistant cell lines (OSRC-2R and Caki-1R) were constructed from OSRC-2 and Caki-1 RCC cells. Exosomes in the RCC cell supernatant were isolated, and the miR-19b-3p profile in cells and exosomes was measured by reverse transcription-polymerase chain reaction (RT-PCR). Subsequently, the TGFβR2/SMAD2/3 pathway was activated by TGFβ, and the KLF10 overexpression and miR-19b-3p overexpression/knockdown models were constructed. The cell counting kit-8 (CCK-8) assay, colony formation assay and flow cytometry were implemented to verify RCC cell proliferation, Sunitinib chemosensitivity, and apoptosis. The expression of apoptosis-related proteins and the TGFβR2-SMAD2/3-KLF10 pathway was monitored by Western blot. MiR-19b-3p was overexpressed in sunitinib-resistant RCC cell lines (OSRC-2R and Caki-1R) and their exosomes (vs. normal OSRC-2 and Caki-1 cell lines). Results In-vitro experiments showed that knocking down cellular and exosomal miR-19b-3p levels reduced the proliferation and colony-forming ability of OSRC-2 and Caki-1 cells and strengthened their apoptosis and sensitivity to Sunitinib. Bioinformatics analysis illustrated that miR-19b-3p targeted TGFβR2 and inhibited TGFβR2/SMAD2/3. Activation of the TGFβR2-SMAD2/3 pathway via TGFβ dampened ORSC-2 and Caki-1 cell proliferation, induced apoptosis, and enhanced their chemosensitivity to Sunitinib. Conclusion Moreover, TGFβ heightened KLF10 expression, and overexpressing KLF10 attenuated miR-19b-3p-mediated carcinogenic effects and resistance to Sunitinib by increasing SMAD2/3 phosphorylation. RCC cell-derived exosomal miR-19b-3p enhances RCC progression and Sunitinib chemoresistance by inactivating TGFβR2-SMAD2/3-KLF10.

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“…The carcinogenic role of miR-195-3p remains uncertain. It was reported as an oncogene in renal cell carcinoma [ 22 ], but mostly played an anti-tumor role in various tumors. For example, miR-195-3p inhibited cervical cancer cell proliferation by targeting BCDIN3D [ 23 ], and reversed CCL4-enhanced VEGF-C expression in Oral Squamous Cell Carcinoma [ 24 ].…”

Section: Discussionmentioning

confidence: 99%

Long noncoding RNA TINCR facilitates hepatocellular carcinoma progression and dampens chemosensitivity to oxaliplatin by regulating the miR-195-3p/ST6GAL1/NF-κB pathway

Mei

Lin

et al. 2022

J Exp Clin Cancer Res

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Background Long non-coding RNAs (lncRNA) have an essential role in progression and chemoresistance of hepatocellular carcinoma (HCC). In-depth study of specific regulatory mechanisms is of great value in providing potential therapeutic targets. The present study aimed to explore the regulatory functions and mechanisms of lncRNA TINCR in HCC progression and oxaliplatin response. Methods The expression of TINCR in HCC tissues and cell lines was detected by quantitative reverse transcription PCR (qRT-PCR). Cell proliferation, migration, invasion, and chemosensitivity were evaluated by cell counting kit 8 (CCK8), colony formation, transwell, and apoptosis assays. Luciferase reporter assays and RNA pulldown were used to identify the interaction between TINCR and ST6 beta-galactoside alpha-2,6-sialyltransferase 1 (ST6GAL1) via miR-195-3p. The corresponding functions were verified in the complementation test and in vivo animal experiment. Results TINCR was upregulated in HCC and associated with poor patient prognosis. Silencing TINCR inhibited HCC proliferation, migration, invasion, and oxaliplatin resistance while overexpressing TINCR showed opposite above-mentioned functions. Mechanistically, TINCR acted as a competing endogenous (ceRNA) to sponge miR-195-3p, relieving its repression on ST6GAL1, and activated nuclear factor kappa B (NF-κB) signaling. The mouse xenograft experiment further verified that knockdown TINCR attenuated tumor progression and oxaliplatin resistance in vivo. Conclusions Our finding indicated that there existed a TINCR/miR-195-3p/ST6GAL1/NF-κB signaling regulatory axis that regulated tumor progression and oxaliplatin resistance, which might be exploited for anticancer therapy in HCC.

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Identification of miR-195-3p as an oncogene in RCC

Cited by 14 publications

References 39 publications

Chemokine CCL4 Induces Vascular Endothelial Growth Factor C Expression and Lymphangiogenesis by miR-195-3p in Oral Squamous Cell Carcinoma

Chemokine CCL4 Induces Vascular Endothelial Growth Factor C Expression and Lymphangiogenesis by miR-195-3p in Oral Squamous Cell Carcinoma

Blocking Exosomal miR-19b-3p from Renal Cell Carcinoma Cells Enhances Sunitinib Mediated Anti-Tumor Activity via Promoting TGFBR2/KLF10 Expression

Long noncoding RNA TINCR facilitates hepatocellular carcinoma progression and dampens chemosensitivity to oxaliplatin by regulating the miR-195-3p/ST6GAL1/NF-κB pathway

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