Fresh adjacent normal tissue (ANT) and HCC tissues samples were collected from 56 HCC patients (Department of Hepato-Biliary Surgery, Guizhou Provincial People's Hospital) between 2019 and 2020 and stored in liquid nitrogen till usage. The investigation procedure was approved by Ethics Committee of the Guizhou Provincial People's Hospital, and written informed consent from each patient was obtained preceding surgery.

Normal liver cell lines LO2, Huh-7 and hepatocellular carcinoma cell lines HepG2 were purchased from type I culture library cell bank of Chinese Academy of Sciences. Cells were cultured using DMEM and RPPI-1640 (Gibco, Carlsbad, CA, USA), 10% fetal bovine serum (Gibco) in an incubator at 37°C, 5% CO2, and 100% humidity. HepG2-SR and Huh7-SR cells were prepared using previously described procedure.14

Cells (2×105cells/well) were seeded onto 6-well dishes at 24h and then transfected with control or experimental siRNA for circRNA_001241 or si-TIMP3 per dish at 80% confluence using the Lipofectamine 3000 (Life Technologies, Shanghai, China) according to the manufacturer's instructions. The primers of si-circRNA-1 were 5ʹ-GTGTGGCTATGGAGGTCACGT-3ʹ; si-circRNA-2 were 5ʹ-GTGGCTATGGAGGTCACGTCC-3ʹ;the primers of si-TIMP3 were 5ʹ-GGACTGTGGTTACTGTCAT-3ʹ.

Total RNA was extracted from HCC tissue samples employing TRIzol Reagent (Invitrogen). RNase R treatment was performed using 3U/mg RNase R (Epicenter) at room temperature (37°C) for 15min. RNA (1μg) was retrotranscribed with RT Master Mix (Prime Script-Takara, Japan) and Random or Oligo (DT) primers for real-time quantitative PCR (RT-PCR). Reverse transcription of miRNA and reverse transcription of mRNA into cDNA were completed respectively. The cDNA was amplified using a common SYBR Green Master Mix (Roche, Mannheim, Germany). CT values were measured throughout the exponential growth period. The relative gene expression was measured by 2-△CT. RiboBio (Guangzhou, China) designed a large ring miRNA quantitative RT-PCR primer set, with one RT primer pair per set and one qPCR primer pair per set) for accurate use of miR-21-5p. The relative expression of miR-21-5p was normalized as human U6 snRNA. The primers used for RT-PCR were: circRNA-001241 primers were 5ʹ-GCTGTGGAGGTCGCTGTGTGG-3ʹ (sense) and 5ʹ-AGACCTTCAGA GCCACATGGATG-3ʹ (anti-sense); TIMP3 primers were: 5ʹ-CAAGATGCCCCATGTGCAGT-3ʹ (sense) and 5ʹ-TCTCCACGAAGTTGCACAGC (anti-sense); GAPDH primers were 5ʹ-ACAACTTTGGTATC GTGGAAGG-3ʹ (sense) and 5ʹ-GCCATCACGCCACAGTTTC-3ʹ (anti-sense). U6 primers were 5ʹ-CAAGGATGACACGCAAA-3ʹ (sense) and 5ʹ-TCAACTGGTGTCGTGG-3ʹ (anti-sense).

The circRNA-001241overexpression plasmid, circRNA-miRNA and TIMP3-miRNA binding mutation plasmid were attained from Sangon Biotech (Shanghai, China), full-length circRNA-001241 cDNA was synthesized and cloned into an overexpressed vector pLO-ciR containing a front and back circular frame to support RNA circalization. CircRNA-001241 and siRNA of miR-432-5p inhibitor, mimic, and negative control were synthesized from GenePharma (Shanghai, China). Plasmid transfection was performed using Lipofectamine 3000 (Invitrogen, CA, USA). The miRNA and siRNA analogs were transfected into cells using RNAIMax (Invitrogen) according to the manufacturer's guidelines. miR-21-5p primers were: 5ʹ-GCGCGTAGCTTATCAGACTGA-3ʹ (sense) and 5ʹ-AGTGCAGGGTCCGAGGTATT(anti-sense).

Actinomycin D (2mg/mL) or DMSO (Sigma–Aldrich, St. Louis, MO, USA) was added as control to the medium to inhibit transcription. Total RNA (5mg) was cultured at room temperature for 30min with or without 3U/mg RNase R (Epicenter Technologies). The resulting RNA was then washed using the RNEasy Minelute cleaning kit (Qiagen, Germany). After the above treatment, RNA was transcripted into cDNA, and the expression levels of GAPDH and circRNA-001241 were observed by real-time fluorescence quantitative PCR.

Nuclear and cytoplasmic RNA was obtained using nuclear and cytoplasmic RNA purification kits (Invitrogen, CA, USA). The cells were collected and incubated with lysate on ice for 10min, then centrifuged at 12,000×g for 3min. Nuclear RNA was extracted from the nuclear bulb using the endogenous U6 micronuclear RNA as the control, and cytoplasmic RNA was extracted from the supernatant using GAPDH as the endoplasmic control.

CCK-8 detection (Bimake, Shanghai, China) uses a similar method, as described earlier. Transfected cells were inoculated into 96-well plates (2×103cells/well) and incubated overnight. The cells were then treated with different concentrations of sorafenib for 48h. Add CCK-8 reagent 10mL to each well, and incubate at 37°C for 2h. The absorption value was measured at 450nm with a microplate analyzer.

Cells were inoculated into 6-well plates and treated with sorafenib for 48h. Cells treated with 1×103 were cultured in 6-well plates for 2 weeks. Paroxyformaldehyde (4%) was fixed and cell colonies were counted by crystal violet staining. For apoptosis, the cells were inoculated in plates containing 3×105cells/well and 6-well. Treat with sorafenib for 48h. Cells were collected and treated with PI staining solution and Annexin V-FITC under dark conditions for 15min. Flow cytometry (Gallios, Beckman, USA) was used to detect the proportion of cell apoptosis, and FlowJo 7.6.1.2.9 was used to analyze the proportion of cell apoptosis.

Biotin-labeled circRNA-001241 and NC probes were manufactured by the GeneChem Company. The cell lysate was incubated with strepavidin-coated magnetic beads (Invitrogen Carlsbad, USA) to pull down the biotin-coupled RNA complex according to the manufacturer's guidelines. The miRNA enrichment in the captured fractions was evaluated by qRT-PCR analysis.

The circRNA-001241 or 3’UTR TIMP3 fragment was cloned full-length into the dual luciferase reporter vector psicheck-2 (Promega, WI, USA) to construct the luciferase reporter vector from the potential binding site mutation of miR-21-5p. The above MUT or WT plasmids were co-transfected with miR-21-5p mimics or miR-NC. Dual-luciferase reporter assay system (Promega, Madison, WI, USA) was used to evaluate luciferase activity 48h after incubation. The experiment was repeated, and the comparison luciferase activity was normalized to luciferase from the kidney as the internal control.

The protein was extracted by kit method (total protein extraction kit – Thermo Fisher Scientific, MA, USA). The total protein lysate was separated by SDS-polyacrylamide gel electrophoresis and transferred to PVDF membrane. The membrane was incubated overnight at 4°C using a primary antibody that recognized TIMP3 (1:1000 dilution Abcam), β-actin (1:10,000 dilution; Proteintech) in the United States. After incubation with secondary antibody (diluted at 1:5000; Abcam), chemiluminescent protein bands were observed using the GE Amersham Imager 600(GE Healthcare, USA).

In this experiment, BALB/c nude mice aged 6 weeks were purchased from Hunan SJA Experimental Animal Co., Ltd., China. Each mouse was injected subcutaneously 6×107 HepG2-SR cells transfected with si-circRNA-001241 or si-NC suspended in 100mL of Hanks’ balanced salt solution. During 6 days of injection, mice were intraperitoneally injected with PBS or sorafenib (20mg/kg) once a day for 4 weeks. According to the treatment, the tumors on the mice were actually divided into the following groups: group 1, si-circ-1transfected cells; group 2, si-circ-1 transfected cells+sorafenib; group 3, si-NC transfected cells+sorafenib; the tumor size in each animals was measured every 3 days. On day 21, the animals were killed and their tumors collected. Tumor tissues were fixed with 4% formalin and frozen at −80°C. To evaluate tumor metastasis, sorafenib 20mg/kg or PBS was injected through the tail vein. At 48h after administration, fluorescence intensity in each group was measured on the Xenogen IVIS lumina XR imaging system from Caliper Life Science (USA). The mice were then euthanized, the tumor and metastatic tissue were collected, and in vitro imaging was performed. The tumor tissues were made into frozen sections and observed under fluorescent microscope. The fixed tissues were paraffin-embedded and sectioned for H&E staining and immunohistochemical staining.

The animal experiments were approved by the Animal Care Committee of Guizhou Provincial People's Hospital. All experiments involving mice were conducted in accordance with the guidelines for animal welfare formulated by the laboratory animal center at Guizhou Provincial People's Hospital.

Data were assessed using Student's t-test in SPSS 18.0 and expressed as mean±SD. Kaplan–Meier analysis was used to decipher the association between circRNA-001241 expression and patient survival (*P<0.05, **P<0.01, ***P<0.001, and ****P<0.0001).

CircRNA-001241 exhibited high relative fold change in GSE datasets. Therefore, circRNA-001241 was selected for further study (Fig. 1A). The relative expression of circRNA-001241 was detected in HCC patients with RT-PCR. The expression of circRNA-001241 was significantly upregulated in primary HCC samples comparative to the compared with particular healthy adjacent tissues (Fig. 1B). In patients with cirrhosis developing into hepatocellular carcinoma, the expression of HCC tissues was higher than that of paraneoplastic tissues, and the difference was significant (Supplementary Figure 1), and the same upregulated trend was confirmed in HepG2-SR and Huh7-SR cells compared with adjacent normal tissue (Fig. 1C). Then, the comparative expression levels of circRNA-001241 were observed in cytoplasm and nucleus of HepG2-SR cells (Fig. 1D). The RT-PCR results showed that circRNA-001241 was augmented in cytoplasm. Additionally, the linear form of circRNA-001241fragments remained following RNase R treatment (Fig. 1E and F). Moreover, We also analyzed the clinical characteristics and pathological stages of HCC patients, and the results showed that the increase of circ-001241 in HCC tissues was significantly associated with larger tumor size and higher TNM stage in HCC patients. (Table 1). Importantly, Kaplan–Meier analysis showed that high expression of circRNA-001241 is associated with inferior overall endurance (Fig. 1G) and recurrence-free survival (Fig. 1H) compared with low circRNA-001241 expression. These results suggested that the overexpression of circRNA-001241 may be complex in the process of tumorigenesis and multidrug resistance in HCC.

Figure 1.

Circ-001241 is upregulated in HCC and associated with sorafenib resistance and poor prognosis. (A) The volcano plot shows deregulated circRNAs between normal tissue samples and HCC tissue samples from the GSE94508 datasets. (B) The heatmap showed the most differential circRNAs and circRNA_001241 is significantly increased in HCC tissues compared to normal tissues. (C) Comparison of circRNA_001241expression in 50 pairs of HCC specimens and adjacent normal tissues. (D) Compared with the parent cell lines (HepG2 and Huh7), the expression of circ-001241 in HepG2-SR and Huh7-SR cells was significantly increased. (E) Levels of circ-001241 in nuclear and cytoplasmic fractions of HepG2-SR cells. (F and G) RNA from HCC cells was treated with or without RNase R for RT-qPCR. The relative levels of circ-001241 were normalized to the values measured in HepG2-SR and Huh7-SR cells. (H) Kaplan–Meier curves in HCC patients with high (n=25) or low circ-001241expression (n=25) for overall survival. The results are presented as the mean±SD. *P<0.05, **P<0.01, ***P<0.001.

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Firstly, two siRNA oligonucleotides (si-circ-1 and si-circ-2) were designed to target the exclusive back-splice connection of circRNA-001241; si-circ-1 effectively knocked down circRNA-001241 the lowest expression efficiency (Fig. 2A). Then, circRNA-001241 siRNA transfection reduced tolerance to sorafenib and cell viability in HepG2-SR and Huh7-SR cells. HepG2-SR and Huh7-SR cells transfected with circRNA-001241siRNAs were treated with sorafenib at different doses for 48h, respectively, and IC50 was obtained, indicating that circRNA-001241siRNAs transfected could give a warning of HCC cells to sorafenib (Fig. 2B and C). Additionally, circRNA-001241 knockdown expressively reduced the cell colonies (Fig. 2D) and promoted apoptosis after sorafenib (5μM) treatment for 48h (Fig. 2E). Collectively, these results showed that circRNA-001241 siRNAs transfection might prepare HCC cells to sorafenib administration by moderated propagation, tumorigenesis and increased apoptosis.

Figure 2.

Downregulation of circ-001241 facilitates sorafenib sensitivity of HCC cells. (A) Real-time PCR analysis of circ-001241 in HepG2-SR and Huh7-SR cells transfected with circ-001241 siRNAs (si-circ-1, si-circ-2) or negative control siRNA (si-NC). (B,C) HepG2-SR and Huh7-SR cells transfected with si-NC or circ-001241siRNAs were treated with different doses of sorafenib for 48h and analyzed with CCK-8 assay. (D) After treatment with sorafenib (5μm) for 48h, HepG2-SR and Huh7-SR cells were transfected with si-NC or circ-001241siRNA for colony formation test. (E) The apoptotic rates of HepG2-SR and Huh7-SR cells transfected with si-NC or circ-001241siRNAs after sorafenib (5μM) treatment for 48h were visualized using flow cytometry. The data was expressed as mean values±SD. *P<0.05, **P<0.01, ***P<0.001.

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HepG2 and Huh7 cells were transfected with circRNA-001241 overexpressed plasmid (circRNA-001241 OE) to further evaluate the effect of circRNA-001241 on the sensitivity of sorafenib (Fig. 3A). The CCK-8 assay showed that circRNA-001241 OE might endorse tolerance of both HepG2 (Fig. 3B) and Huh7 (Fig. 3C) cells towards sorafenib treated with different concentrations. However, circRNA-001241 OE expression significantly increased the number of cell colonies and inhibited apoptosis in HepG2 and Huh7 cells after 48h treatment with sorafenib (2μM) compared with negative control (Fig. 3D and E). Collectively, data suggested that circRNA-001241 was pivotal in sorafenib sensitivity.

Figure 3.

Overexpression of circ-001241promotes sorafenib resistance of HCC cells. (A) The expression level of circ-001241 in liver cancer cells stably transfected with circ-001241 or blank vector plasmid was detected by RT-qPCR. (B, C) Circ-001241 or vector transfected cells were treated with sorafenib at different doses, and the survival rate of cells was observed by CCK-8 method 48h later. (D) Colony formation assay of HCC cells transfected with circ-001241or vector after sorafenib (2μM) treatment for 48h. (E) The apoptosis levels in HCC cells transfected with circ-001241or vector after sorafenib (2μM) treatment for 48h were observed by flow cytometry. The data was shown as the mean±SD. **P<0.01, ***P<0.001.

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The prediction results of miRNA recognition elements in circRNA-001241 sequence were overlapping by using miRanda, Pitar and Targetscan, and a total of 7 candidate miRNAs were screened to determine whether circRNA-001241 might have spongy miRNAs in HCC cells (Fig. 4A). Then, miRNAs were extracted through the pull-down process and the levels of the seven candidate miRNAs were detected by RT-PCR. As shown in (Fig. 4B and C), in both HepG2-SR and Huh7-SR cells, miR-21-5p was abundantly pulled down by circRNA-001241. Next, the schematically constructed luciferase reporter vectors circRNA-001241 wild-type (circRNA-001241-wt) and circRNA-001241 mutated (circRNA-001241-mut). Luciferase reporter assay confirmed their complementary combinations (Fig. 4D). The result also proposed that miR-21-5p binds and subdues circRNA-001241 activity. In addition, miR-21-5p expression was decreased in HCC tissues compared with normal tissues (Fig. 4E), and then, after 5μm of sorafenib treatment, Co-transfection of si-circRNA-001241 with miR-21-5p inhibitor may save the proliferation and apoptosis of HepG2-SR cells and Huh7-SR cells (Fig. 4F and G) (Fig. 4H and I). Collectively, data indicated that circRNA-001241 persuaded sorafenib resistance was accelerated by the sponge effect on the expression of miR-342-5p.

Figure 4.

MiR-21-5p is negatively regulated by circ-001241. (A) Schematic diagram of target miRNA overlap of circ-001241 predicted by miranda, pitar, and TargetScan. (B, C) The comparative levels of 7 miRNA candidates in HepG2-SR and Huh7-SR cells were detected by RT-qPCR. Several miRNAs were pulled down by circ-001241 and miR-21-5p was pulled down by circ-001241in both cell lines. (D) Luciferase reporter assay confirmed circ-001241 and miR-21-5p complementary combinations in both Huh7-SR and HepG2-SR cells. (E) Comparison of miR-21-5p expression in 50 pairs of HCC specimens and adjacent normal tissues. (F, G) The proliferation rates of HepG2-SR and Huh7-SR cells co-transfected with si-circ-1and miR-21-5p inhibitor were treated with different concentrations of sorafenib for 48h. (H, I) The colonies and apoptosis rates indicated that miR-21-5p inhibition rescues the decreased cell colonies and increased cell apoptosis due to inhibition of circ-001241in HepG2-SR and Huh7-SRcells with the sorafenib treatment (5μM) for 48h. The data was shown as the mean±SD. *P<0.05, **P<0.01, ***P<0.001.

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To discover the possible existence of the circRNA–miRNA–mRNA axis in sorafenib-resistance, we predict potentially involved mRNAs rendering to the four algorithms (miRanda, RNAhybrid, miRWalk and TargetScan) prediction (Fig. 5A). The result exhibited that miR-21-5p can bind to 3ʹ-UTR region of TIMP3 (Fig. 5B), and luciferase reporter assay proved their complementary arrangements (Fig. 5C) and exposed that miR-21-5p binds and subdues the activity of TIMP3. In addition, after sorafenib treatment (5μM), transfection of TIMP3 overexpression plasmid (TIMP3 OE) or miR-21-5p inhibitor inhibited the proliferation of HepG2-SR and Huh7-SR cells and reduced sorafenib-induced apoptosis (Fig. 5D and E). To further observe the TIMP3 role in accelerating circRNA-001241 functions, a rescue assays TIMP3 overexpression and knockdown. These assays showed that TIMP3 could partially rescue the effect of circRNA-001241 (Fig. 5F and G), indicating that circRNA-001241 sustains sorafenib resistance by regulating the miR-21-5p/TIMP3 axis.

Figure 5.

Circ-001241 facilitates HCC sorafenib-resistance by regulating the miR-21-5p/TIMP3 axis. (A) CeRNA network of circ-001241 with miRNA and their target genes. (B) The estimated binding sites of TIMP3 and miR-21-5p. (C) Luciferase reporter assay confirmed TIMP3 and miR-21-5p complementary combinations in HepG2-SR and Huh7-SR cells. (D, E) Proliferation and apoptosis rates of HepG2-SR cells and Huh7-SR cells transfected with a single transfection inhibitor or co-transfected with a specified vector 48h after sorafenib irradiation (5μm). (F, G) Western blotting was used to detect the expression level of TIMP3 in HepG2-SR cells transfected with si-circ-1 and TIMP3 OE or si-TIMP3 and circ-001241 OE. The data was represented as mean values as ±SD. *P<0.05, **P<0.01. TIMP3 OE: TIMP3 overexpression.

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