Home Circular RNA hsa_circ_0007121 regulates proliferation, migration, invasion, and epithelial–mesenchymal transition of trophoblast cells by miR-182-5p/PGF axis in preeclampsia
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Circular RNA hsa_circ_0007121 regulates proliferation, migration, invasion, and epithelial–mesenchymal transition of trophoblast cells by miR-182-5p/PGF axis in preeclampsia

  • Shukun Gai , Li Sun , Huiying Wang and Ping Yang EMAIL logo
Published/Copyright: October 14, 2020
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Open Medicine
From the journal Open Medicine Volume 15 Issue 1

Abstract

Background

Mounting evidence has revealed that abnormal expression of circular RNAs play pivotal roles in many human diseases including preeclampsia (PE). While human sapiens circular RNA 0007121 (hsa_circ_0007121) has been verified to be downregulated in human placental tissues, the underlying mechanisms were still unclear. This research aims to investigate the effect and underlying mechanisms of hsa_circ_0007121 in preeclampsia.

Methods

The expression of hsa_circ_0007121, microRNA (miR)-182-5p, and placental growth factor (PGF) was assessed by quantitative reverse transcription polymerase chain reaction in PE placentas relative to the expression in normal pregnancy placentas. After transfection, cell counting kit-8 assay was employed to detect cell proliferation. Cell migration and invasion were tested by the transwell assay. The relative level of epithelial–mesenchymal transition (EMT)-related proteins in HTR-8/SVneo cells and PGF in placentas samples were measured by western blot. The relationship between miR-182-5p and hsa_circ_0007121 or PGF was predicated by circular RNA interactome or ENCORI and verified by dual-luciferase reporter assay and RNA immunoprecipitation assay.

Results

The levels of hsa_circ_0007121 and PGF were significantly declined in PE placental tissues and HTR-8/SVneo cells, whereas miR-182-5p had an opposite result. Downregulation of hsa_circ_0007121 obviously inhibited HTR-8/SVneo cell proliferation, migration, invasion, and EMT, while upregulation of hsa_circ_0007121 promoted this process. Besides, miR-182-5p was a target gene of hsa_circ_0007121 and could target PGF. Further analysis indicated that hsa_circ_0007121 regulated the proliferation, migration, invasion, and EMT of HTR-8/SVneo cells via altering PGF expression by interacting with miR-182-5p.

Conclusion

Hsa_circ_0007121 mediated the progression of PE via miR-182-5p/PGF axis.

Keywords: PE; hsa_circ_0007121; miR-182-5p, PGF

1 Introduction

Preeclampsia (PE) affected 2–8% of pregnancies worldwide and led to 46,900 deaths in 2015 [1]. Hypertension, diabetes mellitus, proteinuria, obesity, family history, multiple pregnancies, and thrombotic vascular disease are the risk factors for PE [2]. Previous studies showed that the inadequate trophoblast invasion was correlated with PE [3,4,5]. Also, growing evidence indicated that epithelial–mesenchymal transition (EMT) was related to the development of PE [6,7]. HTR-8/SVneo cell line is human being chorial trophocyte cell that was always used for the study of trophoblast biology and placental function, which may improve our understanding of diseases related to tumor progression, abnormal placentation hypoinvasiveness in preeclampsia, and hyperinvasiveness in trophoblastic neoplasms [8,9]. Although the potential pathogenesis of PE is barely elucidated, we chose HTR-8/Svneo cell as a study subject in vitro.

Circular RNAs (CircRNAs) could accumulate in specific cell types in a temporally regulated manner owing its high stability, which was presumably the result of their covalently closed ring structure protecting these molecules from exonuclease-mediated degradation [10]. Increasing evidence has suggested that CircRNAs play a vital role in many diseases including PE. Garikipati et al. reports indicate that CircFndc3b modulated cardiac repair after myocardial infarction via FUS/VEGF-A axis [11]. Holdt et al. found that circRNA antisense noncoding RNA in the INK4 locus (ANRIL) modulated ribosomal RNA maturation and atherosclerosis [12]. Furthermore, recent reports indicated that circRNAs functioned in regulating PE progression [13,14,15]. Researchers attempted to investigate the profile of circRNAs in placental tissues of preeclampsic women and also examined the potential effects of circRNAs dysregulation on the progression of PE. From a total of 22,796 circRNAs, Bai et al. identified 300 differentially expressed circRNAs and found that the potential noninvasive biomarker hsa_circ_0007121, which could help to predict PE [16]. Thus, hsa_circ_0007121 is a noninvasive biomarker for the prediction of PE, which still needs further investigation due to its uncharted mechanisms.

MicroRNAs (miRNAs) are a type of small RNAs (about 22 nucleotides), and they combine with messenger RNAs (mRNAs) in the 3′-untranslated region (3′UTR) to modulate its expression [17]. Emerging reports manifested that miRNAs played a pivotal role in a variety of pregnancy-related complications such as preeclampsia and fetal growth restriction [18]. Lv et al. uncover that miR-145-5p facilitated the trophoblast cell growth and invasion via targeting FLT1 [19]. Yuan et al. found that miR-16 regulated the pathogenesis of PE via targeting Notch2 [20]. More recently, Fang et al. confirmed that the upregulated miR-182-5p promotes PE progression [21]. MiR-182, a precursor to miR-182-5p, also linked to altered angiogenesis in PE [22]. Yet, it is very significant to clarify the role of different miRNAs in orchestrating the placental vascular development.

The placental growth factor (PGF) belongs to the vascular endothelial growth factor (VEGF) family. The overexpression of VEGF is linked to trophoblastic failed invasion, which was widely accepted as one of the PE key factors [23,24]. PGF can regulate angiogenesis, which is important for the development of the embryo [25]. PGF levels were found significantly lower during PE, and its levels correlated with the severity of the disease, which was possible to predict the development of PE [26,27,28,29,30]. Wu et al. found that decreased PGF might lead to trophoblast dysfunction in fetal growth restriction [31]. Kurtoglu et al. reported that serum PGF might be a significant marker to predict the severity of PE [32]. Besides, Gao et al. reported that PGF was clearly downregulated in PE placental tissues [33]. Therefore, PGF could be a potential target, and corresponding regulators should be explored.

In our study, we checked the levels of hsa_circ_0007121, miR-182-5p, and PGF in PE placental tissues and HTR-8/SVneo cells. In addition, the role and the possible regulatory mechanism of hsa_circ_0007121 in PE were also studied.

2 Material and methods

2.1 Samples and cell culture

Thirty-five patients with PE and 35 gestational and maternal age-match healthy women were included in this study. PE diagnosis was according to American College of Obstetricians and Gynecologists 2013 diagnostic criteria [34], with systolic blood pressure more than 140 mm Hg or diastolic blood pressure more than 90 mm Hg, either accompanied by proteinuria or edema. The subjects were limited to nulliparous women with a singleton pregnancy at 20 + 0 to 24 + 6 weeks gestation. Exclusion criteria were as follows: underlying medical disease, previous cervical surgery, history of pregnancy losses, known fetal abnormality or abnormal karyotype, or accepted obstetric intervention at recruitment. The PE placental tissues (n = 35) and normal placental tissues (n = 35) were collected from participants at Yantai Yuhuangding Hospital (Yantai, China) between March 2017 and October 2019. Each participant signed the informed consent, and this research was authorized by the Ethics Committee of Yantai Yuhuangding Hospital. Placental samples were taken from a representative block of the central portion of tissue below one-third of the placenta near maternal side and preserved in a freezer at −80°C for later use. The human trophoblast cells (HTR-8/SVneo) were purchased from American Type Culture Collection (Manassas, VA, USA) and then was cultivated in the McCoy’s 5A medium (Sigma, St Louis, MO, USA) with 10% fetal bovine serum (FBS; Sigma) and 5% CO2. Transcription inhibition experiment was performed by adding 2 μg/mL actinomycin D (Sigma) to the medium, and dimethylsulphoxide (DMSO; Sigma) was used as the control.

2.2 Cell transfection

Small interfering RNA for hsa_circ_0007121 (si-hsa_circ_0007121), miR-182-5p mimic (miR-182-5p), miR-182-5p inhibitor (anti-miR-182-5p), small interfering RNA for PGF (si-PGF), and the controls (si-NC, NC, anti-NC, and scramble) were sourced from GenePharma (Shanghai, China). Hsa_circ_0007121 overexpression plasmid (named as hsa_circ_0007121), PGF overexpression plasmid (PGF), and corresponding matched controls (circ-NC and vector) were acquired from RiboBio (Guangzhou, China). Lipofectamine 3000 (Solarbio, Beijing, China) was purchased from Sigma and used to transfect cells following the provided procedures.

2.3 Quantitative reverse transcription polymerase chain response (qRT-PCR) and RNase treatment

The TRIzol reagent (Sigma) was applied for RNA extraction, and PrimeScript RT Master Mix kit (Takara, Dalian, China) was used for reverse transcription. Then, the QuantiTect SYBR Green RT-PCR Kit (Qiagen, Shanghai, China) was used to perform the qRT-PCR for hsa_circ_0007121 and PGF. The miScript SYBR Green PCR kit (Qiagen) was used for the qRT-PCR of miR-182-5p. Beta-actin (β-actin) was used to normalize hsa_circ_0007121 and PGF expression, and U6 was used to normalize miR-182-5p expression. The data were computed using the 2−ΔΔCt method. The following primers were used (5′ to 3′): hsa_circ_0007121 (F, GGGGGTTTTATTTCAGGTGGA; R, AGGGGAAAAATAGTCCTCACAGA); linear mRNA primer (F, AGTTTTAGGCGTGGCTGTGA; R, CACGATTGCTCACAATGGAGG); miR-182-5p (F, ATCACTTTTGGCAATGGTAGAACT; R, TATGGTTTTGACGACTGTGTGAT); PGF (F, CCCACCTGGATGCTGTT; R, ATAGAGGGTAGGTACCAG); β-actin (F, GCACCACACCTTCTACAATG; R, TGCTTGCTGATCCACATCTG); U6 (F, TCCGGGTGATGCTTTTCCTAG; R, CGCTTCACGAATTTGCGTGTCAT). RNase R (Sigma) was utilized to treat purified RNAs to check the circular form of hsa_circ_0007121.

2.4 Cell counting kit-8 (CCK-8) assay

HTR-8/SVneo cells were seeded into a 96-well plate and added with 10 µL CCK-8 solution (MedChemExpress, Shanghai, China). After 2 h, the optical density at 450 nm wavelength was checked with a microplate reader (Bio-Rad, Richmond, Virginia, USA).

2.5 Transwell assay

Transwell chamber precoated with or without Matrigel (Solarbio) was utilized to evaluate cell invasion or migration, respectively. Cells with serum-free medium were added into the upper chamber, and medium containing fetal bovine serum was added into the lower chamber. Then, the cells were treated with crystal violet (Solarbio) and were analyzed using the microscope (MTX Lab Systems, Bradenton, FL, USA).

2.6 Western blot

Western blot was executed according to the previous report [12]. Briefly, after the extraction and separation, proteins were incubated with the primary antibodies and the secondary antibody. The protein band was observed using ECL kit (Solarbio). Antibodies used in this research were as follows: anti-E-cadherin (1:1,000, ab15148, Abcam, Cambridge, United Kingdom), anti-Vimentin (1:3,000, ab137321, Abcam), anti-snail (1:1,000, ab82846, Abcam), anti-N-cadherin (1:2,500, ab18203, Abcam), anti-matrix metalloprotein (MMP)-2 (1:3,000, ab97779, Abcam), anti-MMP-9 (1:1,000, ab38898, Abcam), anti-PGF (1:2,500, ab196666, Abcam), anti-glyceraldehyde 3-phosphate dehydrogenase (1:2,500, ab9485, Abcam), and Goat Anti-Rabbit IgG H&L (HRP) (1:3,000, ab205718, Abcam).

2.7 Dual-luciferase reporter assay

The potential target sequences in hsa_circ_0007121 or PGF of miR-182-5p were predicated by CircRNA interactome or ENCORI, respectively. The sequence of hsa_circ_0007121 or PGF 3′UTR was inserted into pGL3 vector (Promega, Madison, WI, USA) for the establishment of hsa_circ_0007121-wt or PGF-wt reporter vector. Also, the hsa_circ_0007121-mut or PGF-mut reporter vector was constructed by mutating the possible binding sites. Then, HTR-8/SVneo cells were cotransfected with reporter vector and miR-182-5p or miR-NC. The luciferase activity was checked by using the Dual-Glo® Luciferase Assay System kit (Promega).

2.8 RNA immunoprecipitation (RIP) assay

Magna RIP RNA-Binding Protein Immunoprecipitation Kit (Millipore, Billerica, MA, USA) was introduced for RIP in line with the given protocols. In brief, cells were lysed and incubated with anti-Argonaute 2 antibody (Anti-Ago2; Millipore) with conjugated magnetic beads for 24 h, and then, the beads were treated with proteinase K to remove protein. The immunoglobulin G (IgG) was used as a control. The immune precipitated RNA was purified and analyzed by qRT-PCR.

2.9 Statistical analysis

Experimental data were presented by mean ± standard deviation and analyzed by GraphPad Prism (GraphPad, La Jolla, CA, USA). Two independent groups were compared via using Student’s t-test. The one-way analysis of variance was utilized to assess the difference for more than two groups. The correlation among miR-182-5p, hsa_circ_0007121, and PGF in PE placental tissues was analyzed by Pearson’s correlation coefficient. Each experiment was carried out with at least three replications. P < 0.05 indicated the statistical significance.

3 Results

3.1 Hsa_circ_0007121 is downregulated in PE placental tissues

First, we measured hsa_circ_0007121 level in PE placental tissues and compared them with those in normal placentas. The results showed that relative to the normal placental tissues, hsa_circ_0007121 was significantly downregulated in PE placental tissues (Figure 1a). Then, the levels of hsa_circ_0007121 and the linear mRNA were checked, and the data indicated that hsa_circ_0007121 level was not clearly changed under treatment with RNase R, while the level of linear mRNA was apparently declined under RNase R treatment (Figure 1b). Besides, the transcript half-life of hsa_circ_0007121 (nearly 20 h) was longer than the half-life of linear mRNA (less than 5 h) after the treatment with actinomycin D (Figure 1c). These data suggested that hsa_circ_0007121 was downregulated with high stability in HTR-8/SVneo cells than linear mRNA.

Figure 1 Hsa_circ_0007121 was downregulated in PE placental tissues. (a) The level of hsa_circ_0007121 in PE placental tissues (n = 35) and normal placental tissues (n = 35) was measured by qRT-PCR. (b) Hsa_circ_0007121 and the linear mRNA levels in HTR-8/SVneo cells treated with or without RNase R were detected by qRT-PCR. (c) hsa_circ_0007121 and the linear mRNA levels in HTR-8/SVneo cells treated with actinomycin D at the pointed time were checked by qRT-PCR. *P < 0.05.
Figure 1

Hsa_circ_0007121 was downregulated in PE placental tissues. (a) The level of hsa_circ_0007121 in PE placental tissues (n = 35) and normal placental tissues (n = 35) was measured by qRT-PCR. (b) Hsa_circ_0007121 and the linear mRNA levels in HTR-8/SVneo cells treated with or without RNase R were detected by qRT-PCR. (c) hsa_circ_0007121 and the linear mRNA levels in HTR-8/SVneo cells treated with actinomycin D at the pointed time were checked by qRT-PCR. *P < 0.05.

3.2 Hsa_circ_0007121 regulated HTR-8/SVneo cell proliferation, migration, invasion, and EMT

The effect of hsa_circ_0007121 on PE was further investigated, and we detected its level in HTR-8/SVneo cells after transfection with circ-NC, hsa_circ_0007121, si-NC, or si-hsa_circ_0007121 (si-hsa_circ_0007121#1, si-hsa_circ_0007121#2, and si-hsa_circ_0007121#3). The result showed that hsa_circ_0007121 was conspicuously upregulated in hsa_circ_0007121 group relative to circ-NC group, and it was significantly downregulated in the si-hsa_circ_0007121 group compared with the si-NC group (Figure 2a). Overexpression of hsa_circ_0007121 promoted cell proliferation, while an opposite result was obtained when hsa_circ_0007121 was knocked down (Figure 2b). Meanwhile, the transwell assay indicated that cell migration and invasion were boosted by upregulated hsa_circ_0007121, while repressed by downregulation of hsa_circ_0007121 (Figure 2c and d). Moreover, EMT-related protein levels were checked, and the results revealed that hsa_circ_0007121 overexpression reduced the level of E-cadherin and elevated the levels of Vimentin, snail, N-cadherin, MMP2, and MMP9, while hsa_circ_0007121 silencing exhibited opposite results (Figure 2e). On the whole, these results illustrated that hsa_circ_0007121 was involved in the modulation of PE progression.

Figure 2 Hsa_circ_0007121 was involved in the regulation of PE. (a) The overexpression efficiency of hsa_circ_0007121 and the knockdown efficiency of si-hsa_circ_0007121 (si-hsa_circ_0007121#1, si-hsa_circ_0007121#2, and si-hsa_circ_0007121#3) were evaluated by qRT-PCR. (b) The proliferation of HTR-8/SVneo cells transfected with circ-NC, hsa_circ_0007121, si-NC, or si-hsa_circ_0007121#1 was checked by the CCK8 assay. (c and d) Cell migration and invasion were checked by the transwell assay. (e) The protein levels of EMT-related proteins (E-cadherin, Vimentin, snail, N-cadherin, MMP-2, and MMP-9) in transfected HTR-8/SVneo cells were measured by western blot assay. *P < 0.05.
Figure 2

Hsa_circ_0007121 was involved in the regulation of PE. (a) The overexpression efficiency of hsa_circ_0007121 and the knockdown efficiency of si-hsa_circ_0007121 (si-hsa_circ_0007121#1, si-hsa_circ_0007121#2, and si-hsa_circ_0007121#3) were evaluated by qRT-PCR. (b) The proliferation of HTR-8/SVneo cells transfected with circ-NC, hsa_circ_0007121, si-NC, or si-hsa_circ_0007121#1 was checked by the CCK8 assay. (c and d) Cell migration and invasion were checked by the transwell assay. (e) The protein levels of EMT-related proteins (E-cadherin, Vimentin, snail, N-cadherin, MMP-2, and MMP-9) in transfected HTR-8/SVneo cells were measured by western blot assay. *P < 0.05.

3.3 Hsa_circ_0007121 directly targeted miR-182-5p to regulate its expression

To explore how hsa_circ_0007121 participates in the modulation of PE progression, CircRNA interactome was used to explore its potential target, and we found that hsa_circ_0007121 contained the complementary sequences of miR-182-5p, which suggested that miR-182-5p might be bound to hsa_circ_0007121 (Figure 3a). Then, the luciferase activity of hsa_circ_0007121-wt in HTR-8/SVneo cells was notably diminished by miR-182-5p, while there was no change in the hsa_circ_0007121-mut group (Figure 3b). Besides, RIP assay exhibited that both hsa_circ_0007121 and miR-182-5p were enriched when incubation with Anti-Ago2 in comparison to Anti-IgG (Figure 3c). Next, miR-182-5p level was checked, and we found that it was strikingly higher in PE placental tissues than that in normal placental tissues (Figure 3d). Moreover, miR-182-5p was negatively associated with hsa_circ_0007121 in PE placental tissues (Figure 3e). In addition, hsa_circ_0007121 overexpression significantly decreased the level of miR-182-5p in HTR-8/SVneo cells, whereas hsa_circ_0007121 knockdown evidently increased the levels miR-182-5p (Figure 3f). Collectively, these results illustrated that hsa_circ_0007121 negatively regulated miR-182-5p via directly targeting.

Figure 3 Hsa_circ_0007121 directly interacted with miR-182-5p. (a) The potential target sites between miR-182-5p and hsa_circ_0007121 were predicated by CircRNA interactome. (b and c) The dual-luciferase reporter assay and RIP assay were performed to investigate the interaction between miR-182-5p and hsa_circ_0007121. (d) The level of miR-182-5p in PE placental tissues (n = 35) and normal placental tissues (n = 35) was detected by qRT-PCR. (e) The correlation between miR-182-5p and hsa_circ_0007121 in PE placental tissues was analyzed by Pearson’s correlation coefficient. (f) The expression level of miR-182-5p was measured by qRT-PCR in HTR-8/SVneo cells transfected with circ-NC, hsa_circ_0007121, si-NC, or si-hsa_circ_0007121#1. *P < 0.05.
Figure 3

Hsa_circ_0007121 directly interacted with miR-182-5p. (a) The potential target sites between miR-182-5p and hsa_circ_0007121 were predicated by CircRNA interactome. (b and c) The dual-luciferase reporter assay and RIP assay were performed to investigate the interaction between miR-182-5p and hsa_circ_0007121. (d) The level of miR-182-5p in PE placental tissues (n = 35) and normal placental tissues (n = 35) was detected by qRT-PCR. (e) The correlation between miR-182-5p and hsa_circ_0007121 in PE placental tissues was analyzed by Pearson’s correlation coefficient. (f) The expression level of miR-182-5p was measured by qRT-PCR in HTR-8/SVneo cells transfected with circ-NC, hsa_circ_0007121, si-NC, or si-hsa_circ_0007121#1. *P < 0.05.

3.4 Hsa_circ_0007121 regulated HTR-8/SVneo cell proliferation, migration, invasion, and EMT through miR-182-5p

To investigate the functional mechanism between hsa_circ_0007121 and miR-182-5p, HTR-8/SVneo cells were transfected with hsa_circ_0007121, hsa_circ_0007121 + miR-182-5p, si-hsa_circ_0007121#1, or si-hsa_circ_0007121#1 + anti-miR-182-5p, as well as matched controls. QRT-PCR result shows that the expression of miR-182-5p was inhibited in the cell transfected hsa_circ_0007121, while this inhibition effect was reversed when miR-182-5p was upregulated; meanwhile anti-miR-182-5p reversed the promotion effect on miR-182-5p expression induced by circ_0007121 knockdown (Figure 4a). Subsequently, CCK-8 results exhibited that upregulation of miR-182-5p reversed the promotion effect on cell proliferation induced by hsa_circ_0007121 overexpression, and miR-182-5p knockdown overturned hsa_circ_0007121 silencing-mediated inhibitory effect on cell proliferation (Figure 4b). Besides, the transwell assay indicated that miR-182-5p mimic rescued hsa_circ_0007121 overexpression induced migration and invasion, and its inhibitor inverted the inhibited migration and invasion caused by hsa_circ_0007121 knockdown (Figure 4c and d). Moreover, the levels of EMT-related proteins in the hsa_circ_0007121 group or the si-hsa_circ_0007121 group were reversely changed after miR-182-5p was overexpressed or knockdown, respectively (Figure 4e). In general, these findings disclosed that hsa_circ_0007121 regulated PE development by targeting miR-182-5p.

Figure 4 Hsa_circ_0007121 regulated PE progression by interacting with miR-182-5p. (a) The level of miR-182-5p in HTR-8/SVneo cells transfected with hsa_circ_0007121, hsa_circ_0007121 + miR-182-5p, si-hsa_circ_0007121#1, or si-hsa_circ_0007121#1 + anti-miR-182-5p, as well as matched controls was checked by qRT-PCR. (b) The proliferation of transfected HTR-8/SVneo cells was checked by the CCK8 assay. (c and d) The abilities of migration and invasion of transfected HTR-8/SVneo cells were estimated by the transwell assay. (e) The protein levels of EMT-related proteins in samples were detected by Western blot. *P < 0.05.
Figure 4

Hsa_circ_0007121 regulated PE progression by interacting with miR-182-5p. (a) The level of miR-182-5p in HTR-8/SVneo cells transfected with hsa_circ_0007121, hsa_circ_0007121 + miR-182-5p, si-hsa_circ_0007121#1, or si-hsa_circ_0007121#1 + anti-miR-182-5p, as well as matched controls was checked by qRT-PCR. (b) The proliferation of transfected HTR-8/SVneo cells was checked by the CCK8 assay. (c and d) The abilities of migration and invasion of transfected HTR-8/SVneo cells were estimated by the transwell assay. (e) The protein levels of EMT-related proteins in samples were detected by Western blot. *P < 0.05.

3.5 Hsa_circ_0007121 regulated PGF expression via targeting miR-182-5p

ENCORI was used to find the possible targets of miR-182-5p. It was displayed that the existence of binding sites between miR-182-5p and PGF 3’UTR (Figure 5a), and the dual-luciferase reporter assay and RIP assay further verified this interaction (Figure 5b and c). We then discovered that the PGF level was clearly decreased in PE placental tissues (Figure 5d and e). Moreover, PGF mRNA level was positively associated with hsa_circ_0007121 (Figure 5f) and had an opposite correlation with miR-182-5p in PE placental tissues (Figure 5g). Further analysis demonstrated that the elevated protein level of PGF in the hsa_circ_0007121 group was reversed when miR-182-5p overexpressed, and the decreased protein level of PGF in the si-hsa_circ_0007121 group was also inverted by miR-182-5p inhibitor (Figure 5h). Our findings indicated that PGF was a target of miR-182-5p- and hsa_circ_0007121-modulated PGF expression via miR-182-5p.

Figure 5 MiR-182-5p bound to the 3’UTR of PGF and negatively regulated PGF expression. (a) The putative binding sites between miR-182-5p and PGF were predicated by ENCORI. (b and c) The interaction between miR-182-5p and PGF was explored by the dual-luciferase reporter assay and RIP assay. (d and e) The mRNA and the protein levels of PGF in PE placental tissues (n = 35) and normal placental tissues (n = 35) were checked by qRT-PCR and western blot, respectively. (f and g) The correlation between PGF and hsa_circ_0007121 or miR-182-5p in PE placental tissues was analyzed using Pearson’s correlation coefficient. (h) The protein level of PGF in HTR-8/SVneo cells transfected with hsa_circ_0007121, hsa_circ_0007121 + miR-182-5p, si-hsa_circ_0007121#1, or si-hsa_circ_0007121#1 + anti-miR-182-5p, as well as corresponding controls was checked by qRT-PCR. *P < 0.05.
Figure 5

MiR-182-5p bound to the 3’UTR of PGF and negatively regulated PGF expression. (a) The putative binding sites between miR-182-5p and PGF were predicated by ENCORI. (b and c) The interaction between miR-182-5p and PGF was explored by the dual-luciferase reporter assay and RIP assay. (d and e) The mRNA and the protein levels of PGF in PE placental tissues (n = 35) and normal placental tissues (n = 35) were checked by qRT-PCR and western blot, respectively. (f and g) The correlation between PGF and hsa_circ_0007121 or miR-182-5p in PE placental tissues was analyzed using Pearson’s correlation coefficient. (h) The protein level of PGF in HTR-8/SVneo cells transfected with hsa_circ_0007121, hsa_circ_0007121 + miR-182-5p, si-hsa_circ_0007121#1, or si-hsa_circ_0007121#1 + anti-miR-182-5p, as well as corresponding controls was checked by qRT-PCR. *P < 0.05.

3.6 MiR-182-5p-/PGF axis-modulated HTR-8/SVneo cell proliferation, migration, invasion, and EMT

To dissect the mechanism of miR-182-5p and PGF in PE progression, we first measured the protein level of PGF in transfected HTR-8/SVneo cells. The declined protein level of PGF was observed in the miR-182-5p group, and this trend was reversed by PGF overexpression, and the increased protein level of PGF due to anti-miR-182-5p was reversed following the transfection with si-PGF (Figure 6a). CCK8 assay showed that PGF overexpression inverted miR-182-5p upregulation-mediated suppressive cell proliferation, while the promoted cell proliferation due to miR-182-5p downregulation was recovered by PGF knockdown (Figure 6b). Meanwhile, miR-182-5p overexpression weakened migration and invasion was receded by PGF overexpression, and PGF silencing revoked miR-182-5p depletion-mediated boosted effects on cell migration and invasion (Figure 6c and d). Analogously, upregulation of PGF rescued the effect of miR-182-5p on EMT, whereas downregulation of PGF rescued miR-182-5p depletion-mediated promoted effect on EMT (Figure 6e). These data demonstrated that miR-182-5p targeted PGE to regulate PE development.

Figure 6 MiR-182-5p regulated PE progression via targeting PGF. (a) The protein level of PGF in HTR-8/SVneo cells transfected with miR-182-5p, miR-182-5p + PGF, anti-miR-182-5p, and anti-miR-182-5p + si-PGF was measured by western blot. (b) The CCK8 assay was conducted to check the proliferation of transfected HTR-8/SVneo cells. (c and d) The transwell assay was executed to evaluate the abilities of cell migration and invasion. (e) The protein levels of EMT-related proteins were determined by western blot. *P < 0.05.
Figure 6

MiR-182-5p regulated PE progression via targeting PGF. (a) The protein level of PGF in HTR-8/SVneo cells transfected with miR-182-5p, miR-182-5p + PGF, anti-miR-182-5p, and anti-miR-182-5p + si-PGF was measured by western blot. (b) The CCK8 assay was conducted to check the proliferation of transfected HTR-8/SVneo cells. (c and d) The transwell assay was executed to evaluate the abilities of cell migration and invasion. (e) The protein levels of EMT-related proteins were determined by western blot. *P < 0.05.

4 Discussion

PE is a growing threat to the pregnant woman, and nearly, 76,000 pregnant women died from PE and related hypertensive disorders every year [35]. Therefore, it is a crying need for exploring the underlying mechanism and discovering new therapeutic strategies for PE. The previous research showed that circRNAs were closely related to the regulation of PE. Deng et al. confirmed that hsa_circ_0011460 might serve as a biomarker for the treatment of severe PE [13]. Zhou et al. reported that knockdown of circPAPPA facilitated the onset and development of PE via inhibiting trophoblast cells [14]. hsa_circ_0007021, which was found to be decreased in PE plasma before the disease phenotype presents, might be a novel biomarker of preeclampsia [16]. In our study, hsa_circ_0007121 level was reduced in PE placental tissues compared with the normal placental tissues, which was in line with the previous report [16]. Here, we first proposed the regulatory network of hsa_circ_0007121/miR-182-5p/PGF and revealed the effect and underlying mechanisms of hsa_circ_0007121 in PE.

Growing evidence have elucidated that circRNAs act as a competing endogenous RNA (ceRNA) and could also sponging miRNAs to regulate the expression of the downstream genes. Wu et al. reported that circTADA2A promoted cell proliferation and metastasis in osteosarcoma by binding to miR-203a-3p [36]. Wang et al. reported that circRNA MFACR modulated cardiomyocyte death by sponging miR-652-3p [37]. In this research, miR-182-5p was confirmed to be bound and negatively regulated by hsa_circ_0007121. Besides, miR-182-5p overexpression or knockdown reversed hsa_circ_0007121 upregulation- or silencing-mediated effect on HTR-8/SVneo cell proliferation, migration, invasion, and EMT, indicating that hsa_circ_0007121 plays roles in PE development by regulating miR-182-5p.

To further understand the mechanism of miR-182-5p in regulating PE, we predicated and verified its target gene, PGF, which was tightly associated with PE [25,31,32]. In this study, we found a decreased expression of PEG in PE placental tissues, which was in accordance with a recent report [33]. In addition, PGF was positively correlated with hsa_circ_0007121 and negatively associated with miR-182-5p in PE placental tissues. Moreover, hsa_circ_0007121 altered PGF expression via sponging miR-182-5p. Also, PGF overexpression or downregulation rescued miR-182-5p mimic- or inhibitor-mediated impact on proliferation, migration, invasion, and EMT in HTR-8/SVneo cells. Therefore, these results suggested that hsa_circ_0007121 could regulate the expression of PGF by sponging miR-182-5p, eventually influencing the progression of PE. Although our research provides the theoretical support for the application of hsa_circ_0007121 in PE therapy, other function of has_circ_007121 in PE still needs further exploration, and animal model of PE is required for further study to better elucidate the mechanism of hsa_circ_0007121 in PE.

In conclusion, our studies suggested that hsa_circ_0007121 was notably downregulated in PE placental tissues and HTR-8/SVneo cells, and hsa_circ_0007121 mediated the EMT of trophoblast cells proliferation, migration, invasion, and EMT via miR-182-5p/PGF axis. This novel mechanism might provide a new light for the therapy of PE.

Contributed equally.

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  1. Conflict of interest: The authors declare that they have no financial conflicts of interest.

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Received: 2020-06-09
Revised: 2020-08-26
Accepted: 2020-08-26
Published Online: 2020-10-14

© 2020 Shukun Gai et al., published by De Gruyter

This work is licensed under the Creative Commons Attribution 4.0 International License.

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https://doi.org/10.1515/med-2020-0230
Keywords for this article
PE; hsa_circ_0007121; miR-182-5p, PGF
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  31. The number of negative lymph nodes is positively associated with survival in esophageal squamous cell carcinoma patients in China
  32. Differentiation of pontine infarction by size
  33. RAF1 expression is correlated with HAF, a parameter of liver computed tomographic perfusion, and may predict the early therapeutic response to sorafenib in advanced hepatocellular carcinoma patients
  34. LncRNA ZEB1-AS1 regulates colorectal cancer cells by miR-205/YAP1 axis
  35. Tissue coagulation in laser hemorrhoidoplasty – an experimental study
  36. Classification of pathological types of lung cancer from CT images by deep residual neural networks with transfer learning strategy
  37. Enhanced Recovery after Surgery for Lung Cancer Patients
  38. Case Report
  39. Streptococcus pneumoniae-associated thrombotic microangiopathy in an immunosuppressed adult
  40. Research Article
  41. The characterization of Enterococcus genus: resistance mechanisms and inflammatory bowel disease
  42. Case Report
  43. Inflammatory fibroid polyp: an unusual cause of abdominal pain in the upper gastrointestinal tract A case report
  44. Research Article
  45. microRNA-204-5p participates in atherosclerosis via targeting MMP-9
  46. LncRNA LINC00152 promotes laryngeal cancer progression by sponging miR-613
  47. Can keratin scaffolds be used for creating three-dimensional cell cultures?
  48. miRNA-186 improves sepsis induced renal injury via PTEN/PI3K/AKT/P53 pathway
  49. Case Report
  50. Delayed bowel perforation after routine distal loopogram prior to ileostomy closure
  51. Research Article
  52. Diagnostic accuracy of MALDI-TOF mass spectrometry for the direct identification of clinical pathogens from urine
  53. The R219K polymorphism of the ATP binding cassette subfamily A member 1 gene and susceptibility to ischemic stroke in Chinese population
  54. miR-92 regulates the proliferation, migration, invasion and apoptosis of glioma cells by targeting neogenin
  55. Clinicopathological features of programmed cell death-ligand 1 expression in patients with oral squamous cell carcinoma
  56. NF2 inhibits proliferation and cancer stemness in breast cancer
  57. Body composition indices and cardiovascular risk in type 2 diabetes. CV biomarkers are not related to body composition
  58. S100A6 promotes proliferation and migration of HepG2 cells via increased ubiquitin-dependent degradation of p53
  59. Review Article
  60. Focus on localized laryngeal amyloidosis: management of five cases
  61. Research Article
  62. NEAT1 aggravates sepsis-induced acute kidney injury by sponging miR-22-3p
  63. Pericentric inversion in chromosome 1 and male infertility
  64. Increased atherogenic index in the general hearing loss population
  65. Prognostic role of SIRT6 in gastrointestinal cancers: a meta-analysis
  66. The complexity of molecular processes in osteoarthritis of the knee joint
  67. Interleukin-6 gene −572 G > C polymorphism and myocardial infarction risk
  68. Case Report
  69. Severe anaphylactic reaction to cisatracurium during anesthesia with cross-reactivity to atracurium
  70. Research Article
  71. Rehabilitation training improves nerve injuries by affecting Notch1 and SYN
  72. Case Report
  73. Myocardial amyloidosis following multiple myeloma in a 38-year-old female patient: A case report
  74. Research Article
  75. Identification of the hub genes RUNX2 and FN1 in gastric cancer
  76. miR-101-3p sensitizes non-small cell lung cancer cells to irradiation
  77. Distinct functions and prognostic values of RORs in gastric cancer
  78. Clinical impact of post-mortem genetic testing in cardiac death and cardiomyopathy
  79. Efficacy of pembrolizumab for advanced/metastatic melanoma: a meta-analysis
  80. Review Article
  81. The role of osteoprotegerin in the development, progression and management of abdominal aortic aneurysms
  82. Research Article
  83. Identification of key microRNAs of plasma extracellular vesicles and their diagnostic and prognostic significance in melanoma
  84. miR-30a-3p participates in the development of asthma by targeting CCR3
  85. microRNA-491-5p protects against atherosclerosis by targeting matrix metallopeptidase-9
  86. Bladder-embedded ectopic intrauterine device with calculus
  87. Case Report
  88. Mycobacterial identification on homogenised biopsy facilitates the early diagnosis and treatment of laryngeal tuberculosis
  89. Research Article
  90. The will of young minors in the terminal stage of sickness: A case report
  91. Extended perfusion protocol for MS lesion quantification
  92. Identification of four genes associated with cutaneous metastatic melanoma
  93. Case Report
  94. Thalidomide-induced serious RR interval prolongation (longest interval >5.0 s) in multiple myeloma patient with rectal cancer: A case report
  95. Research Article
  96. Voluntary exercise and cardiac remodeling in a myocardial infarction model
  97. Electromyography as an intraoperative test to assess the quality of nerve anastomosis – experimental study on rats
  98. Case Report
  99. CT findings of severe novel coronavirus disease (COVID-19): A case report of Heilongjiang Province, China
  100. Commentary
  101. Directed differentiation into insulin-producing cells using microRNA manipulation
  102. Research Article
  103. Culture-negative infective endocarditis (CNIE): impact on postoperative mortality
  104. Extracorporeal shock wave therapy for the treatment of chronic pelvic pain syndrome
  105. Plasma microRNAs in human left ventricular reverse remodelling
  106. Bevacizumab for non-small cell lung cancer patients with brain metastasis: A meta-analysis
  107. Risk factors for cerebral vasospasm in patients with aneurysmal subarachnoid hemorrhage
  108. Problems and solutions of personal protective equipment doffing in COVID-19
  109. Evaluation of COVID-19 based on ACE2 expression in normal and cancer patients
  110. Review Article
  111. Gastroenterological complications in kidney transplant patients
  112. Research Article
  113. CXCL13 concentration in latent syphilis patients with treatment failure
  114. A novel age-biomarker-clinical history prognostic index for heart failure with reduced left ventricular ejection fraction
  115. Case Report
  116. Clinicopathological analysis of composite lymphoma: A two-case report and literature review
  117. Trastuzumab-induced thrombocytopenia after eight cycles of trastuzumab treatment
  118. Research Article
  119. Inhibition of vitamin D analog eldecalcitol on hepatoma in vitro and in vivo
  120. CCTs as new biomarkers for the prognosis of head and neck squamous cancer
  121. Effect of glucagon-like peptide-1 receptor agonists on adipokine level of nonalcoholic fatty liver disease in rats fed high-fat diet
  122. 72 hour Holter monitoring, 7 day Holter monitoring, and 30 day intermittent patient-activated heart rhythm recording in detecting arrhythmias in cryptogenic stroke patients free from arrhythmia in a screening 24 h Holter
  123. FOXK2 downregulation suppresses EMT in hepatocellular carcinoma
  124. Case Report
  125. Total parenteral nutrition-induced Wernicke’s encephalopathy after oncologic gastrointestinal surgery
  126. Research Article
  127. Clinical prediction for outcomes of patients with acute-on-chronic liver failure associated with HBV infection: A new model establishment
  128. Case Report
  129. Combination of chest CT and clinical features for diagnosis of 2019 novel coronavirus pneumonia
  130. Research Article
  131. Clinical significance and potential mechanisms of miR-223-3p and miR-204-5p in squamous cell carcinoma of head and neck: a study based on TCGA and GEO
  132. Review Article
  133. Hemoperitoneum caused by spontaneous rupture of hepatocellular carcinoma in noncirrhotic liver. A case report and systematic review
  134. Research Article
  135. Voltage-dependent anion channels mediated apoptosis in refractory epilepsy
  136. Prognostic factors in stage I gastric cancer: A retrospective analysis
  137. Circulating irisin is linked to bone mineral density in geriatric Chinese men
  138. Case Report
  139. A family study of congenital dysfibrinogenemia caused by a novel mutation in the FGA gene: A case report
  140. Research Article
  141. CBCT for estimation of the cemento-enamel junction and crestal bone of anterior teeth
  142. Case Report
  143. Successful de-escalation antibiotic therapy using cephamycins for sepsis caused by extended-spectrum beta-lactamase-producing Enterobacteriaceae bacteremia: A sequential 25-case series
  144. Research Article
  145. Influence factors of extra-articular manifestations in rheumatoid arthritis
  146. Assessment of knowledge of use of electronic cigarette and its harmful effects among young adults
  147. Predictive factors of progression to severe COVID-19
  148. Procedural sedation and analgesia for percutaneous trans-hepatic biliary drainage: Randomized clinical trial for comparison of two different concepts
  149. Acute chemoradiotherapy toxicity in cervical cancer patients
  150. IGF-1 regulates the growth of fibroblasts and extracellular matrix deposition in pelvic organ prolapse
  151. NANOG regulates the proliferation of PCSCs via the TGF-β1/SMAD pathway
  152. An immune-relevant signature of nine genes as a prognostic biomarker in patients with gastric carcinoma
  153. Computer-aided diagnosis of skin cancer based on soft computing techniques
  154. MiR-1225-5p acts as tumor suppressor in glioblastoma via targeting FNDC3B
  155. miR-300/FA2H affects gastric cancer cell proliferation and apoptosis
  156. Hybrid treatment of fibroadipose vascular anomaly: A case report
  157. Surgical treatment for common hepatic aneurysm. Original one-step technique
  158. Neuropsychiatric symptoms, quality of life and caregivers’ burden in dementia
  159. Predictor of postoperative dyspnea for Pierre Robin Sequence infants
  160. Long non-coding RNA FOXD2-AS1 promotes cell proliferation, metastasis and EMT in glioma by sponging miR-506-5p
  161. Analysis of expression and prognosis of KLK7 in ovarian cancer
  162. Circular RNA circ_SETD2 represses breast cancer progression via modulating the miR-155-5p/SCUBE2 axis
  163. Glial cell induced neural differentiation of bone marrow stromal cells
  164. Case Report
  165. Moraxella lacunata infection accompanied by acute glomerulonephritis
  166. Research Article
  167. Diagnosis of complication in lung transplantation by TBLB + ROSE + mNGS
  168. Case Report
  169. Endometrial cancer in a renal transplant recipient: A case report
  170. Research Article
  171. Downregulation of lncRNA FGF12-AS2 suppresses the tumorigenesis of NSCLC via sponging miR-188-3p
  172. Case Report
  173. Splenic abscess caused by Streptococcus anginosus bacteremia secondary to urinary tract infection: a case report and literature review
  174. Research Article
  175. Advances in the role of miRNAs in the occurrence and development of osteosarcoma
  176. Rheumatoid arthritis increases the risk of pleural empyema
  177. Effect of miRNA-200b on the proliferation and apoptosis of cervical cancer cells by targeting RhoA
  178. LncRNA NEAT1 promotes gastric cancer progression via miR-1294/AKT1 axis
  179. Key pathways in prostate cancer with SPOP mutation identified by bioinformatic analysis
  180. Comparison of low-molecular-weight heparins in thromboprophylaxis of major orthopaedic surgery – randomized, prospective pilot study
  181. Case Report
  182. A case of SLE with COVID-19 and multiple infections
  183. Research Article
  184. Circular RNA hsa_circ_0007121 regulates proliferation, migration, invasion, and epithelial–mesenchymal transition of trophoblast cells by miR-182-5p/PGF axis in preeclampsia
  185. SRPX2 boosts pancreatic cancer chemoresistance by activating PI3K/AKT axis
  186. Case Report
  187. A case report of cervical pregnancy after in vitro fertilization complicated by tuberculosis and a literature review
  188. Review Article
  189. Serrated lesions of the colon and rectum: Emergent epidemiological data and molecular pathways
  190. Research Article
  191. Biological properties and therapeutic effects of plant-derived nanovesicles
  192. Case Report
  193. Clinical characterization of chromosome 5q21.1–21.3 microduplication: A case report
  194. Research Article
  195. Serum calcium levels correlates with coronary artery disease outcomes
  196. Rapunzel syndrome with cholangitis and pancreatitis – A rare case report
  197. Review Article
  198. A review of current progress in triple-negative breast cancer therapy
  199. Case Report
  200. Peritoneal-cutaneous fistula successfully treated at home: A case report and literature review
  201. Research Article
  202. Trim24 prompts tumor progression via inducing EMT in renal cell carcinoma
  203. Degradation of connexin 50 protein causes waterclefts in human lens
  204. GABRD promotes progression and predicts poor prognosis in colorectal cancer
  205. The lncRNA UBE2R2-AS1 suppresses cervical cancer cell growth in vitro
  206. LncRNA FOXD3-AS1/miR-135a-5p function in nasopharyngeal carcinoma cells
  207. MicroRNA-182-5p relieves murine allergic rhinitis via TLR4/NF-κB pathway
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