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SETD1A promotes the proliferation and glycolysis of nasopharyngeal carcinoma cells by activating the PI3K/Akt pathway

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Published/Copyright: November 22, 2022
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Open Medicine
From the journal Open Medicine Volume 17 Issue 1

Abstract

Nasopharyngeal carcinoma is one of the common malignant tumors that the pathogenesis has not yet been completely defined. SETD1A (histone lysine methyltransferase SET domain-containing 1A) is related to the occurrence of various cancers. However, the role of SETD1A in nasopharyngeal carcinoma remains unclear. The SETD1A overexpression vector, si-NC, si-SETD1A#1, and si-SETD1A#2 were transfected into nasopharyngeal carcinoma cells to overexpress or knockdown SETD1A expression. The assay of biofunction was used to explore the role of SETD1A in nasopharyngeal carcinoma cells. The assay of glucose uptake, lactate release, ATP level, western blot, cell proliferation, and cellular apoptosis analysis were performed to investigate the potential mechanism of SETD1A regulation in nasopharyngeal carcinoma. This study was the first to show that SETD1A was upregulated in nasopharyngeal carcinoma cells and the overexpression of SETD1A significantly promoted the cell proliferation and glycolysis and suppressed the cellular apoptosis. Moreover, SETD1A enhances aerobic glycolysis and cell biological function of nasopharyngeal carcinoma cells via PI3K/AKT signaling pathway. SETD1A induced PI3K/AKT activation and subsequently prevented cellular apoptosis. In conclusion, this study identified overexpressed SETD1A as a positive regulator of proliferation that induced nasopharyngeal carcinoma cells’ aerobic glycolysis via PI3K/AKT signaling activation in vitro. This study laid a strong foundation for unveiling the precise anticancer mechanism of SETD1A. The SETD1A may become a novel biomarker for further inhibitor design to obstruct the PI3K/AKT-dependent nasopharyngeal carcinoma progression.

Keywords: SETD1A; nasopharyngeal carcinoma; glycolysis; proliferation; PI3K/AKT

1 Introduction

Nasopharyngeal carcinoma originates from the epithelial lining of the nasopharynx and is a highly aggressive head and neck cancer [1,2]. The 5-year survival rate of nasopharyngeal carcinoma patients has significantly raised due to advances in medical treatment techniques [3]. However, since most nasopharyngeal carcinoma patients are not diagnosed until stage III or IV, 30% of nasopharyngeal carcinoma patients will finally have distant metastasis and/or recurrence [4,5]. Therefore, identifying novel therapeutic targets and predictive biomarkers is important to ameliorate clinical outcomes for nasopharyngeal carcinoma patients.

The aerobic glycolysis (Warburg effect) is one of the critical hallmarks of cancer. The Warburg effect is defined as that cancer cells rely heavily on glycolysis for energy metabolism and preferential production of lactate [6,7]. Therefore, the aerobic glycolysis brings large energy to cancer cells, different from normal cells in cancer cells, glucose is not metabolized in mitochondria by oxidative phosphorylation but is converted to lactate [8]. Phosphatidylinositol 3-kinase (PI3K) and protein kinase B (AKT) are often over-activated in cancer cells and have an essential role in the aerobic glycolysis regulation in cancer cells [9,10]. After the PI3K/AKT signaling pathway is activated, it can directly promote the transition of aerobic glycolysis, making cancer cells more dependent on glucose consumption to produce lactate.

SETD1A (histone lysine methyltransferase SET domain-containing 1A) is involved in the epigenetic regulation of transcription. It is the major catalytic component of a multiprotein complex that methylates lysine 4 of histone H3 [11,12]. SETD1A encodes a subunit of the human Set/COMPASS complex (complex of proteins associating with Set1) and it might regulate multiple critical oncogenes in lung cancer via global H3K4me3 levels [13]. SETD1A plays a role in the occurrence of various cancers. The expression of SETD1A is significantly improved in lung cancer tissues [13,14]. On the contrary, the knockdown of SETD1A can suppress the proliferation of cancer cells. In addition, the expression of SETD1A was obviously enhanced in hepatocellular carcinoma cell lines and tumor tissues and SETD1A knockdown enhanced sorafenib-induced proliferation inhibition and cellular apoptosis [15]. Previous studies found that overexpression of SETD1A induced gastric cancer cell proliferation, while suppression of SETD1A attenuated the cell viability of gastric cancer cells [16]. In addition, downregulation of SETD1A decreased lactate production and glucose uptake, while inhibited glycolysis by reducing glycolytic genes’ expression such as lactate dehydrogenase A (LDHA), monocarboxylate transporter 4, pyruvate kinase M 2, glucose transporter 1 (GLUT1), and phosphofructokinase 2 [16]. Recent studies have also reported that upregulation of SETD1A can activate the PI3K/Akt pathway and promote breast cancer progression [17].

According to the TCGA database, SETD1A is highly expressed in head and neck cancer, but the role of SETD1A in nasopharyngeal carcinoma is less studied, and the related mechanism is still unclear. The purpose of this research was to explore the specific biological function and the potential mechanism of SETD1A in nasopharyngeal carcinoma.

2 Methods

2.1 Cell culture

Nasopharyngeal carcinoma cell lines (C666-1, SUNE-1, HNE-1, and 6-10b) and human nasopharyngeal epithelial cell line Np69 were obtained from the Cell Bank of Type Culture Collection of Chinese Academy of Sciences (Shanghai, China). All cells were maintained in Dulbecco’s modified Eagle’s medium (DMEM, Invitrogen, USA) containing 10% fetal bovine serum and 1% penicillin–streptomycin (Gibco) at 37°C with 5% CO2. When cell confluence reached 60–70%, si-NC, si-SETD1A#1, si-SETD1A#2, vector, or OE-SETD1A were transfected into C666-1 and HNE-1 cells using Lipofectamine 3000 according to the reference instructions. After 48 h, cells were collected for further experiments. To clarify the potential mechanism constituting by which SETD1A promotes the progression of nasopharyngeal carcinoma, the PI3K inhibitor LY294002 (L9908, Sigma) was performed to co-treatment with OE-SETD1A in C666-1 and HNE-1 cells. The cells were cultured in serum-free medium for 24 h and pretreated with 10 µM LY294002 before further experiments.

2.2 qPCR analysis

The RNA was obtained from Np69, C666-1, SUNE-1, HNE-1, and 6-10b cells using TRIzol method (Invitrogen, USA) according to the manufacturer’s instructions. The PrimeScript RT Reagent Kit (Takarabio, Japan) was used to synthesize cDNA. qRT-PCR was performed on an real-time PCR system (Bio-Rad Laboratories, USA) and detected by using SYBR Green PCR Master Mix (Thermo Fisher, USA).

The primers were as follows:

SETD1A:

forward: 5′-TTGCCATGTCAGGTCCAAAAA-3′;

reverse: 5′-GTACTTACGGCACATATCCTTC-3′,

GAPDH:

forward: 5′-TCTTTTGCGT CGCCAGCCGAG-3′

reverse: 5′-TGACCAGGCG CCCAATACGAC-3′.

2.3 Western blot

The total protein from Np69, C666-1, SUNE-1, HNE-1, and 6-10b cells was harvested using RIPA buffer and centrifuging at 13,000 × g at 4°C for 15 min. Twenty-five micrograms of protein samples were separated using the 10% sodium dodecyl sulfate polyacrylamide gel electrophoresis gel and the nitrocellulose membranes (Sigma-Aldrich, USA) were used to transfer the proteins. The primary antibody against SETD1A (1:3,000, Thermo Fisher, MA5-26764), GLUT1 (1:5,000, Cell Signaling Technology, E4S6I), HK2 (1:3,000, Cell Signaling Technology, C64G5), LDHA (1:2,000, Santa Cruz Biotechnology, C4B5), Bax (1:2,000, Cell Signaling Technology, # 2774), Bcl-2 (1:1,000, Abcam, ab196495), PI3K (1:8,000, Cell Signaling Technology, # 4292), p-PI3K (1:3,000, Cell Signaling Technology, # 4228), AKT (1:8,000, Abcam, ab8805), p-AKT (1:3,000, Abcam, ab81283), and β-actin (1:10,000, Abcam, ab8227) overnight at 4°C. The membrane was cultured with horseradish peroxidase‑labeled secondary antibody at 37°C for 1 h, and the band of proteins was detected by the enhanced chemiluminescence (Sigma-Aldrich). β-Actin was used as the internal control.

2.4 Clone formation assay

The C666-1 and HNE-1 cells under different treatments were seeded into six-well plates (500 cells per well). The cells were treated with sorafenib (10 μM) for 2 weeks. The sorafenib treatment was maintained and the culture medium was changed every 2 days. After 2 weeks, the cells were fixed and stained with 0.1% crystal violet. The cell clones were counted.

2.5 EDU (cell proliferation) 5-ethynyl-2′-deoxyuridine (EdU)

Cultured C666-1 and HNE-1 cells in the supernatant were centrifuged and plated on collagen-coated coverslips in a DMEM culture medium containing 10% fetal calf serum. Then, cells were stained by Click-iTTM EdU imaging kit (Invitrogen, CA) according to the manufacturer’s protocol for 12 h. The EdU-positive cells were measured under a fluorescence microscope.

2.6 ATP measurement

The cellular expression levels of ATP from treated C666-1 and HNE-1 cells were quantitatively assessed using the Cellular ADP/ATP‐Glo™ Assay (Promega AG) according to the manufacturer’s protocol. Values were normalized to the total protein content.

2.7 Glucose and lactate measurement

The cellular expression levels of glucose and lactate in the supernatant from treated C666-1 and HNE-1 cells were quantitatively assessed using the enzyme-linked immunosorbent assay kits according to the manufacturer’s protocol (Abcam) at room temperature.

2.8 Cell apoptosis assay

To investigate the cellular apoptosis in C666-1 and HNE-1 cells, the flow cytometry Annexin V-FITC/PI apoptosis detection kit was used. The cells were harvested and resuspended at a concentration of 106 cells/mL. FITC-Annexin V and PI were added and kept on ice in the dark for 15 min. The flow cytometry was used to measure the apoptotic cells’ ratio.

2.9 Statistics

All experiments were obtained in triplicate and analyzed using GraphPad Prism Software 6.0 (GraphPad Software, La Jolla, USA). All data are presented as the mean ± standard error of the mean (SEM). One-way analysis of variance, and t-tests were used to make a comparison. A statistically significant difference was defined as a p < 0.05.

3 Results

3.1 SETD1A was upregulated in nasopharyngeal carcinoma cells

To investigate whether SETD1A plays a pivotal role in nasopharyngeal carcinoma, the most authoritative database in the cancer-TCGA database was used to compare the difference in SETD1A expression in normal and nasopharyngeal carcinoma patient’s tissue. The results from cancer-TCGA database analysis identified that SETD1A was upregulated in nasopharyngeal carcinoma compared to normal tissue (Figure 1a and b). To determine whether nasopharyngeal carcinoma cells have molecular changes in SETD1A, the present study compared the difference in the expression of SETD1A in nasopharyngeal carcinoma cell lines (C666-1, SUNE-1, HNE-1, and 6-10b) and human nasopharyngeal epithelial cell line Np69 by RT-qPCR and western blotting analysis, respectively. RT-qPCR analysis revealed that the mRNA expression level of SETD1A was remarkably enhanced in the C666-1, SUNE-1, HNE-1, and 6-10b cell lines, compared with that in the human nasopharyngeal epithelial cell line (Figure 1c). Moreover, the level of SETD1A quantified by western blot assay was also presented a similar trend of variation (Figure 1d). These findings suggested that SETD1A was overexpressed in nasopharyngeal carcinoma cells.

Figure 1 SETD1A is upregulated in nasopharyngeal carcinoma cells. (a and b) Analysis of the expression of SETD1A in normal (n = 44) and GC (n = 520) specimens from the TCGA dataset obtained by GEPIA. (c) RT-qPCR was carried out to measure mRNA expression levels of SETD1A in Np69, C666-1, SUNE-1, HNE-1, and 6-10b cells. (d) Western blot was used to explore the protein expression level of SETD1A. **p < 0.01 vs Np69. ***p < 0.005 vs Np69. Data are expressed as mean ± SEM.
Figure 1

SETD1A is upregulated in nasopharyngeal carcinoma cells. (a and b) Analysis of the expression of SETD1A in normal (n = 44) and GC (n = 520) specimens from the TCGA dataset obtained by GEPIA. (c) RT-qPCR was carried out to measure mRNA expression levels of SETD1A in Np69, C666-1, SUNE-1, HNE-1, and 6-10b cells. (d) Western blot was used to explore the protein expression level of SETD1A. **p < 0.01 vs Np69. ***p < 0.005 vs Np69. Data are expressed as mean ± SEM.

3.2 SETD1A promotes the proliferation of nasopharyngeal carcinoma cells

According to the above experimental results, we selected two cell lines, C666-1 and HNE-1, with higher expression levels of SETD1A for subsequent experiments. To determine the effect of SETD1A on the biological function of nasopharyngeal carcinoma cells, the cells were transfected with si-NC, si-SETD1A#1, si-SETD1A#2, vector, or OE-SETD1A. The western blot results showed that SETD1A was significantly inhibited after si-SETD1A#1 and si-SETD1A#2 transfected; conversely, the SETD1A expression was obviously increased while OE-SETD1A transfected (Figure 2a). The clone formation assay and EdU staining were employed to examine the cell proliferation. The clone formation assay revealed that knockdown of SETD1A remarkably suppressed the clone formation abilities in C666-1 and HNE-1 cell lines compared to the si-NC group (Figure 2b and c). Next, the EdU staining results showed that the number of EdU-positive cells was obviously reduced after SETD1A knockdown (Figure 2d and e). By contrast, upregulated SETD1A significantly enhanced the cell proliferation and clone formation abilities in C666-1 and HNE-1 cell lines compared to the vector group (Figure 2b–e). These data revealed that the expression of SETD1A enhanced cell proliferation in nasopharyngeal carcinoma cell lines.

Figure 2 Effects of SETD1A on nasopharyngeal carcinoma cells’ proliferation. (a) After si-NC, si-SETD1A#1, si-SETD1A#2, vector, or OE-SETD1A transfected, the expression levels of SETD1A in C666-1 and HNE-1 cells were determined by western blotting. β-Actin was used as an internal control. (b and c) The colony-forming assay was used to measure the effects of SETD1A expression on cell proliferation. (d and e) The EdU staining was used to determine the effects of SETD1A expression on cell proliferation. *p < 0.05 vs si-NC. **p < 0.01 vs si-NC. ***p < 0.005 vs si-NC. ### p < 0.005 vs vector. Data are expressed as mean ± SEM.
Figure 2

Effects of SETD1A on nasopharyngeal carcinoma cells’ proliferation. (a) After si-NC, si-SETD1A#1, si-SETD1A#2, vector, or OE-SETD1A transfected, the expression levels of SETD1A in C666-1 and HNE-1 cells were determined by western blotting. β-Actin was used as an internal control. (b and c) The colony-forming assay was used to measure the effects of SETD1A expression on cell proliferation. (d and e) The EdU staining was used to determine the effects of SETD1A expression on cell proliferation. *p < 0.05 vs si-NC. **p < 0.01 vs si-NC. ***p < 0.005 vs si-NC. ### p < 0.005 vs vector. Data are expressed as mean ± SEM.

3.3 SETD1A enhances glycolysis of nasopharyngeal carcinoma cells

To investigate the mechanisms of glycolysis by which SETD1A regulated, the present study examined the essential enzymes and metabolic parameters involved in glucose metabolism in C666-1 and HNE-1 cells’ upregulation or downregulation of SETD1A. The data revealed that the cellular glucose uptake, cellular ATP levels, and lactate production in a culture medium were remarkably decreased after the knockdown of SETD1A in C666-1 and HNE-1 cells (Figure 3a). Conversely, overexpression of SETD1A in C666-1 and HNE-1 cells led to reversed effects on the above metabolic parameters (Figure 3a). Moreover, the western blot was used to confirm the results; SETD1A knockdown significantly reduced the expression of LDHA, GLUT1, and HK2 (Figure 3b). Meanwhile, the protein expression of GLUT1, HK2, and LDHA was obviously enhanced in C666-1 and HNE-1 cells overexpressing SETD1A (Figure 3b). Together, these data suggest that SETD1A enhances glucose metabolism by upregulating the expression of glycolytic-related proteins.

Figure 3 The effects of SETD1A overexpression or knockdown on Warburg effect in nasopharyngeal carcinoma cells. (a) Detection of glucose consumption, lactate production, and ATP levels in C666-1 and HNE-1 cells using commercial kits. (b) Western blot was used to explore the protein expression level of GLUT1, HK2, and LDHA. *p < 0.05 vs si-NC. **p < 0.01 vs si-NC. ***p < 0.005 vs si-NC. ## p < 0.01 vs vector. ### p < 0.005 vs vector. Data are expressed as mean ± SEM.
Figure 3

The effects of SETD1A overexpression or knockdown on Warburg effect in nasopharyngeal carcinoma cells. (a) Detection of glucose consumption, lactate production, and ATP levels in C666-1 and HNE-1 cells using commercial kits. (b) Western blot was used to explore the protein expression level of GLUT1, HK2, and LDHA. *p < 0.05 vs si-NC. **p < 0.01 vs si-NC. ***p < 0.005 vs si-NC. ## p < 0.01 vs vector. ### p < 0.005 vs vector. Data are expressed as mean ± SEM.

3.4 SETD1A suppresses the apoptosis of nasopharyngeal carcinoma cells

To investigate the potential functions of SETD1A in cellular apoptosis of nasopharyngeal carcinoma cells, the cells were transfected with the overexpression or downregulation of SETD1A and the apoptosis rate in different groups was detected by the flow cytometry analysis. As shown in Figure 4a and b, the number of apoptosis-positive cells was significantly higher in the SETD1A downregulation groups than in the si-NC group. Furthermore, when SETD1A overexpressing was performed on the C666-1 and HNE-1 cells, the cellular apoptosis rate was strongly suppressed. Similarly, western blot analysis showed that the apoptosis-related protein (Bax) expression was obviously increased with the knockdown of SETD1A, while the expression of Bcl-2 was suppressed. In contrast, overexpression of SETD1A in C666-1 and HNE-1 cells resulted in significantly decreased Bax expression and the expression of Bcl-2 was improved. These results suggested that overexpression of SETD1A contributed to the reduction of the apoptosis in nasopharyngeal carcinoma cells.

Figure 4 The effects of SETD1A overexpression or knockdown on cellular apoptosis in nasopharyngeal carcinoma cells. (a and b) The flow cytometry analysis was used to measure the effects of SETD1A expression on cellular apoptosis. (c) Western blot was used to explore the protein expression level of Bax and Bcl-2. *p < 0.05 vs si-NC. ***p < 0.005 vs si-NC. # p < 0.05 vs vector. ### p < 0.005 vs vector. Data are expressed as mean ± SEM.
Figure 4

The effects of SETD1A overexpression or knockdown on cellular apoptosis in nasopharyngeal carcinoma cells. (a and b) The flow cytometry analysis was used to measure the effects of SETD1A expression on cellular apoptosis. (c) Western blot was used to explore the protein expression level of Bax and Bcl-2. *p < 0.05 vs si-NC. ***p < 0.005 vs si-NC. # p < 0.05 vs vector. ### p < 0.005 vs vector. Data are expressed as mean ± SEM.

3.5 SETD1A promotes the progression of nasopharyngeal carcinoma through PI3K/AKT pathway

To clarify the potential mechanism constituting by which SETD1A promotes the progression of nasopharyngeal carcinoma, PI3K/AKT signaling pathway expression was measured by western blot. The knockdown of SETD1A remarkably suppressed the activation of PI3K and AKT; conversely, in the SETD1A overexpressing group, the activation of PI3K and AKT was raised (Figure 5a). To verify these results, the PI3K inhibitor LY294002 was performed to co-treatment with OE-SETD1A in C666-1 and HNE-1 cells. The results from the clone formation assay indicated that co-treatment with LY294002 in SETD1A overexpression group performed the inhibition of proliferative (Figure 5b). Similar results were observed in the apoptosis assay; when LY294002 was co-treated with OE-SETD1A, the cellular apoptosis rate was significantly increased (Figure 5c and d). Moreover, this study also found that when LY294002 was co-treated with OE-SETD1A, the effect of SETD1A on cellular glucose uptake, lactate production, and ATP levels was obviously attenuated (Figure 5e). Similar results were observed in the western blot assay, when LY294002 was co-treated with OE-SETD1A, the OE-SETD1A-induced LDHA and GLUT1 overexpression were significantly reduced (Figure 5f). These results suggest that SETD1A promotes the progression of nasopharyngeal carcinoma via PI3K/AKT pathway.

Figure 5 SETD1A is positively regulated nasopharyngeal carcinoma progression via PI3K/AKT pathway. (a) Western blot was used to explore the protein expression level of p-PI3K and p-AKT after si-NC, si-SETD1A#1, si-SETD1A#2, vector, or OE-SETD1A transfected. (b) The colony-forming assay was used to measure the effects of SETD1A expression on cell proliferation after LY294002 treatment. (c, d, and f) The flow cytometry analysis was used to measure the cellular apoptosis after LY294002 treatment. (e) Detection of glucose consumption, lactate production, and ATP levels in C666-1 and HNE-1 cells using commercial kits after LY294002 treatment. (f) Western blot was used to explore the protein expression level of GLUT1 and LDHA. *p < 0.05 vs si-NC. **p < 0.01 vs si-NC. ***p < 0.005 vs si-NC. # p < 0.05 vs vector. ## p < 0.01 vs vector. ### p < 0.005 vs vector. Data are expressed as mean ± SEM.
Figure 5

SETD1A is positively regulated nasopharyngeal carcinoma progression via PI3K/AKT pathway. (a) Western blot was used to explore the protein expression level of p-PI3K and p-AKT after si-NC, si-SETD1A#1, si-SETD1A#2, vector, or OE-SETD1A transfected. (b) The colony-forming assay was used to measure the effects of SETD1A expression on cell proliferation after LY294002 treatment. (c, d, and f) The flow cytometry analysis was used to measure the cellular apoptosis after LY294002 treatment. (e) Detection of glucose consumption, lactate production, and ATP levels in C666-1 and HNE-1 cells using commercial kits after LY294002 treatment. (f) Western blot was used to explore the protein expression level of GLUT1 and LDHA. *p < 0.05 vs si-NC. **p < 0.01 vs si-NC. ***p < 0.005 vs si-NC. # p < 0.05 vs vector. ## p < 0.01 vs vector. ### p < 0.005 vs vector. Data are expressed as mean ± SEM.

4 Discussion

Epigenetically altered tumor progenitor genes were employed as pivotal mediators to enhance the likelihood of cancer development and drug resistance [18]. Previous studies have demonstrated that aberrant histone lysine methylation-controlled regulatory induces oncogene expression and frequently contributes to numerous tumorigenesis [19]. In addition, the interfere with transcription factor lysine methylation could suppress the viability of cancer cells. SETD1A is involved in the epigenetic regulation of transcription containing histone lysine methyltransferase, which highly involved in cancer progression. Recent studies reported that SETD1A was highly expressed in hepatocellular carcinoma and breast cancer cells while high SETD1A results in sorafenib resistance [15,20]. However, the role of SETD1A in nasopharyngeal carcinoma remains unclear. The pathogenesis of nasopharyngeal carcinoma has not yet been completely defined. Moreover, the long-term prognosis of nasopharyngeal carcinoma is still unsatisfactory. Changing or modifying the disease-related genes or their expression has become a central issue in the biological treatment of nasopharyngeal carcinoma. A lot of signaling pathways have been found to be related to the molecular mechanism of nasopharyngeal carcinogeneses, such as Wnt/β-catenin or PI3K/AKT signaling [21,22]. Here, this study revealed the function of SETD1A in nasopharyngeal carcinoma that the expression of SETD1A was associated with nasopharyngeal carcinoma cells. Silence of SETD1A results in nasopharyngeal carcinoma cell proliferation inhibition and cell apoptosis. By contrast, upregulated SETD1A significantly enhanced the cell proliferation and reduced the apoptosis ratio in nasopharyngeal carcinoma cells. In numerous cancer cells, the aerobic glycolysis is frequently over-activated. The overexpressed glycolysis is necessary for cancer cells’ metastasis and proliferation to supply proteins, lipids, nucleotides’ production, metabolic intermediates, and ATP generation. The conventional anticancer drugs often suppress cancer cell growth by blocking the glycolysis process in cancer cells [23]. The finding in this study consists of the above-mentioned anticancer mechanism; the results indicated that SETD1A remarkably enhances glucose metabolism by upregulating the expression of glycolytic-related proteins. These data imply that knockdown of SETD1A-reduced glycolysis contributes to metabolic stress and further induces the initiation of the cellular apoptosis process in nasopharyngeal carcinoma cells. PI3K/AKT signaling pathway has been involved in the mediation of cancer cell metabolism via multiple mechanisms. Previous studies have reported that over-activation of PI3K/AKT plays a major role in glycolysis promotion in many cancer cells [24,25]. Multiple evidence indicated that PI3K/AKT signaling pathway could be triggered by reactive oxygen species through blocked some protein phosphatase including protein phosphatase 2A and phosphatase and tensin homolog [26,27].

The whole-exome sequencing reported that PI3K signaling is the prominently activated pathway in nasopharyngeal carcinoma; these results revealed that the nasopharyngeal carcinoma oncogenesis may be associated with the activation of PI3K signaling. All these findings indicated that PI3K/AKT signaling pathway activation aberrantly enhances tumorigenesis in nasopharyngeal carcinoma. Nevertheless, the mechanisms of PI3K/AKT activation in biological function of nasopharyngeal carcinoma have not been fully understanded.

This report is the first to link the SETD1A to PI3K/AKT pathway in nasopharyngeal carcinoma cells to the best of our knowledge. Mechanistically, this study used si-NC, si-SETD1A#1, si-SETD1A#2, vector, or OE-SETD1A to knockdown or overexpress the SETD1A in nasopharyngeal carcinoma cells. To explore whether the regulation of cell proliferation, glycolysis, and apoptosis by SETD1A depends on PI3K/AKT signaling. We used LY294002 to inhibit PI3K/AKT signaling in the nasopharyngeal carcinoma cells. This study found that when LY294002 was co-treated with SETD1A overexpression, the cellular apoptosis rate was significantly increased and the SETD1A-induced cellular ATP levels, glucose uptake, glycolysis, and lactate production were obviously attenuated. Therefore, we conclude that SETD1A promoting the progression of nasopharyngeal carcinoma is mainly depended on the PI3K/AKT signaling activation. The previous study indicated that microRNA-21 expression is triggered by LMP1 via the PI3K/Akt/FOXO3a pathway and at last results in chemo-resistance in nasopharyngeal carcinoma cells [28]. However, in this study, the correlation between SETD1A, PI3K/Akt/FOXO3a pathway, and chemo-resistance in nasopharyngeal carcinoma has not been explored yet, which will be the direction of future studies.

5 Conclusion

In conclusion, this study identified overexpressed SETD1A as a positive regulator of proliferation that induced nasopharyngeal carcinoma cells’ aerobic glycolysis via PI3K/AKT signaling activation in vitro. This study laid a strong foundation for unveiling the precise anticancer mechanism of SETD1A. In particular, the SETD1A may become a novel target for further inhibitor design to interfere with PI3K/AKT-dependent nasopharyngeal carcinoma progression.

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Acknowledgments

Not applicable.

  1. Funding information: Not applicable.

  2. Author contributions: Jianyi Huang and Jinshu Fang designed the study, completed the experiment, and supervised the data collection, Xiao Xu analyzed the data and interpreted the data, and Xueshen Qian and Xia Zhang prepared the article for publication and reviewed the draft of the manuscript. All authors have read and approved the manuscript.

  3. Conflict of interest: The authors state that there are no conflicts of interest to disclose.

  4. Data availability statement: The datasets generated during the current study are available from the corresponding author on reasonable request.

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Received: 2022-05-12
Revised: 2022-09-27
Accepted: 2022-09-28
Published Online: 2022-11-22

© 2022 the author(s), published by De Gruyter

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

Articles in the same Issue

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  3. A ceRNA network mediated by LINC00475 in papillary thyroid carcinoma
  4. Differences in complications between hepatitis B-related cirrhosis and alcohol-related cirrhosis
  5. Effect of gestational diabetes mellitus on lipid profile: A systematic review and meta-analysis
  6. Long noncoding RNA NR2F1-AS1 stimulates the tumorigenic behavior of non-small cell lung cancer cells by sponging miR-363-3p to increase SOX4
  7. Promising novel biomarkers and candidate small-molecule drugs for lung adenocarcinoma: Evidence from bioinformatics analysis of high-throughput data
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  12. Does diabetes affect paraneoplastic thrombocytosis in colorectal cancer?
  13. Is there any effect on imprinted genes H19, PEG3, and SNRPN during AOA?
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  21. SLCO4A1-AS1 mediates pancreatic cancer development via miR-4673/KIF21B axis
  22. lncRNA ACTA2-AS1 inhibits malignant phenotypes of gastric cancer cells
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  24. Prognostic value of nicotinamide N-methyltransferase in human cancers: Evidence from a meta-analysis and database validation
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  31. Quercitrin protects human bronchial epithelial cells from oxidative damage
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  212. Erratum to “Effect of femoral head necrosis cystic area on femoral head collapse and stress distribution in femoral head: A clinical and finite element study”
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  214. Retraction
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https://doi.org/10.1515/med-2022-0586
Keywords for this article
SETD1A; nasopharyngeal carcinoma; glycolysis; proliferation; PI3K/AKT
Creative Commons
BY 4.0

Articles in the same Issue

  1. Research Articles
  2. AMBRA1 attenuates the proliferation of uveal melanoma cells
  3. A ceRNA network mediated by LINC00475 in papillary thyroid carcinoma
  4. Differences in complications between hepatitis B-related cirrhosis and alcohol-related cirrhosis
  5. Effect of gestational diabetes mellitus on lipid profile: A systematic review and meta-analysis
  6. Long noncoding RNA NR2F1-AS1 stimulates the tumorigenic behavior of non-small cell lung cancer cells by sponging miR-363-3p to increase SOX4
  7. Promising novel biomarkers and candidate small-molecule drugs for lung adenocarcinoma: Evidence from bioinformatics analysis of high-throughput data
  8. Plasmapheresis: Is it a potential alternative treatment for chronic urticaria?
  9. The biomarkers of key miRNAs and gene targets associated with extranodal NK/T-cell lymphoma
  10. Gene signature to predict prognostic survival of hepatocellular carcinoma
  11. Effects of miRNA-199a-5p on cell proliferation and apoptosis of uterine leiomyoma by targeting MED12
  12. Does diabetes affect paraneoplastic thrombocytosis in colorectal cancer?
  13. Is there any effect on imprinted genes H19, PEG3, and SNRPN during AOA?
  14. Leptin and PCSK9 concentrations are associated with vascular endothelial cytokines in patients with stable coronary heart disease
  15. Pericentric inversion of chromosome 6 and male fertility problems
  16. Staple line reinforcement with nebulized cyanoacrylate glue in laparoscopic sleeve gastrectomy: A propensity score-matched study
  17. Retrospective analysis of crescent score in clinical prognosis of IgA nephropathy
  18. Expression of DNM3 is associated with good outcome in colorectal cancer
  19. Activation of SphK2 contributes to adipocyte-induced EOC cell proliferation
  20. CRRT influences PICCO measurements in febrile critically ill patients
  21. SLCO4A1-AS1 mediates pancreatic cancer development via miR-4673/KIF21B axis
  22. lncRNA ACTA2-AS1 inhibits malignant phenotypes of gastric cancer cells
  23. circ_AKT3 knockdown suppresses cisplatin resistance in gastric cancer
  24. Prognostic value of nicotinamide N-methyltransferase in human cancers: Evidence from a meta-analysis and database validation
  25. GPC2 deficiency inhibits cell growth and metastasis in colon adenocarcinoma
  26. A pan-cancer analysis of the oncogenic role of Holliday junction recognition protein in human tumors
  27. Radiation increases COL1A1, COL3A1, and COL1A2 expression in breast cancer
  28. Association between preventable risk factors and metabolic syndrome
  29. miR-29c-5p knockdown reduces inflammation and blood–brain barrier disruption by upregulating LRP6
  30. Cardiac contractility modulation ameliorates myocardial metabolic remodeling in a rabbit model of chronic heart failure through activation of AMPK and PPAR-α pathway
  31. Quercitrin protects human bronchial epithelial cells from oxidative damage
  32. Smurf2 suppresses the metastasis of hepatocellular carcinoma via ubiquitin degradation of Smad2
  33. circRNA_0001679/miR-338-3p/DUSP16 axis aggravates acute lung injury
  34. Sonoclot’s usefulness in prediction of cardiopulmonary arrest prognosis: A proof of concept study
  35. Four drug metabolism-related subgroups of pancreatic adenocarcinoma in prognosis, immune infiltration, and gene mutation
  36. Decreased expression of miR-195 mediated by hypermethylation promotes osteosarcoma
  37. LMO3 promotes proliferation and metastasis of papillary thyroid carcinoma cells by regulating LIMK1-mediated cofilin and the β-catenin pathway
  38. Cx43 upregulation in HUVECs under stretch via TGF-β1 and cytoskeletal network
  39. Evaluation of menstrual irregularities after COVID-19 vaccination: Results of the MECOVAC survey
  40. Histopathologic findings on removed stomach after sleeve gastrectomy. Do they influence the outcome?
  41. Analysis of the expression and prognostic value of MT1-MMP, β1-integrin and YAP1 in glioma
  42. Optimal diagnosis of the skin cancer using a hybrid deep neural network and grasshopper optimization algorithm
  43. miR-223-3p alleviates TGF-β-induced epithelial-mesenchymal transition and extracellular matrix deposition by targeting SP3 in endometrial epithelial cells
  44. Clinical value of SIRT1 as a prognostic biomarker in esophageal squamous cell carcinoma, a systematic meta-analysis
  45. circ_0020123 promotes cell proliferation and migration in lung adenocarcinoma via PDZD8
  46. miR-22-5p regulates the self-renewal of spermatogonial stem cells by targeting EZH2
  47. hsa-miR-340-5p inhibits epithelial–mesenchymal transition in endometriosis by targeting MAP3K2 and inactivating MAPK/ERK signaling
  48. circ_0085296 inhibits the biological functions of trophoblast cells to promote the progression of preeclampsia via the miR-942-5p/THBS2 network
  49. TCD hemodynamics findings in the subacute phase of anterior circulation stroke patients treated with mechanical thrombectomy
  50. Development of a risk-stratification scoring system for predicting risk of breast cancer based on non-alcoholic fatty liver disease, non-alcoholic fatty pancreas disease, and uric acid
  51. Tollip promotes hepatocellular carcinoma progression via PI3K/AKT pathway
  52. circ_0062491 alleviates periodontitis via the miR-142-5p/IGF1 axis
  53. Human amniotic fluid as a source of stem cells
  54. lncRNA NONRATT013819.2 promotes transforming growth factor-β1-induced myofibroblastic transition of hepatic stellate cells by miR24-3p/lox
  55. NORAD modulates miR-30c-5p-LDHA to protect lung endothelial cells damage
  56. Idiopathic pulmonary fibrosis telemedicine management during COVID-19 outbreak
  57. Risk factors for adverse drug reactions associated with clopidogrel therapy
  58. Serum zinc associated with immunity and inflammatory markers in Covid-19
  59. The relationship between night shift work and breast cancer incidence: A systematic review and meta-analysis of observational studies
  60. LncRNA expression in idiopathic achalasia: New insight and preliminary exploration into pathogenesis
  61. Notoginsenoside R1 alleviates spinal cord injury through the miR-301a/KLF7 axis to activate Wnt/β-catenin pathway
  62. Moscatilin suppresses the inflammation from macrophages and T cells
  63. Zoledronate promotes ECM degradation and apoptosis via Wnt/β-catenin
  64. Epithelial-mesenchymal transition-related genes in coronary artery disease
  65. The effect evaluation of traditional vaginal surgery and transvaginal mesh surgery for severe pelvic organ prolapse: 5 years follow-up
  66. Repeated partial splenic artery embolization for hypersplenism improves platelet count
  67. Low expression of miR-27b in serum exosomes of non-small cell lung cancer facilitates its progression by affecting EGFR
  68. Exosomal hsa_circ_0000519 modulates the NSCLC cell growth and metastasis via miR-1258/RHOV axis
  69. miR-455-5p enhances 5-fluorouracil sensitivity in colorectal cancer cells by targeting PIK3R1 and DEPDC1
  70. The effect of tranexamic acid on the reduction of intraoperative and postoperative blood loss and thromboembolic risk in patients with hip fracture
  71. Isocitrate dehydrogenase 1 mutation in cholangiocarcinoma impairs tumor progression by sensitizing cells to ferroptosis
  72. Artemisinin protects against cerebral ischemia and reperfusion injury via inhibiting the NF-κB pathway
  73. A 16-gene signature associated with homologous recombination deficiency for prognosis prediction in patients with triple-negative breast cancer
  74. Lidocaine ameliorates chronic constriction injury-induced neuropathic pain through regulating M1/M2 microglia polarization
  75. MicroRNA 322-5p reduced neuronal inflammation via the TLR4/TRAF6/NF-κB axis in a rat epilepsy model
  76. miR-1273h-5p suppresses CXCL12 expression and inhibits gastric cancer cell invasion and metastasis
  77. Clinical characteristics of pneumonia patients of long course of illness infected with SARS-CoV-2
  78. circRNF20 aggravates the malignancy of retinoblastoma depending on the regulation of miR-132-3p/PAX6 axis
  79. Linezolid for resistant Gram-positive bacterial infections in children under 12 years: A meta-analysis
  80. Rack1 regulates pro-inflammatory cytokines by NF-κB in diabetic nephropathy
  81. Comprehensive analysis of molecular mechanism and a novel prognostic signature based on small nuclear RNA biomarkers in gastric cancer patients
  82. Smog and risk of maternal and fetal birth outcomes: A retrospective study in Baoding, China
  83. Let-7i-3p inhibits the cell cycle, proliferation, invasion, and migration of colorectal cancer cells via downregulating CCND1
  84. β2-Adrenergic receptor expression in subchondral bone of patients with varus knee osteoarthritis
  85. Possible impact of COVID-19 pandemic and lockdown on suicide behavior among patients in Southeast Serbia
  86. In vitro antimicrobial activity of ozonated oil in liposome eyedrop against multidrug-resistant bacteria
  87. Potential biomarkers for inflammatory response in acute lung injury
  88. A low serum uric acid concentration predicts a poor prognosis in adult patients with candidemia
  89. Antitumor activity of recombinant oncolytic vaccinia virus with human IL2
  90. ALKBH5 inhibits TNF-α-induced apoptosis of HUVECs through Bcl-2 pathway
  91. Risk prediction of cardiovascular disease using machine learning classifiers
  92. Value of ultrasonography parameters in diagnosing polycystic ovary syndrome
  93. Bioinformatics analysis reveals three key genes and four survival genes associated with youth-onset NSCLC
  94. Identification of autophagy-related biomarkers in patients with pulmonary arterial hypertension based on bioinformatics analysis
  95. Protective effects of glaucocalyxin A on the airway of asthmatic mice
  96. Overexpression of miR-100-5p inhibits papillary thyroid cancer progression via targeting FZD8
  97. Bioinformatics-based analysis of SUMOylation-related genes in hepatocellular carcinoma reveals a role of upregulated SAE1 in promoting cell proliferation
  98. Effectiveness and clinical benefits of new anti-diabetic drugs: A real life experience
  99. Identification of osteoporosis based on gene biomarkers using support vector machine
  100. Tanshinone IIA reverses oxaliplatin resistance in colorectal cancer through microRNA-30b-5p/AVEN axis
  101. miR-212-5p inhibits nasopharyngeal carcinoma progression by targeting METTL3
  102. Association of ST-T changes with all-cause mortality among patients with peripheral T-cell lymphomas
  103. LINC00665/miRNAs axis-mediated collagen type XI alpha 1 correlates with immune infiltration and malignant phenotypes in lung adenocarcinoma
  104. The perinatal factors that influence the excretion of fecal calprotectin in premature-born children
  105. Effect of femoral head necrosis cystic area on femoral head collapse and stress distribution in femoral head: A clinical and finite element study
  106. Does the use of 3D-printed cones give a chance to postpone the use of megaprostheses in patients with large bone defects in the knee joint?
  107. lncRNA HAGLR modulates myocardial ischemia–reperfusion injury in mice through regulating miR-133a-3p/MAPK1 axis
  108. Protective effect of ghrelin on intestinal I/R injury in rats
  109. In vivo knee kinematics of an innovative prosthesis design
  110. Relationship between the height of fibular head and the incidence and severity of knee osteoarthritis
  111. lncRNA WT1-AS attenuates hypoxia/ischemia-induced neuronal injury during cerebral ischemic stroke via miR-186-5p/XIAP axis
  112. Correlation of cardiac troponin T and APACHE III score with all-cause in-hospital mortality in critically ill patients with acute pulmonary embolism
  113. LncRNA LINC01857 reduces metastasis and angiogenesis in breast cancer cells via regulating miR-2052/CENPQ axis
  114. Endothelial cell-specific molecule 1 (ESM1) promoted by transcription factor SPI1 acts as an oncogene to modulate the malignant phenotype of endometrial cancer
  115. SELENBP1 inhibits progression of colorectal cancer by suppressing epithelial–mesenchymal transition
  116. Visfatin is negatively associated with coronary artery lesions in subjects with impaired fasting glucose
  117. Treatment and outcomes of mechanical complications of acute myocardial infarction during the Covid-19 era: A comparison with the pre-Covid-19 period. A systematic review and meta-analysis
  118. Neonatal stroke surveillance study protocol in the United Kingdom and Republic of Ireland
  119. Oncogenic role of TWF2 in human tumors: A pan-cancer analysis
  120. Mean corpuscular hemoglobin predicts the length of hospital stay independent of severity classification in patients with acute pancreatitis
  121. Association of gallstone and polymorphisms of UGT1A1*27 and UGT1A1*28 in patients with hepatitis B virus-related liver failure
  122. TGF-β1 upregulates Sar1a expression and induces procollagen-I secretion in hypertrophic scarring fibroblasts
  123. Antisense lncRNA PCNA-AS1 promotes esophageal squamous cell carcinoma progression through the miR-2467-3p/PCNA axis
  124. NK-cell dysfunction of acute myeloid leukemia in relation to the renin–angiotensin system and neurotransmitter genes
  125. The effect of dilution with glucose and prolonged injection time on dexamethasone-induced perineal irritation – A randomized controlled trial
  126. miR-146-5p restrains calcification of vascular smooth muscle cells by suppressing TRAF6
  127. Role of lncRNA MIAT/miR-361-3p/CCAR2 in prostate cancer cells
  128. lncRNA NORAD promotes lung cancer progression by competitively binding to miR-28-3p with E2F2
  129. Noninvasive diagnosis of AIH/PBC overlap syndrome based on prediction models
  130. lncRNA FAM230B is highly expressed in colorectal cancer and suppresses the maturation of miR-1182 to increase cell proliferation
  131. circ-LIMK1 regulates cisplatin resistance in lung adenocarcinoma by targeting miR-512-5p/HMGA1 axis
  132. LncRNA SNHG3 promoted cell proliferation, migration, and metastasis of esophageal squamous cell carcinoma via regulating miR-151a-3p/PFN2 axis
  133. Risk perception and affective state on work exhaustion in obstetrics during the COVID-19 pandemic
  134. lncRNA-AC130710/miR-129-5p/mGluR1 axis promote migration and invasion by activating PKCα-MAPK signal pathway in melanoma
  135. SNRPB promotes cell cycle progression in thyroid carcinoma via inhibiting p53
  136. Xylooligosaccharides and aerobic training regulate metabolism and behavior in rats with streptozotocin-induced type 1 diabetes
  137. Serpin family A member 1 is an oncogene in glioma and its translation is enhanced by NAD(P)H quinone dehydrogenase 1 through RNA-binding activity
  138. Silencing of CPSF7 inhibits the proliferation, migration, and invasion of lung adenocarcinoma cells by blocking the AKT/mTOR signaling pathway
  139. Ultrasound-guided lumbar plexus block versus transversus abdominis plane block for analgesia in children with hip dislocation: A double-blind, randomized trial
  140. Relationship of plasma MBP and 8-oxo-dG with brain damage in preterm
  141. Identification of a novel necroptosis-associated miRNA signature for predicting the prognosis in head and neck squamous cell carcinoma
  142. Delayed femoral vein ligation reduces operative time and blood loss during hip disarticulation in patients with extremity tumors
  143. The expression of ASAP3 and NOTCH3 and the clinicopathological characteristics of adult glioma patients
  144. Longitudinal analysis of factors related to Helicobacter pylori infection in Chinese adults
  145. HOXA10 enhances cell proliferation and suppresses apoptosis in esophageal cancer via activating p38/ERK signaling pathway
  146. Meta-analysis of early-life antibiotic use and allergic rhinitis
  147. Marital status and its correlation with age, race, and gender in prognosis of tonsil squamous cell carcinomas
  148. HPV16 E6E7 up-regulates KIF2A expression by activating JNK/c-Jun signal, is beneficial to migration and invasion of cervical cancer cells
  149. Amino acid profiles in the tissue and serum of patients with liver cancer
  150. Pain in critically ill COVID-19 patients: An Italian retrospective study
  151. Immunohistochemical distribution of Bcl-2 and p53 apoptotic markers in acetamiprid-induced nephrotoxicity
  152. Estradiol pretreatment in GnRH antagonist protocol for IVF/ICSI treatment
  153. Long non-coding RNAs LINC00689 inhibits the apoptosis of human nucleus pulposus cells via miR-3127-5p/ATG7 axis-mediated autophagy
  154. The relationship between oxygen therapy, drug therapy, and COVID-19 mortality
  155. Monitoring hypertensive disorders in pregnancy to prevent preeclampsia in pregnant women of advanced maternal age: Trial mimicking with retrospective data
  156. SETD1A promotes the proliferation and glycolysis of nasopharyngeal carcinoma cells by activating the PI3K/Akt pathway
  157. The role of Shunaoxin pills in the treatment of chronic cerebral hypoperfusion and its main pharmacodynamic components
  158. TET3 governs malignant behaviors and unfavorable prognosis of esophageal squamous cell carcinoma by activating the PI3K/AKT/GSK3β/β-catenin pathway
  159. Associations between morphokinetic parameters of temporary-arrest embryos and the clinical prognosis in FET cycles
  160. Long noncoding RNA WT1-AS regulates trophoblast proliferation, migration, and invasion via the microRNA-186-5p/CADM2 axis
  161. The incidence of bronchiectasis in chronic obstructive pulmonary disease
  162. Integrated bioinformatics analysis shows integrin alpha 3 is a prognostic biomarker for pancreatic cancer
  163. Inhibition of miR-21 improves pulmonary vascular responses in bronchopulmonary dysplasia by targeting the DDAH1/ADMA/NO pathway
  164. Comparison of hospitalized patients with severe pneumonia caused by COVID-19 and influenza A (H7N9 and H1N1): A retrospective study from a designated hospital
  165. lncRNA ZFAS1 promotes intervertebral disc degeneration by upregulating AAK1
  166. Pathological characteristics of liver injury induced by N,N-dimethylformamide: From humans to animal models
  167. lncRNA ELFN1-AS1 enhances the progression of colon cancer by targeting miR-4270 to upregulate AURKB
  168. DARS-AS1 modulates cell proliferation and migration of gastric cancer cells by regulating miR-330-3p/NAT10 axis
  169. Dezocine inhibits cell proliferation, migration, and invasion by targeting CRABP2 in ovarian cancer
  170. MGST1 alleviates the oxidative stress of trophoblast cells induced by hypoxia/reoxygenation and promotes cell proliferation, migration, and invasion by activating the PI3K/AKT/mTOR pathway
  171. Bifidobacterium lactis Probio-M8 ameliorated the symptoms of type 2 diabetes mellitus mice by changing ileum FXR-CYP7A1
  172. circRNA DENND1B inhibits tumorigenicity of clear cell renal cell carcinoma via miR-122-5p/TIMP2 axis
  173. EphA3 targeted by miR-3666 contributes to melanoma malignancy via activating ERK1/2 and p38 MAPK pathways
  174. Pacemakers and methylprednisolone pulse therapy in immune-related myocarditis concomitant with complete heart block
  175. miRNA-130a-3p targets sphingosine-1-phosphate receptor 1 to activate the microglial and astrocytes and to promote neural injury under the high glucose condition
  176. Review Articles
  177. Current management of cancer pain in Italy: Expert opinion paper
  178. Hearing loss and brain disorders: A review of multiple pathologies
  179. The rationale for using low-molecular weight heparin in the therapy of symptomatic COVID-19 patients
  180. Amyotrophic lateral sclerosis and delayed onset muscle soreness in light of the impaired blink and stretch reflexes – watch out for Piezo2
  181. Interleukin-35 in autoimmune dermatoses: Current concepts
  182. Recent discoveries in microbiota dysbiosis, cholangiocytic factors, and models for studying the pathogenesis of primary sclerosing cholangitis
  183. Advantages of ketamine in pediatric anesthesia
  184. Congenital adrenal hyperplasia. Role of dentist in early diagnosis
  185. Migraine management: Non-pharmacological points for patients and health care professionals
  186. Atherogenic index of plasma and coronary artery disease: A systematic review
  187. Physiological and modulatory role of thioredoxins in the cellular function
  188. Case Reports
  189. Intrauterine Bakri balloon tamponade plus cervical cerclage for the prevention and treatment of postpartum haemorrhage in late pregnancy complicated with acute aortic dissection: Case series
  190. A case of successful pembrolizumab monotherapy in a patient with advanced lung adenocarcinoma: Use of multiple biomarkers in combination for clinical practice
  191. Unusual neurological manifestations of bilateral medial medullary infarction: A case report
  192. Atypical symptoms of malignant hyperthermia: A rare causative mutation in the RYR1 gene
  193. A case report of dermatomyositis with the missed diagnosis of non-small cell lung cancer and concurrence of pulmonary tuberculosis
  194. A rare case of endometrial polyp complicated with uterine inversion: A case report and clinical management
  195. Spontaneous rupturing of splenic artery aneurysm: Another reason for fatal syncope and shock (Case report and literature review)
  196. Fungal infection mimicking COVID-19 infection – A case report
  197. Concurrent aspergillosis and cystic pulmonary metastases in a patient with tongue squamous cell carcinoma
  198. Paraganglioma-induced inverted takotsubo-like cardiomyopathy leading to cardiogenic shock successfully treated with extracorporeal membrane oxygenation
  199. Lineage switch from lymphoma to myeloid neoplasms: First case series from a single institution
  200. Trismus during tracheal extubation as a complication of general anaesthesia – A case report
  201. Simultaneous treatment of a pubovesical fistula and lymph node metastasis secondary to multimodal treatment for prostate cancer: Case report and review of the literature
  202. Two case reports of skin vasculitis following the COVID-19 immunization
  203. Ureteroiliac fistula after oncological surgery: Case report and review of the literature
  204. Synchronous triple primary malignant tumours in the bladder, prostate, and lung harbouring TP53 and MEK1 mutations accompanied with severe cardiovascular diseases: A case report
  205. Huge mucinous cystic neoplasms with adhesion to the left colon: A case report and literature review
  206. Commentary
  207. Commentary on “Clinicopathological features of programmed cell death-ligand 1 expression in patients with oral squamous cell carcinoma”
  208. Rapid Communication
  209. COVID-19 fear, post-traumatic stress, growth, and the role of resilience
  210. Erratum
  211. Erratum to “Tollip promotes hepatocellular carcinoma progression via PI3K/AKT pathway”
  212. Erratum to “Effect of femoral head necrosis cystic area on femoral head collapse and stress distribution in femoral head: A clinical and finite element study”
  213. Erratum to “lncRNA NORAD promotes lung cancer progression by competitively binding to miR-28-3p with E2F2”
  214. Retraction
  215. Expression and role of ABIN1 in sepsis: In vitro and in vivo studies
  216. Retraction to “miR-519d downregulates LEP expression to inhibit preeclampsia development”
  217. Special Issue Computational Intelligence Methodologies Meets Recurrent Cancers - Part II
  218. Usefulness of close surveillance for rectal cancer patients after neoadjuvant chemoradiotherapy
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