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1.
Loss‐of‐function of miR‐142 by hypermethylation promotes TGF‐β‐mediated tumour growth and metastasis in hepatocellular carcinoma
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Qiangfeng Yu Leyang Xiang Libo Yin Xincheng Liu Dinghua Yang Jianyin Zhou 《Cell proliferation》2017,50(6)
Objectives
Hypermethylation‐induced epigenetic silencing of tumour suppressor genes (TSGs) are frequent events during carcinogenesis. MicroRNA‐142 (miR‐142) is found to be dysregulated in cancer patients to participate into tumour growth, metastasis and angiogenesis. However, the tumour suppressive role of miR‐142 and the status of methylation are not fully understood in hepatocellular carcinoma (HCC).Methods
Hepatocellular carcinoma tissues and corresponding non‐neoplastic tissues were collected. The expression and function of miR‐142 and TGF‐β in two HCC cell lines were determined. The miRNA‐mRNA network of miR‐142 was analysed in HCC cell lines.Results
We found that the miR‐142 expression was reduced in tumour tissues and two HCC cell lines HepG2 and SMMC7721, which correlated to higher TNM stage, metastasis and differentiation. Moreover, miR‐142 was identified to directly target and inhibit transforming growth factor β (TGF‐β), leading to decreased cell vitality, proliferation, EMT and the ability of pro‐angiogenesis in TGF‐β‐dependent manner. Interestingly, the status of methylation of miR‐142 was analysed and the results found the hypermethylated miR‐142 in tumour patients and cell lines. The treatment of methylation inhibitor 5‐Aza could restore the expression of miR‐142 to suppress the TGF‐β expression, which impaired TGF‐β‐induced tumour growth.Conclusion
These findings implicated that miR‐142 was a tumour suppressor gene in HCC and often hyermethylated to increase TGF‐β‐induced development of hepatocellular carcinoma.2.
Objectives
Recent lines of evidence have indicated that miR‐34c can play important roles in regulation of the cell cycle, cell senescence and apoptosis of mouse and human tumour cells, spermatogenesis, and male germ‐cell apoptosis. However, there is little information on the effects of miR‐34c on proliferation and apoptosis of livestock male germ cells. The dairy goat is a convenient domestic species for biological investigation and application. The purpose of this study was to investigate the effects of miR‐34c on apoptosis and proliferation of dairy goat male germline stem cells (mGSCs), as well as to determine the relationship between p53 and miR‐34c in this species.Materials and methods
Morphological observation, miRNA in situ hybridisation (ISH), bromodeoxyuridine staining, flow cytometry, quantitative‐RT‐PCR (Q‐RT‐PCR) and western blotting were utilized to ascertain apoptosis and proliferation of mGSCs, through transfection of miR‐34c mimics (miR‐34c), miR‐34c inhibitor (anti‐miR‐34c), miR‐34c mimics and inhibitors co‐transfected (mixture) compared to control groups.Results
Results manifested that miR‐34c over‐expression promoted mGSCs apoptosis and suppressed their proliferation. Simultaneously, a variety of apoptosis‐related gene expression was increased while some proliferation‐related genes were downregulated. Accordingly, miR‐34c promoted apoptosis in mGSCs and reduced their proliferation; moreover, expression of miR‐34c was p53‐dependent.Conclusions
This study is the first to provide a model for study of miRNAs and mechanisms of proliferation and apoptosis in male dairy goat germ cells.3.
Schisandrin B down‐regulated lncRNA BCYRN1 expression of airway smooth muscle cells by improving miR‐150 expression to inhibit the proliferation and migration of ASMC in asthmatic rats
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Xiao‐yu Zhang Xue‐yi Tang Li‐jun Ma Ya‐li Guo Xiao‐su Li Li‐min Zhao Cui‐jie Tian Dong‐Jun Cheng Zhuo‐chang Chen Luo‐xian Zhang 《Cell proliferation》2017,50(6)
Objective
The mechanism of Schisandrin B on the proliferation and migration of airway smooth muscle cells (ASMCs) in asthmatic rats was explored.Methods
SD rats were divided into three groups: control (group 1), model (group 2) and model + Schisandrin B (group 3). miR‐150 and lncRNA BCYRN1 levels were measured by qRT‐PCR. The combination of BCYRN1 and miR‐150 was detected by RNA pull down. ASMCs’ viability/proliferation/migration were examined by WST‐1 assay and 24‐well Transwell system.Results
Schisandrin B up‐regulated miR‐150 expression and down‐regulated BCYRN1 expression in sensitized rats. Schisandrin B reversed the expression of miR‐150 and BCYRN1 in MV‐treated ASMCs. In addition, Schisandrin B inhibited the viability, proliferation and migration of MV‐induced ASMCs. We also found miR‐150 inhibited BCYRN1 expression which was proved by experiments using ASMCs transfected with miR‐150 inhibitor.Conclusion
Schisandrin B increased miR‐150 expression and decreased BCYRN1, and BCYRN1 expression was inhibited by miR‐150, which indicated that Schisandrin B could regulate BCYRN1 through miR‐150.4.
SATB2 targeted by methylated miR‐34c‐5p suppresses proliferation and metastasis attenuating the epithelial‐mesenchymal transition in colorectal cancer
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Objectives
SATB2 has been shown to be markedly reduced in colorectal cancer (CRC) tissues relative to paired normal controls; however, the mechanism behind remains not well understood. To investigate why SATB2 was down‐regulated in CRC, we attempted to analyse it from the angle of miRNA‐mRNA modulation.Materials and methods
SATB2 expression was detected in CRC tissues using immunohistochemistry and verified using real‐time PCR on mRNA level, followed by analysis of clinicopathological significance of its expression. Metastatic variation of CRC cells was evaluated both in vivo and in vitro. To find out the potential miRNA that directly regulate the SATB2, luciferase reporter assay was performed following the bioinformatic prediction.Results
SATB2 was confirmed to be closely linked with the metastasis and shorter overall survival of CRC in our own cases. Silencing of SATB2 was shown to be able to promote the metastatic ability of CRC cells in vivo, enhancing the epithelial‐mesenchymal transition (EMT). Mechanistically, miR‐34c‐5p was identified to be a novel miRNA that can directly modulate the SATB2. It turned out that the promoter of miR‐34c‐5p was methylated, which leads to the repression of miR‐34c‐5p in CRC. Treatment with 5‐Aza‐dC can reasonably and significantly restore the level of miR‐34c‐5p in CRC cells relative to control, thereby down‐regulating the SATB2.Conclusions
Together, our study revealed that SATB2 targeted by methylated miR‐34c‐5p can suppress the metastasis, weakening the EMT in CRC.5.
KDM6A promotes chondrogenic differentiation of periodontal ligament stem cells by demethylation of SOX9
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Pingting Wang Yanjing Li Tingting Meng Junjiang Zhang Yuanyuan Wei Zhaosong Meng Yunfeng Lin Dayong Liu Lei Sui 《Cell proliferation》2018,51(3)
Objectives
KDM6A has been demonstrated critical in the regulation of cell fates. However, whether KDM6A is involved in cartilage formation remains unclear. In this study, we investigated the role of KDM6A in chondrogenic differentiation of PDLSCs, as well as the underlying epigenetic mechanisms.Methods
KDM6A shRNA was transfected into PDLSCs by lentivirus. The chondrogenic differentiation potential of PDLSCs was assessed by Alcian blue staining. Immunofluorescence was performed to demonstrate H3K27me3 and H3K4me3 levels during chondrogenesis. SOX9, Col2a1, ACAN and miRNAs (miR‐29a, miR‐204, miR‐211) were detected by real‐time RT‐PCR. Western blot was performed to evaluate SOX9, H3K27me3 and H3K4me3.Results
The production of proteoglycans in PDLSCs was decreased after knockdown of KDM6A. Depletion of KDM6A inhibited the expression of SOX9, Col2a1, ACAN and resulted in increased H3K27me3 and decreased H3K4me3 levels. EZH2 inhibitor rescued the chondrogenic potential of PDLSCs after knockdown of KDM6A by regulating H3K27me3. Additionally, miR‐29a, miR‐204 and miR‐211 were also involved in the process of PDLSCs chondrogenesis.Conclusions
KDM6A is required in chondrogenic differentiation of PDLSCs by demethylation of H3K27me3, and EZH2 inhibitor could rescue chondrogenesis of PDLSCs after knockdown of KDM6A. It could be inferred that upregulation of KDM6A or application of EZH2 inhibitor might improve mesenchymal stem cell mediated cartilage regeneration in inflammatory tissue destruction such as osteoarthritis.6.
MiR‐616‐3p modulates cell proliferation and migration through targeting tissue factor pathway inhibitor 2 in preeclampsia
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Yetao Xu Dan Wu Ziyan Jiang Yuanyuan Zhang Sailan Wang Zhonghua Ma Bingqing Hui Jing Wang Weiping Qian Zhiping Ge Lizhou Sun 《Cell proliferation》2018,51(5)
Objectives
Despite improvements in diagnosis and treatment, preeclampsia (PE) continues to pose a significant risk of maternal and foetal morbidity and mortality if not addressed promptly. An increasing number of studies have suggested that tissue factor pathway inhibitor 2 (TFPI2) acts as a suppressor gene, possibly inhibiting multiple serine proteases affecting cell proliferation and migration. It plays an essential role in the occurrence and development of PE, but the pathogenesis remains unclear.Materials and methods
In our research, we performed western blotting, immunohistochemistry and qPCR assays to investigate TFPI2 and miR‐616‐3p expression in preeclamptic placental tissues. Cell assays were performed in HTR‐8/SVneo and JEG3 cell lines. Cell proliferation and migration events were investigated by MTT, EdU and transwell assays. In conjunction with bioinformatics analysis, luciferase reporter assays were performed to elucidate the mechanism by which miR‐616‐3p binds to TFPI2 mRNA.Results
We established that TFPI2 protein levels were significantly upregulated in PE placental tissues. In addition, we found that miR‐616‐3p binds specifically to the 3′‐UTR region of TFPI2 mRNA. Furthermore, miR‐616‐3p knockdown or TFPI2 overexpression substantially impaired cell growth and migration, whereas miR‐616‐3p upregulation or TFPI2 knockdown stimulated cell proliferation and migration. This miR‐616‐3p / TFPI2 axis was also found to affect the epithelial‐mesenchymal transition process in PE.Conclusions
Our results demonstrated that TFPI2 plays a vital role in the progression of PE and might provide a prospective therapeutic strategy to mitigate the severity of the disorder.7.
Loss of PPM1F expression predicts tumour recurrence and is negatively regulated by miR‐590‐3p in gastric cancer
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Jing Zhang Ming Jin Xiaoyu Chen Rui Zhang Yanxia Huang Hui Liu Jinshui Zhu 《Cell proliferation》2018,51(4)
Objectives
MicroRNAs (miRNAs) as small non‐coding RNA molecules act by negatively regulating their target genes. Recent studies have shown that protein phosphatase Mg2+/Mn2+‐dependent 1F (PPM1F) plays a critical role in cancer metastasis. But, the regulation mechanisms of PPM1F by miRNAs in gastric cancer (GC) remain undefined.Methods
The correlation of PPM1F or miR‐590‐3p (miR‐590) expression with clinicopathological features and prognosis of the patients with GC was analysed by TCGA RNA‐sequencing data. The miRNAs that target PPM1F gene were identified by bioinformatics and Spearman correlation analysis, and the binding site between miR‐590 and PPM1F 3′UTR was confirmed by dual luciferase assay. MTT and Transwell assays were conducted to evaluate the effects of miR‐590 or (and) PPM1F on cell proliferation and invasion.Results
We found that PPM1F expression was downregulated in GC tissues and cell lines and was correlated with tumour recurrence in patients with GC. The decreased expression of PPM1F was attributed to the dysregulation of miR‐590 expression rather than its genetic or epigenetic alterations. Overexpression of miR‐590 promoted cell proliferation and invasion capability of GC cells, while knockdown of miR‐590 reversed these effects. Moreover, PPM1F was validated as a direct target of miR‐590 and counteracted the tumour‐promoting effects caused by miR‐590. The expression of miR‐590 presented the negative correlation with PPM1F expression and acted as an independent prognostic factor for tumour recurrence in patients with GC.Conclusion
PPM1F may function as a suppressive factor and is negatively regulated by miR‐590 in GC.8.
FBXW7 suppresses epithelial‐mesenchymal transition and chemo‐resistance of non‐small‐cell lung cancer cells by targeting snai1 for ubiquitin‐dependent degradation
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Guodong Xiao Yuan Li Meng Wang Xiang Li Sida Qin Xin Sun Rui Liang Boxiang Zhang Ning Du Chongwen Xu Hong Ren Dapeng Liu 《Cell proliferation》2018,51(5)
Objectives
FBXW7 acts as a tumour suppressor by targeting at various oncoproteins for ubiquitin‐mediated degradation. However, the clinical significance and the involving regulatory mechanisms of FBXW7 manipulation of NSCLC regeneration and therapy response are not clear.Materials and Methods
Immunohistochemical staining and qRT‐PCR were applied to detect FBXW7 and Snai1 expression in 100 samples of NSCLC and matched tumour‐adjacent tissues. FBXW7 manipulation of cancer biological functions were studied by using MTT assay, immunoblotting, flow cytometry, transwells, wound healing assay, and sphere‐formation assays. Immunofluorescence and co‐immunoprecipitation were used to analyse the possible interaction between Snai1 and FBXW7.Results
We detected the decreased FBXW7 expression in majority of the NSCLC tissues, and lower FBXW7 level was correlated with advanced TNM stage. Furthermore, those patients with decreased FBXW7 expression tend to have both poorer 5‐year survival outcomes, and shorter disease‐free survival, comparing to those with higher FBXW7 levels. Functionally, we found that FBXW7 enforcement suppressed NSCLC progression by inducing cell growth arrest, increasing chemo‐sensitivity and inhibiting Epithelial‐mesenchymal Transition (EMT) progress. Results further showed that FBXW7 could interact with Snai1 directly to degrade its expression through ubiquitylating alternation in NSCLC, which could be partially abrogated by restoring Snai1 expression.Conclusions
FBXW7 conduction of tumour suppression was partly through degrading Snai1 directly for ubiquitylating regulation in NSCLC9.
Ginsenoside Rh2 inhibits prostate cancer cell growth through suppression of microRNA‐4295 that activates CDKN1A
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Objectives
Ginsenoside Rh2 (GRh2) has demonstrative therapeutic effects on a variety of diseases, including some tumours. However, the effects of GRh2 on prostate cancer (PC) cell growth remain unknown, and were, thus, addressed in the present study.Materials and methods
PC3 and DU145 PC cell lines were exposed to GRh2. Cell proliferation was assessed in an MTT assay and by BrdU incorporation. Apoptosis of the cells were assessed by TUNEL staining. Total RNA was assessed by RT‐qPCR. Protein levels were assessed by Western blotting. Bioinformatics and dual luciferase reporter assay were applied to determine the functional binding of miRNA to mRNA of target gene.Results
GRh2 dose‐dependently decreased PC cell proliferation, but did not alter cell apoptosis. Mechanistically, GRh2 dose‐dependently increased the protein, but not mRNA of a cell‐cycle suppressor CDKN1A in PC cells, suggesting the presence of microRNA (miRNA)‐mediated protein translation control of CDKN1A by GRh2. In all candidate miRNAs that bind to 3′‐UTR of CDKN1A, miR‐4295 was specifically found to be suppressed dose‐dependently by GRh2 in PC cells. Moreover, miR‐4295 bound CDKN1A to suppress its protein translation. Furthermore, cell proliferation in PC cells that overexpressed miR‐4295 did not alter in response to GRh2.Conclusions
GRh2 may inhibit PC cell growth through suppression of microRNA‐4295 that activates CDKN1A.10.
K. Ba Y. Fu X. Wei Y. Yue G. Li Y. Yao J. Chen X. Cai C. Liang Y. Ge Y. Lin 《Cell proliferation》2013,46(3):312-319
Objective
The aim of this study was to investigate effects of low‐intensity pulsed ultrasound (LIPUS) on differentiation of adipose‐derived stem cells (ASCs), in vitro.Materials and methods
Murine ASCs were treated with LIPUS for either three or five days, immediately after adipogenic induction, or delayed for 2 days. Expression of adipogenic genes PPAR‐γ1, and APN, was examined by real‐time PCR. Immunofluorescence (IF) staining was performed to test for PPAR‐γ at the protein level.Results
Our data revealed that specific patterns of LIPUS up‐regulated levels of both PPAR‐γ1 and APN mRNA, and PPAR‐γ protein.Conclusions
In culture medium containing adipogenic reagents, LIPUS enhanced ASC adipogenesis.11.
Long non‐coding RNA FAL1 functions as a ceRNA to antagonize the effect of miR‐637 on the down‐regulation of AKT1 in Hirschsprung's disease
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Yang Li Lingling Zhou Changgui Lu Qiyang Shen Yang Su Zhengke Zhi Feng Wu Hua Zhang Zechao Wen Guanglin Chen Hongxing Li Yankai Xia Weibing Tang 《Cell proliferation》2018,51(5)
Objectives
Emerged evidence demonstrates that long non‐coding RNAs (lncRNAs) may play quintessential regulatory roles in the cellular processes, tumourigenesis and the development of disease. Though focally amplified lncRNA on chromosome 1 (FAL1) has been identified to have crucial functions in many diseases, its biological mechanism in the development of Hirschsprung's disease (HSCR) still remains unknown.Materials and methods
The expression levels of FAL1 in HSCR aganglionic tissues and matched normal specimens were detected by quantitative real‐time PCR (qRT‐PCR). Cell proliferation and migration were detected by Cell Counting Kit‐8 (CCK‐8) assay, Ethynyl‐deoxyuridine (EdU) assay and transwell assay relatively. Cell cycle and apoptosis were assessed using flow cytometer analysis. Moreover, the novel targets of FAL1 were confirmed with the help of bioinformatics analysis and dual‐luciferase reporter assay. Western blot assay as well as RNA immunoprecipitation (RIP) assay was conducted to investigate the potential mechanism.Results
FAL1 expression was markedly down‐regulated in HSCR aganglionic tissues and decreased FAL1 expression was associated with the diagnosis of HSCR. Cell functional analyses indicated that FAL1 overexpressing notably promoted cell proliferation and migration, while down‐regulation of FAL1 suppressed cell proliferation and migration. Additionally, Flow cytometry assay demonstrated that knockdown of FAL1 induced markedly cell cycle stalled in the G0/G1 phase. Furthermore, FAL1 could positively regulate AKT1 expression by competitively binding to miR‐637.Conclusions
These results illuminated that FAL1 may work as a ceRNA to modulate AKT1 expression via competitively binding to miR‐637 in HSCR, suggesting that it may be clinically valuable as a biomarker of HSCR.12.
13.
Fluoxetine induces autophagic cell death via eEF2K‐AMPK‐mTOR‐ULK complex axis in triple negative breast cancer
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Dejuan Sun Lingjuan Zhu Yuqian Zhao Yingnan Jiang Lixia Chen Yang Yu Liang Ouyang 《Cell proliferation》2018,51(2)
Objectives
Triple negative breast cancer (TNBC) is a complex and intrinsically aggressive tumour with poor prognosis, and the discovery of targeted small‐molecule drugs for TNBC treatment still remains in its infancy. In this study, we aimed to discover a small‐molecule agent for TNBC treatment and illuminate its potential mechanisms.Materials and methods
Cell viability was detected by using methylthiazoltetrazolium (MTT) assay. Electron microscopy, GFP‐LC3 transfection, monodansylcadaverine staining and apoptosis assay were performed to determine Fluoxetine‐induced autophagy and apoptosis. Western blotting and siRNA transfection were carried out to investigate the mechanisms of Fluoxetine‐induced autophagy. iTRAQ‐based proteomics analysis was used to explore the underlying mechanisms.Results
We have demonstrated that Fluoxetine had remarkable anti‐proliferative activities and induced autophagic cell death in MDA‐MB‐231 and MDA‐MB‐436 cells. The mechanism for Fluoxetine‐induced autophagic cell death was associated with inhibition of eEF2K and activation of AMPK‐mTOR‐ULK complex axis. Further iTRAQ‐based proteomics and network analyses revealed that Fluoxetine‐induced mechanism was involved in BIRC6, BNIP1, SNAP29 and Bif‐1.Conclusions
These results demonstrate that Fluoxetine induces apoptosis and autophagic cell death in TNBC, which will hold a promise for the future TNBC therapy.14.
Chengming Ding Jun He Jun Zhao Junhua Li Jie Chen Wenyan Liao Yi Zeng Jing Zhong Chaoying Wei Liming Zhang Mei Zhou Zeming Jia Yaoting Zhang Hui Li Yuzheng Zhou Xiaolong Xiao Dong Han Chong Li Zhu Zhu Zanxian Xia Jian Peng 《Cell proliferation》2018,51(5)
Objective
β‐catenin is one of the most critical oncogenes associated with many kinds of human cancers, especially in the human CRC. Innate immunity recognizes tumour derived damage‐associated molecular patterns (DAMPs) and primes the anti‐tumour adaptive responses. While the function of β‐catenin in CRC tumourigenesis is well established, its impact on innate immune evasion is largely unknown. The aim of this study is to characterize the role of β‐catenin in inhibiting RIG‐I‐like receptor (RLR)‐mediated IFN‐β signalling in colorectal cancer.Materials and Methods
Immunohistochemical staining and western blotting were conducted to study the expression of β‐catenin, IRF3 and phospho‐IRF3 (p‐IRF3) in CRC samples and cell lines. Plaque assay determining virus replication was performed to assess the regulation of β‐catenin on IFN‐β signalling. The inhibition of β‐catenin on RLR‐mediated IFN‐β signalling was further studied by real‐time analyses and reporter assays in the context of lentiviral‐mediated β‐catenin stably knocking down. Lastly, co‐immunoprecipitation and nuclear fractionation assay were conducted to monitor the interaction between β‐catenin and IRF3.Results
We found that high expression of β‐catenin positively correlated with the expression of IRF3 in CRC cells. Overexpression of β‐catenin increased the viral replication. Conversely knocking down of β‐catenin inhibited viral replication. Furthermore, our data demonstrated that β‐catenin could inhibit the expression of IFN‐β and interferon‐stimulated gene 56 (ISG56). Mechanistically, we found that β‐catenin interacted with IRF3 and blocked its nuclear translocation.Conclusion
Our study reveals an unprecedented role of β‐catenin in enabling innate immune evasion in CRC.15.
16.
2‐(2‐nitrobenzylidene) indolin‐3‐one compound inhibits transmembrane prostate androgen‐induced protein (TMEPAI) expression and cancer cell proliferation
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Yuyin Li Jianjun Wang Ning Song Feihong Zeng Miaomiao Zhao Ali Wang Yue Chen Lei Jing Peng Yu Aipo Diao 《Cell proliferation》2018,51(5)
Objectives
The transmembrane prostate androgen‐induced protein (TMEPAI) is aberrantly expressed in many cancer and plays a crucial role in tumourigenesis, which makes it a potential cancer therapeutic target for drug discovery.Materials and methods
Here, we employed a firefly luciferase reporter driven by the TMEPAI gene promoter to screen for compound capable of inhibiting the expression of TMEPAI, and the effects of TMEPAI inhibitor on cancer cell proliferation were evaluated using the colony formation assay, cell cycle analysis, Ki‐67 immunofluorescence assay and EdU incorporation assay.Results
2‐(2‐nitrobenzylidene) indolin‐3‐one (JHY‐A007‐50) was identified and shown to effectively inhibit the TMEPAI promoter activity. Further studies revealed that JHY‐A007‐50 specifically inhibited the expression of TMEPAI at both the mRNA and protein levels. Moreover, we found that JHY‐A007‐50 could inhibit cell proliferation and induce cell cycle arrest at the G1 phase. Our results showed that overexpression of TMEPAI decreased the inhibitory effects of JHY‐A007‐50 on cancer cell proliferation, and JHY‐A007‐50 did not affect the cell viability of HeLa cells knocked down of TMEPAI.Conclusions
Taken together, these results suggest that compound JHY‐A007‐50 mediates the downregulation of TMEPAI expression and inhibits cell proliferation in cancer cells.17.
A. Di Virgilio L. Tucci M. Scaramuzzino R. Terracciano G. Pelaia R. Savino 《Cell proliferation》2013,46(2):172-182
Objectives
In this study, we have evaluated effects of 24‐hour treatments with simvastatin or rosuvastatin on RAS protein, NF‐κB and MMP expression in LC tissues obtained from 12 patients undergoing thoracic surgery.Materials and methods
Normal and lung tumour tissues obtained from each sample were exposed to simvastatin (2.5–30 μm ) or rosuvastatin (1.25–30 μm ) and western blot analysis was then performed.Results
We documented increased expression of proteins, MMP‐2, MMP‐9 and NF‐κB‐p65 in LC tissues, with respect to normal tissues (P < 0.01). In the malignant tissues, simvastatin and rosuvastatin significantly (P < 0.01) and dose‐dependently reduced RAS protein, MMP‐2/9 and NF‐κB‐p65 expression.Conclusions
In conclusion, our results suggest that simvastatin and rosuvastatin could play a role in LC treatment by modulation of RAS protein, MMP‐2/9 and NF‐κB‐p65.18.
Critical role of inflammatory mast cell in fibrosis: Potential therapeutic effect of IL‐37
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P. Conti Al. Caraffa F. Mastrangelo L. Tettamanti G. Ronconi I. Frydas S. K. Kritas T. C. Theoharides 《Cell proliferation》2018,51(5)
Background
Fibrosis involves the activation of inflammatory cells, leading to a decrease in physiological function of the affected organ or tissue.Aims
To update and synthesize relevant information concerning fibrosis into a new hypothesis to explain the pathogenesis of fibrosis and propose potential novel therapeutic approaches.Materials and Methods
Literature was reviewed and relevant information is discussed in the context of the pathogenesis of fibrosis.Results
A number of cytokines and their mRNA are involved in the circulatory system and in organs of patients with fibrotic tissues. The profibrotic cytokines are generated by several activated immune cells, including fibroblasts and mast cells (MCs), which are important for tissue inflammatory responses to different types of injury. MC‐derived TNF, IL‐1, and IL‐33 contribute crucially to the initiation of a cascade of the host defence mechanism(s), leading to the fibrosis process. Inhibition of TNF and inflammatory cytokines may slow the progression of fibrosis and improve the pathological status of the affected subject. IL‐37 is generated by various types of immune cells and is an IL‐1 family member protein. IL‐37 is not a receptor antagonist; it binds IL‐18 receptor alpha (IL‐18Rα) and delivers the inhibitory signal by using TIR8. It has been shown that IL‐37 can be protective in inflammation and injury, and inhibits both innate and adaptive immunity.Discussion
IL‐37 may be useful for suppression of inflammatory diseases induced by inhibiting MyD88‐dependent TLR signalling. In addition, IL‐37 downregulates NF‐κB induced by TLR2 or TLR4 through a mechanism dependent on IL‐18Rα.Conclusion
This review summarizes current knowledge on the role of MC in inflammation and tissue/organ fibrosis, with a focus on the therapeutic potential of IL‐37‐targeting cytokines.19.
S.‐H. Kim S. H. Bang S. A. Park S. Y. Kang K. D. Park I. U. Oh S. H. Yoo H. Kim C.‐H. Kim S. Y. Baek 《Cell proliferation》2013,46(3):291-299
Objectives
While most human adipose tissues, such as those located in the abdomen, hip and thigh, are of mesodermal origin, adipose tissues located in the face are of ectodermal origin. The present study has compared stem cell‐related features of abdomen‐derived adult stem cells (A‐ASCs) with those of eyelid‐derived adult stem cells (E‐ASCs).Materials and methods
Adipose tissue‐derived cells were maintained in DMEM supplemented with 10% FBS. Before passage 6, cells were analysed using FACS, immunocytochemistry and quantitative real time PCR (qRT‐PCR). To examine multi‐differentiational potential, early passage ASCs were cultivated in each of a commercial Stempro® Differentiation kit.Results
Unlike fibroblast‐like morphology of A‐ASCs, E‐ASCs had bipolar morphology. Both types of cell exhibited similar surface antigens, and neuronal cell‐related genes and proteins. However, there were differences in mRNA expression levels of CD90 and CD146; neuron‐specific enolase (NSE) and nuclear receptor‐related protein 1 (Nurr1) were different between the two cell types. There was no difference in multi‐differentiational potential between 3 E‐ASCs lines, however, E‐ASCs had higher expression levels of chondrocyte‐related genes compared to A‐ASCs. These cells underwent senescence and maintained normal karyotypes.Conclusions
Although isolated from similar adipose tissues, both types of cells displayed many contrasting characteristics. Understanding defining phenotypes of such cells is useful for making suitable choices in differing clinical indications.20.