Yue Su scite author profile

Enhancer of zeste homolog 2 (EZH2), a methyltransferase that di- and tri-methylates lysine-27 of histone H3, largely functions as a transcriptional repressor, and plays a critical role in various kinds of cancers. Here we report a novel function of EZH2 in regulating autophagic cell death (ACD) of vascular smooth muscle cells (VSMCs) that affect aortic dissection (AD). Inhibition of EZH2 activity by UNC1999 or knockdown EZH2 resulted in VSMC loss, while overexpression of EZH2 facilitated VSMC growth, and these effects of EZH2 on VSMCs were independent of proliferation and apoptosis. Interestingly, more autophagic vacuoles and increased LC3II protein levels were identified in VSMCs with EZH2 inhibition or deficiency. Moreover, when compared with counterparts, chloroquine alone, or chloroquine with rapamycin treatment led to more LC3II accumulation in EZH2 inhibited or knockdown VSMCs, which indicated that EZH2 negatively regulated autophagosome formation. In conjunction to this, ATG5 and ATG7 protein levels were remarkably increased in EZH2 inhibited or deficient VSMCs, and ATG5 or ATG7 knockdown virtually rescued VSMC loss induced by EZH2 inhibition or knockdown. In addition, we found that the MEK–ERK1/2 signaling pathway, but not AMPKα, mTOR, or AKT pathway, is responsible for the impact of EZH2 on ACD of VSMCs. Additionally, the adverse effects of EZH2 inhibition or knockdown on VSMCs were largely reversed by PD98059, an inhibitor of MEK1. More importantly, decreased EZH2 expression levels in the aortic wall of patients with AD indicated its contribution to VSMC loss and AD occurrence. Overall, these findings revealed that EZH2 affects ACD of VSMCs and the pathologic process of AD via regulating ATG5 and ATG7 expression and MEK–ERK1/2 signaling. Our hitherto unrecognized findings indicate that EZH2 activation has therapeutic or preventive potential for AD.

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m6A RNA Methylation Regulators Contribute to Malignant Progression and Have Clinical Prognostic Impact in Gastric Cancer

Huang

2019

Front. Oncol.

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N6-methyladenosine (m6A) is the most common form of mRNA modification, and is dynamically regulated by the m6A RNA methylation regulators. However, little is known about m6A in gastric cancer. The aim of this work is to investigate the effects of m6A RNA methylation regulators in gastric cancer. Here, we found that most of the 13 main m6A RNA methylation regulators are higher expressed in 375 patients with gastric cancer. We identified two subgroups of gastric cancer (cluster1 and 2) by applying consensus clustering to m6A RNA methylation regulators. Compared with the cluster1 subgroup, the cluster2 subgroup correlates with a poorer prognosis, and most of the 13 main m6A RNA methylation regulators are higher expressed in cluster2. Moreover, the cancer-specific pathways are also significantly enriched in the cluster2 subgroup. This finding indicates that m6A RNA methylation regulators are closely associated with gastric cancer. Based on this finding, we derived a risk signature, using 3 m6A RNA methylation regulators (FTO, RBM15, ALKBH5), that is not only an independent prognostic marker but can also predict the clinicopathological features of gastric cancer. Moreover, FTO is higher expressed in high risk scores subtype in gastric cancer. Thus, this first finding provide us clues to understand epigenetic modification of RNA in gastric cancer.

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An improved open-ended waveguide measurement technique on parameters ε/sub γ/ and μ/sub γ/ of high-loss materials

Maode

Yan

et al. 1998

IEEE Trans. Instrum. Meas.

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MicroRNA‐152 targets ADAM17 to suppress NSCLC progression

Wang

Zhou

et al. 2014

FEBS Letters

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Edited by Tamas DalmayKeywords: Non-small cell lung cancer miR-152 ADAM metallopeptidase domain 17 Proliferation Migration Invasion a b s t r a c t MicroRNAs (miRNAs) are a class of small non-coding RNAs that have been suggested to play an essential role in tumorigenesis. In this study, we show that miR-152 is significantly downregulated in non-small cell lung cancer (NSCLC) tissues and cell lines. Restoration of miR-152 significantly reduces proliferation, colony formation, migration and invasion of NSCLC cells. In addition, ADAM metallopeptidase domain 17 (ADAM17) is identified as a target of miR-152 in NSCLC cells, and miR-152-induced suppression of cell proliferation, colony formation, migration and invasion is partially mediated by silencing of ADAM17 expression. Furthermore, ADAM17 inversely correlates with miR-152 in NSCLC tissues. Collectively, our findings indicate that miR-152 acts as tumor suppressor in NSCLC partially via targeting ADAM17.

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Yue Su

EZH2 inhibits autophagic cell death of aortic vascular smooth muscle cells to affect aortic dissection

m6A RNA Methylation Regulators Contribute to Malignant Progression and Have Clinical Prognostic Impact in Gastric Cancer

An improved open-ended waveguide measurement technique on parameters ε/sub γ/ and μ/sub γ/ of high-loss materials

MicroRNA‐152 targets ADAM17 to suppress NSCLC progression

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