METTL3-mediated N6-methyladenosine modification is critical for epithelial-mesenchymal transition and metastasis of gastric cancer

Yue, Bing; Song, Chenlong; Yang, Lining; Cui, Ran; Cheng, Xingwang; Zhang, Zizhen; Zhao, Gang

doi:10.1186/s12943-019-1065-4

Cited by 416 publications

(376 citation statements)

References 48 publications

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“…METTL3 and m 6 A were upregulated in human osteosarcoma (46), gastric cancer (23,47,48), melanoma (49), ovarian carcinoma (50), and hepatocellular carcinoma (51). Its expression level gradually increased with the increasing tumor stage and grade.…”

Section: Mettl3 In Other Cancersmentioning

confidence: 95%

“…Its expression level gradually increased with the increasing tumor stage and grade. METTL3 was an indicator of poor prognosis and METTL3 silencing inhibited the proliferation, migration, and invasion abilities of cells, colony formation, and motility (24,(47)(48)(49)(50)(51)(52), demonstrating that METTL3 plays an oncogenic role in these cancers. Taketo et al reported that a METTL3-knockdown pancreatic cancer cell line showed higher sensitivity to anticancer agents such as gemcitabine, 5-fluorouracil, cisplatin, and irradiation, suggesting that METTL3 is a potential target for the enhancement of therapeutic efficacy (25).…”

Section: Mettl3 In Other Cancersmentioning

confidence: 99%

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Multiple Functions and Mechanisms Underlying the Role of METTL3 in Human Cancers

et al. 2019

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Methyltransferase-like 3 (METTL3), a predominantly catalytic enzyme in the N 6 -methyladenosine (m 6 A) methyltransferase system, is dysregulated and plays a dual role (oncogene or tumor suppressor) in different human cancers. The expression and pro-or anticancer role of METTL3 in different cancers remain controversial. METTL3 is implicated in many aspects of tumor progression, including tumorigenesis, proliferation, invasion, migration, cell cycle, differentiation, and viability. Most underlying mechanisms involve multiple signaling pathways that rely on m 6 A-dependent modification. However, METTL3 can also modulate the cancer process by directly promoting the translation of oncogenes via interaction with the translation initiation machinery through recruitment of eukaryotic translation initiation factor 3 subunit h (eIF3h). In this review, we summarized the current evidence on METTL3 in diverse human malignancies and its potential as a prognostic/ therapeutic target.

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Section: Mettl3 In Other Cancersmentioning

confidence: 95%

Section: Mettl3 In Other Cancersmentioning

confidence: 99%

Multiple Functions and Mechanisms Underlying the Role of METTL3 in Human Cancers

et al. 2019

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“…Loss of METTL3 results in higher level of BCL-XS isoform and NCOR2α isoform and inhibition of GSC growth and self-renewal [41]. In gastric cancer, upregulated METTL3 promotes stability of ZMYM1, thus enhancing EMT process in vitro and metastasis in vivo [42]. Moreover, METTL3 can also participate in regulation of target mRNA in a post-modification way, therefore partially acting as a reader [43,44].…”

Section: Mettl3mentioning

confidence: 99%

Functions of N6-methyladenosine and its role in cancer

et al. 2019

Mol Cancer

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N6-methyladenosine (m6A) is methylation that occurs in the N6-position of adenosine, which is the most prevalent internal modification on eukaryotic mRNA. Accumulating evidence suggests that m6A modulates gene expression, thereby regulating cellular processes ranging from cell self-renewal, differentiation, invasion and apoptosis. M6A is installed by m6A methyltransferases, removed by m6A demethylases and recognized by reader proteins, which regulate of RNA metabolism including translation, splicing, export, degradation and microRNA processing. Alteration of m6A levels participates in cancer pathogenesis and development via regulating expression of tumor-related genes like BRD4, MYC, SOCS2 and EGFR. In this review, we elaborate on recent advances in research of m6A enzymes. We also highlight the underlying mechanism of m6A in cancer pathogenesis and progression. Finally, we review corresponding potential targets in cancer therapy.

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“…Firstly, a few of non-classic m 6 A readers are found through RNA sequencing, such as HuR and SND1. ZMYM1 mRNA, which could facilitate the process of EMT and the metastasis of GC, was modified by m 6 A and its stability was enhanced relying on the recognition by HuR [116]. Another novel m 6 A reader SND1 bound to the m 6 A sites of ORF50 transcript and promoted its stability.…”

Section: Conclusion and Perspectivementioning

confidence: 99%

“…Increasing the expression of β-catenin, WNT6 and FZD9A to activate Wnt/β-catenin pathway [49] YTHDF3 GAS5 Enhancing the degradation of lncRNA GAS5 [50] YTHDC1 circNSUN2 Facilitating circNSUN2 export from nucleus to cytoplasm [51] IGF2BP2 HMGA2 Forming a circNSUN2/IGF2BP2 complex to fortify the stability of HMGA2 [51] IGF2BP2 SOX2 Stabilizing SOX2 mRNA [52] Gastric cancer IGF2BP1 SEC62 Augmenting SEC62 mRNA translation [53] IGF2BP3 HDGF Facilitating HDGF mRNA expression [54] HuR ZMYM1 Fortifying the stability of ZMYM1 mRNA [116] Lung cancer YTHDF1 CDK2, CDK4, cyclinD1…”

Section: Conclusion and Perspectivementioning

confidence: 99%

m6A-binding proteins: the emerging crucial performers in epigenetics

et al. 2020

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N 6 -methyladenosine (m 6 A) is a well-known post-transcriptional modification that is the most common type of methylation in eukaryotic mRNAs. The regulation of m 6 A is dynamic and reversible, which is erected by m 6 A methyltransferases ("writers") and removed by m 6 A demethylases ("erasers"). Notably, the effects on targeted mRNAs resulted by m 6 A predominantly depend on the functions of different m 6 A-binding proteins ("readers") including YT521-B homology (YTH) domain family, heterogeneous nuclear ribonucleoproteins (HNRNPs), and insulin-like growth factor 2 mRNA-binding proteins (IGF2BPs). Indeed, m 6 A readers not only participate in multiple procedures of RNA metabolism, but also are involved in a variety of biological processes. In this review, we summarized the specific functions and underlying mechanisms of m 6 A-binding proteins in tumorigenesis, hematopoiesis, virus replication, immune response, and adipogenesis.

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METTL3-mediated N6-methyladenosine modification is critical for epithelial-mesenchymal transition and metastasis of gastric cancer

Cited by 416 publications

References 48 publications

Multiple Functions and Mechanisms Underlying the Role of METTL3 in Human Cancers

Multiple Functions and Mechanisms Underlying the Role of METTL3 in Human Cancers

Functions of N6-methyladenosine and its role in cancer

m6A-binding proteins: the emerging crucial performers in epigenetics

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