SUMOylation of YTHDF2 promotes mRNA degradation and cancer progression by increasing its binding affinity with m6A-modified mRNAs

Hou, Guofang; Zhao, Xian; Li, Lian; Yang, Qianqian; Liu, Xiaojia; Huang, Can; Lu, Runhui; Chen, Ran; Wang, Yanli; Jiang, Bin; Yu, Jianxiu

doi:10.1093/nar/gkab065

Cited by 105 publications

(95 citation statements)

References 69 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In addition, post-translational modification plays an important role in regulating YTHDF family proteins. The SUMOylation of YTHDF2 at the major site of K571 significantly increases its binding affinity of m6Amodified mRNAs and results in deregulated gene expressions which accounts for cancer progression (94). Is there any other post-translational modification to regulate YTH family proteins and impact cancer progression?…”

Section: Discussionmentioning

confidence: 99%

Main N6-Methyladenosine Readers: YTH Family Proteins in Cancers

Dai

Shi

et al. 2021

Front. Oncol.

View full text Add to dashboard Cite

Among the over 150 RNA modifications, N6-methyladenosine (m6A) is the most abundant internal modification in eukaryotic RNAs, not only in messenger RNAs, but also in microRNAs and long non-coding RNAs. It is a dynamic and reversible process in mammalian cells, which is installed by “writers,” consisting of METTL3, METTL14, WTAP, RBM15/15B, and KIAA1429 and removed by “erasers,” including FTO and ALKBH5. Moreover, m6A modification is recognized by “readers,” which play the key role in executing m6A functions. IYT521-B homology (YTH) family proteins are the first identified m6A reader proteins. They were reported to participate in cancer tumorigenesis and development through regulating the metabolism of targeted RNAs, including RNA splicing, RNA export, translation, and degradation. There are many reviews about function of m6A and its role in various diseases. However, reviews only focusing on m6A readers, especially YTH family proteins are few. In this review, we systematically summarize the recent advances in structure and biological function of YTH family proteins, and their roles in human cancer and potential application in cancer therapy.

show abstract

Section: Discussionmentioning

confidence: 99%

Main N6-Methyladenosine Readers: YTH Family Proteins in Cancers

Dai

Shi

et al. 2021

Front. Oncol.

View full text Add to dashboard Cite

show abstract

“…However, selective depletion of ‘FTO’ not only increases sensitivity to anti-PD-1 therapy but also increases m6A methylation-inhibition of critical pro-tumorigenic (tumor-promoting) genes. Mechanistically, they proved that FTO-deficiency increases m6A-methylation at 5′UTR and 3′UTR of target genes; PD-1 (PDCD1), CXCR4 and SOX10, and thereby causing rapid mRNA-degradation by recruiting YTHDF2-reader proteins [ 155 , 157 , 158 ], confirmed by YTHDF2-knockdown in ‘increasing’ and YTHDF2-overexpression in ‘decreasing’ melanoma growth. Moreover, FTO-deficiency enhances the sensitivity of anti-PD-1 treatment by IFNγ-mediated cytokine response.…”

Section: Epitranscriptomics In Icb-therapeuticsmentioning

confidence: 97%

“…So far more than 160 chemical modifications have been identified [ 151 ] playing a crucial role in regulating various biological processes, for example, in acute myeloid leukemia treatment [ 125 ], lung adenocarcinoma [ 152 ] gastric cancer [ 153 ] and broad range tumor types [ 151 , 154 , 155 ]. The major epitranscriptomic machineries (writer/editor, eraser/remover and readers/effector [ 156 ] not only regulate RNAs by specific regulatory mechanism [ 157 , 158 ] but also decide the fate of the cells and its associated immune disorders in cellular context-dependent manner. In this section, we have described the clinical application of epitranscriptomics in overcoming the issues associated with ICB drug-resistance by combining personalized approach.…”

Section: Epitranscriptomics In Icb-therapeuticsmentioning

confidence: 99%

“…Interestingly, CRISPR/cas9-mediated deletion of Mettl-3/14 in colorectal cancer cell line (CT26) and murine melanoma cell line (B16) has not only increased cytotoxic CD8 + T-cell (CTL) infiltrations in the TME but also provided durable adoptive immune response. Mechanistically, they justified that, the loss of Mettl-3/14 augmented mRNA-stability of IFNγ, STAT-1 and IRF-1 by promoting IFNγ-STAT1-IRF1-signalling through YTHDF2 reader proteins [ 157 , 158 ], leading to prolong secretion of these cytokines in the TME, resulting in strong immune response. These investigations suggest the key role of Mettl-3/14 in inhibiting the efficacy of anti-PD-1 therapy by decreasing IFNγ, Cxcl-9 and Cxcl10-mediated immune response.…”

Section: Epitranscriptomics In Icb-therapeuticsmentioning

confidence: 99%

See 1 more Smart Citation

Epitranscriptomic Approach: To Improve the Efficacy of ICB Therapy by Co-Targeting Intracellular Checkpoint CISH

Kumar

Sarthi

Mani

et al. 2021

Cells

View full text Add to dashboard Cite

Cellular immunotherapy has recently emerged as a fourth pillar in cancer treatment co-joining surgery, chemotherapy and radiotherapy. Where, the discovery of immune checkpoint blockage or inhibition (ICB/ICI), anti-PD-1/PD-L1 and anti-CTLA4-based, therapy has revolutionized the class of cancer treatment at a different level. However, some cancer patients escape this immune surveillance mechanism and become resistant to ICB-therapy. Therefore, a more advanced or an alternative treatment is required urgently. Despite the functional importance of epitranscriptomics in diverse clinico-biological practices, its role in improving the efficacy of ICB therapeutics has been limited. Consequently, our study encapsulates the evidence, as a possible strategy, to improve the efficacy of ICB-therapy by co-targeting molecular checkpoints especially N6A-modification machineries which can be reformed into RNA modifying drugs (RMD). Here, we have explained the mechanism of individual RNA-modifiers (editor/writer, eraser/remover, and effector/reader) in overcoming the issues associated with high-dose antibody toxicities and drug-resistance. Moreover, we have shed light on the importance of suppressor of cytokine signaling (SOCS/CISH) and microRNAs in improving the efficacy of ICB-therapy, with brief insight on the current monoclonal antibodies undergoing clinical trials or already approved against several solid tumor and metastatic cancers. We anticipate our investigation will encourage researchers and clinicians to further strengthen the efficacy of ICB-therapeutics by considering the importance of epitranscriptomics as a personalized medicine.

show abstract

“…YTHDF2 recognizes the m6A modification on RNA and recruits the CCR4-NOT multi-subunit deadenylase complex by interacting with CNOT1 to accelerate the deadenylation and degradation of RNA. Interestingly, the SUMOylation of YTHD F2 can enhance its ability to bind to m6A-mRNA, thereby promoting the degradation rate of mRNA [33]. However, phosphorylation at serine39 and threo-nine381 of YTHDF2 has been reported to stabilize the YTHDF2 protein [34].…”

Section: Readersmentioning

confidence: 99%

N6-methyladenosine-dependent signalling in cancer progression and insights into cancer therapies

Tan

Zhao

Xiong

et al. 2021

J Exp Clin Cancer Res

View full text Add to dashboard Cite

The N6-methyladenosine (m6A) modification is a dynamic and reversible epigenetic modification, which is co-transcriptionally deposited by a methyltransferase complex, removed by a demethylase, and recognized by reader proteins. Mechanistically, m6A modification regulates the expression levels of mRNA and nocoding RNA by modulating the fate of modified RNA molecules, such as RNA splicing, nuclear transport, translation, and stability. Several studies have shown that m6A modification is dysregulated in the progression of multiple diseases, especially human tumors. We emphasized that the dysregulation of m6A modification affects different signal transduction pathways and involves in the biological processes underlying tumor cell proliferation, apoptosis, invasion and migration, and metabolic reprogramming, and discuss the effects on different cancer treatment.

show abstract

SUMOylation of YTHDF2 promotes mRNA degradation and cancer progression by increasing its binding affinity with m6A-modified mRNAs

Cited by 105 publications

References 69 publications

Main N6-Methyladenosine Readers: YTH Family Proteins in Cancers

Main N6-Methyladenosine Readers: YTH Family Proteins in Cancers

Epitranscriptomic Approach: To Improve the Efficacy of ICB Therapy by Co-Targeting Intracellular Checkpoint CISH

N6-methyladenosine-dependent signalling in cancer progression and insights into cancer therapies

Contact Info

Product

Resources

About