Duo Wang scite author profile

The abnormal m6A modification caused by m6A modulators is a common feature of various tumors; however, little is known about which m6A modulator plays the most important role in triple-negative breast cancer (TNBC). In this study, when analyzing the influence of m6A modulators ( METTL3, METTL14, WTAP, FTO , and ALKBH5 ) on the prognosis of breast cancer, especially in TNBC using several on-line databases, methyltransferase-like 3 ( METTL3 ) was found to have low expression in breast cancer, and was closely associated with short-distance-metastasis-free survival in TNBC. Further investigation showed that knockdown of METTL3 could enhance the ability of migration, invasion, and adhesion by decreasing m6A level in TNBC cell lines. Collagen type III alpha 1 chain ( COL3A1 ) was identified and verified as a target gene of METTL3 . METTL3 could down-regulate the expression of COL3A1 by increasing its m6A methylation, ultimately inhibiting the metastasis of TNBC cells. Finally, with immunohistochemistry staining in breast cancer tissues, it was proved that METTL3 expression was negatively correlated with COL3A1 in TNBC, but not in non-TNBC. This study demonstrated the potential mechanism of m6A modification in metastasis and provided potential targets for treatment in TNBC.

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Switching Reactive Oxygen Species into Reactive Nitrogen Species by Photocleaved O₂‐Released Nanoplatforms Favors Hypoxic Tumor Repression

Luo

Wang

Liu

et al. 2021

Advanced Science

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In various reactive oxygen species (ROS)-based antitumor approaches (e.g., photodynamic therapy), increasing attentions are made to improve ROS level, but the short lifetime that is another decisive hurdle of ROS-based antitumor outcomes is not even explored yet. To address it, a photocleaved O 2 -released nanoplatform is constructed to release and switch ROS into reactive nitrogen species (RNS) for repressing hypoxic breast tumor. Systematic explorations validate that the nanoplatforms can attain continuous photocontrolled O 2 release, alleviate hypoxia, and elevate ROS level. More significantly, the entrapped PDE5 inhibitor (PDE5-i) in this nanoplatform can be enzymatically decomposed into nitric oxide that further combines with ROS to generate RNS, enabling the persistent antitumor effect since RNS features longer lifetime than ROS. Intriguingly, ROS conversion into RNS can help ROS to evade the hypoxia-induced resistance to ROS-based antitumor. Eventually, RNS production unlocks robust antitumor performances along with ROS elevation and hypoxia mitigation. Moreover, this extraordinary conversion from ROS into RNS also can act as a general method to solve the short lifetime of ROS.

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Pyroptosis activation by photodynamic-boosted nanocatalytic medicine favors malignancy recession

Chen

Liao

et al. 2022

Chemical Engineering Journal

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Formal Analysis of Smart Contract Based on Colored Petri Nets

Wang

Huang

2020

IEEE Intell. Syst.

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Duo Wang

Reduced Expression of METTL3 Promotes Metastasis of Triple-Negative Breast Cancer by m6A Methylation-Mediated COL3A1 Up-Regulation

Switching Reactive Oxygen Species into Reactive Nitrogen Species by Photocleaved O₂‐Released Nanoplatforms Favors Hypoxic Tumor Repression

Pyroptosis activation by photodynamic-boosted nanocatalytic medicine favors malignancy recession

Formal Analysis of Smart Contract Based on Colored Petri Nets

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Duo Wang

Reduced Expression of METTL3 Promotes Metastasis of Triple-Negative Breast Cancer by m6A Methylation-Mediated COL3A1 Up-Regulation

Switching Reactive Oxygen Species into Reactive Nitrogen Species by Photocleaved O2‐Released Nanoplatforms Favors Hypoxic Tumor Repression

Pyroptosis activation by photodynamic-boosted nanocatalytic medicine favors malignancy recession

Formal Analysis of Smart Contract Based on Colored Petri Nets

Contact Info

Product

Resources

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Switching Reactive Oxygen Species into Reactive Nitrogen Species by Photocleaved O₂‐Released Nanoplatforms Favors Hypoxic Tumor Repression