Zixin Chen scite author profile

Chronic heart failure (CHF) is the final outcome of many cardiovascular diseases, and is a severe health issue faced by the elderly population. Mixed lineage kinase 3 (MLK3), a member of MAP3K family, is associated with aging, inflammation, oxidative stress, and related diseases, such as CHF. MLK3 has also been reported to play an important role in protecting against cardiomyocyte injury; however, its function in myocardial fibrosis is unknown. To investigate the role of MLK3 in myocardial fibrosis, we inhibited the expression of MLK3, and examined cardiac function and remodeling in TAC mice. In addition, we assessed the expression of MLK3 protein in ventricular cells and its downstream associated protein. We found that MLK3 mainly regulates NF-κB/NLRP3 signaling pathway-mediated inflammation and that pyroptosis causes myocardial fibrosis in the early stages of CHF. Similarly, MLK3 mainly regulates the JNK/p53 signaling pathway-mediated oxidative stress and that ferroptosis causes myocardial fibrosis in the advanced stages of CHF. We also found that promoting the expression of miR-351 can inhibit the expression of MLK3, and significantly improve cardiac function in mice subjected to TAC. These results suggest the pyroptosis and ferroptosis induced by MLK3 signaling in cardiomyocytes are essential for adverse myocardial fibrosis, in response to pressure overload. Furthermore, miR-351, which has a protective effect on ventricular remodeling in heart failure caused by pressure overload, may be a key target for the regulation of MLK3.

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Exploring the Condensation Reaction between Aromatic Nitriles and Amino Thiols To Optimize In Situ Nanoparticle Formation for the Imaging of Proteases and Glycosidases in Cells

Chen

Cheng

et al. 2020

Angew Chem Int Ed

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The condensation reaction between 6‐hydroxy‐2‐cyanobenzothiazole (CBT) and cysteine has been shown for various applications such as site‐specific protein labelling and in vivo cancer imaging. This report further expands the substrate scope of this reaction by varying the substituents on aromatic nitriles and amino thiols and testing their reactivity and ability to form nanoparticles for cell imaging. The structure–activity relationship study leads to the identification of the minimum structural requirement for the macrocyclization and assembly process in forming nanoparticles. One of the scaffolds made of 2‐pyrimidinecarbonitrile and cysteine joined by a benzyl linker was applied to design fluorescent probes for imaging caspase‐3/7 and β‐galactosidase activity in live cells. These results demonstrate the generality of this system for imaging hydrolytic enzymes.

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Transparent Polymer‐Ceramic Hybrid Antifouling Coating with Superior Mechanical Properties

Chen

Zhang

Xie

et al. 2021

Adv Funct Materials

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Antifouling coatings are often required to have both excellent fouling resistance and mechanical properties for their applications. This study reports a water‐borne antifouling coating consisting of an amine‐terminated hyperbranched polysiloxane and a fouling resistant epoxy‐zirconium particle, where the former is prepared using amine‐functionalized silanes, and the latter is prepared via the reaction of zirconium alkoxide with epoxy‐functionalized silanes and zwitterionic silanes. Such a hybrid coating is transparent (>99.5% transmittance) and exhibits a combination of polymeric and ceramic characteristics, namely, it has not only high hardness (7–9 H) and adhesion (≈3 MPa) to substrates but also good flexibility (≤10 mm bending diameter). The presence of the zwitterionic group allows the coating to have excellent oil repellency and fouling resistance. The effects of composition and structure on the mechanical properties and antifouling performance are investigated. This study aims to develop antifouling coatings to be used in foldable displays, optical sensors, and biomedical facilities.

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Reduction TriggeredIn SituPolymerization in Living Mice

et al. 2020

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“Smart” biomaterials that are responsive to physiological or biochemical stimuli have found many biomedical applications for tissue engineering, therapeutics, and molecular imaging. In this work, we describe in situ polymerization of activatable biorthogonal small molecules in response to a reducing environment change in vivo. We designed a carbohydrate linker- and cyanobenzothiazole-cysteine condensation reaction-based small molecule scaffold that can undergo rapid condensation reaction upon physiochemical changes (such as a reducing environment) to form polymers (pseudopolysaccharide). The fluorescent and photoacoustic properties of a fluorophore-tagged condensation scaffold before and after the transformation have been examined with a dual-modality optical imaging method. These results confirmed the in situ polymerization of this probe after both local and systemic administration in living mice.

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Zixin Chen

Pyroptosis and ferroptosis induced by mixed lineage kinase 3 (MLK3) signaling in cardiomyocytes are essential for myocardial fibrosis in response to pressure overload

Exploring the Condensation Reaction between Aromatic Nitriles and Amino Thiols To Optimize In Situ Nanoparticle Formation for the Imaging of Proteases and Glycosidases in Cells

Transparent Polymer‐Ceramic Hybrid Antifouling Coating with Superior Mechanical Properties

Reduction TriggeredIn SituPolymerization in Living Mice

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