2023
DOI: 10.1002/mba2.53
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Enzyodynamic therapy at nanoscale

Zeyu Wang,
Xinran Song,
Hui Huang
et al.

Abstract: Artificial enzymes featuring the desirable catalytic activity built on nanomaterials are known as nanozymes. Compared with the natural counterparts, nanozymes have demonstrated distinct characteristics including cost‐effectiveness, ease of preparation, high stability, and excellent recycling efficiency. With the rapid innovation of nanoscience and technology, a growing number of nanozymes have been deeply applied in disease prevention, diagnosis, and treatment. In addition, a multimodal platform for effectivel… Show more

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Cited by 5 publications
(4 citation statements)
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References 186 publications
(333 reference statements)
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“…Given that the enzymatic activity is closely associated with anticancer outcome, we examined whether PdMoP nanocrystals feature enzyme‐mimicking activities ( Figure d). [ 16 ] Symbolic characteristics of tumor tissue and overexpression of the typical cellular antioxidant defense system of GSH have been shown to capture ROS and dilute the anti‐tumor impression. [ 15a ] Therefore, the GPx‐mimicking activity of PdMoP was examined using a reduced GSH detection kit.…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…Given that the enzymatic activity is closely associated with anticancer outcome, we examined whether PdMoP nanocrystals feature enzyme‐mimicking activities ( Figure d). [ 16 ] Symbolic characteristics of tumor tissue and overexpression of the typical cellular antioxidant defense system of GSH have been shown to capture ROS and dilute the anti‐tumor impression. [ 15a ] Therefore, the GPx‐mimicking activity of PdMoP was examined using a reduced GSH detection kit.…”
Section: Resultsmentioning
confidence: 99%
“…In addition, the nanoenzymes released Pd 2+ and Mo 6+ in response to TME and generated hydroxyl radicals (•OH) and singlet oxygen ( 1 O 2 ) through the Fenton reaction and enzyodynamic therapy, respectively, which could also be enhanced by the external US activation. [ 15a,16 ] The ternary nanoenzymes not only triggered initial immunogenic tumor‐cell ferroptosis through their inherent multienzyme‐mimicking activities but also suppressed the expression of cystine/glutamate transporter protein (xCT) and ferritin heavy polypeptide 1 (FTH1), resulting in a decrease in the content of GPX4 and leading to cascade‐mediated immunogenic tumor‐cell ferroptosis. Furthermore, PdMoP nanoenzymes catalyzed the production of oxygen (O 2 ) from excess H 2 O 2 in TME, thereby contributing to a decrease in the degree of tumor hypoxia.…”
Section: Introductionmentioning
confidence: 99%
“…However, nanoscale Fe and Zn particles exhibited enhanced bioavailability and plant uptake compared to ionic Fe and Zn, leading to differences in gene expression, suggesting that both particles and ions play crucial roles in the immunomodulation . Some nanoparticles like Fe-based nanoparticles have nanoenzymatic activity to maintain cellular homeostasis by directly scavenging ROS generated by oxidative stress, which is specific to nanoparticles only . In addition, nanoscale particles may produce longer-lasting and faster hormone responses than ionic .…”
Section: Nanoenabled Immunomodulationrecent Progressmentioning
confidence: 99%
“… 76 Some nanoparticles like Fe-based nanoparticles have nanoenzymatic activity to maintain cellular homeostasis by directly scavenging ROS generated by oxidative stress, which is specific to nanoparticles only. 77 In addition, nanoscale particles may produce longer-lasting and faster hormone responses than ionic. 78 Due to their smaller size and enhanced stability, nanoparticles may retain their regulatory effects on plant hormone signaling pathways for a longer period of time.…”
Section: Nanoenabled Immunomodulation—recent Progressmentioning
confidence: 99%