Application of glutathione depletion in cancer therapy: Enhanced ROS-based therapy, ferroptosis, and chemotherapy

Biomaterials, Journal Year: 2021, Volume and Issue: 277, P. 121110 - 121110

Published: Aug. 30, 2021

Language: Английский

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Recent progress of chemodynamic therapy-induced combination cancer therapy

Nano Today, Journal Year: 2020, Volume and Issue: 35, P. 100946 - 100946

Published: Aug. 13, 2020

Language: Английский

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Biomedicine Meets Fenton Chemistry

Chemical Reviews, Journal Year: 2021, Volume and Issue: 121(4), P. 1981 - 2019

Published: Jan. 25, 2021

Since the first connection between Fenton chemistry and biomedicine, numerous studies have been presented in this field. Comprehensive presentation of guidance from a summary its representative applications cancer therapy would help us understand promote further development This comprehensive review supplies basic information regarding chemistry, including reactions Fenton-like reactions. Subsequently, current progress is discussed, with some corresponding examples presented. Furthermore, strategies for optimizing performance chemodynamic guided by are highlighted. Most importantly, future perspectives on combination biomedicine or wider range catalytic approaches We hope that will attract positive attention materials science, fields tighten their connections.

Language: Английский

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Engineering nanomedicine for glutathione depletion-augmented cancer therapy

Chemical Society Reviews, Journal Year: 2021, Volume and Issue: 50(10), P. 6013 - 6041

Published: Jan. 1, 2021

In this review, we systematically survey the most recent progress in engineering nanomedicine for intracellular glutathione consumption-augmented cancer therapy.

Language: Английский

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Chemodynamic Therapy via Fenton and Fenton‐Like Nanomaterials: Strategies and Recent Advances

Small, Journal Year: 2021, Volume and Issue: 18(6)

Published: Nov. 2, 2021

Abstract Chemodynamic therapy (CDT), a novel cancer therapeutic strategy defined as the treatment using Fenton or Fenton‐like reaction to produce •OH in tumor region, was first proposed by Bu, Shi, and co‐workers 2016. Recently, with rapid development of nanomaterials, CDT has attracted tremendous attention because its unique advantages: 1) It is tumor‐selective low side effects; 2) process does not depend on external field stimulation; 3) it can modulate hypoxic immunosuppressive microenvironment; 4) cost low. In addition Fe‐involved strategies, reaction‐mediated strategies have also been proposed, which are based many other metal elements including copper, manganese, cobalt, titanium, vanadium, palladium, silver, molybdenum, ruthenium, tungsten, cerium, zinc. Moreover, combined therapies like chemotherapy, radiotherapy, phototherapy, sonodynamic therapy, immunotherapy for achieving enhanced anticancer effects. Besides, there studies that extend application antibacterial field. This review introduces latest advancements nanomaterials‐involved from 2018 present proposes current limitations well future research directions related

Language: Английский

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Metal–Organic Framework Derived Nanozymes in Biomedicine

Accounts of Chemical Research, Journal Year: 2020, Volume and Issue: 53(7), P. 1389 - 1400

Published: June 29, 2020

ConspectusNanozymes, which integrate the advantages of both nanomaterials and natural enzymes, have accumulated enormous research interest over past decades because opportunity they provide to appreciate further cultivate artificial enzymes with comparable properties. By mimicking coordination environments catalytic sites in nanozymes confined nanostructures can serve as substitutes many processes activity robust stability even harsh conditions. Since pioneering report about peroxidase-mimicking ferromagnetic nanoparticles 2007, been developed specialized for intrinsic enzyme-mimicking property. With rapid development nanoscience nanotechnology, superior advantages, such large-scale production, desired activity, stability, bridge nanozymes.Metal–organic frameworks (MOFs) their derivatives hold great promise direct surrogates conventional enzymatic reactions. According chemical nature, MOF-based be divided into three main categories: pristine MOFs, enzyme-encapsulated MOF composites, derivatives. Due versatility metallic nodes bridging linkers together feasibility postsynthetic engineering modification, MOFs are envisioned one most appropriate this purpose. Using precursors or sacrificial templates, multiple including carbon-based (e.g., heteroatom-doped carbon M–N–C moiety), metal oxide/carbon nanoparticles, metal/carbon rationally synthesized through one-step carbonization/oxidation indirect post-synthesis treatments linker-exchange node-doping). Compared existing nanozymes, open up a new avenue constructing mesoporous nanozymes. In way, properties still maintained, while greatly improved. Account, we highlight some important advances (including moieties (M = single atom), oxide/carbon, metal/carbon, obtained linker exchange doping strategies) activity. We also demonstrate that, integrating physicochemical activities MOF-derived multifunctional platforms biomedical fields antibacterial agents, biosensors, imaging, cancer therapy, environmental protection. Finally, propose future design principles possible approaches deeper understanding mechanisms, thus pointing out directions offer more opportunities enzyme-engineering industry.

Language: Английский

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Manipulating Intratumoral Fenton Chemistry for Enhanced Chemodynamic and Chemodynamic‐Synergized Multimodal Therapy

Advanced Materials, Journal Year: 2021, Volume and Issue: 33(48)

Published: Sept. 27, 2021

Chemodynamic therapy (CDT) uses the tumor microenvironment-assisted intratumoral Fenton reaction for generating highly toxic hydroxyl free radicals (•OH) to achieve selective treatment. However, limited efficiency restricts therapeutic efficacy of CDT. Recent years have witnessed impressive development various strategies increase reaction. The introduction these reinforcement can dramatically improve treatment CDT and further promote enhanced (ECDT)-based multimodal anticancer treatments. In this review, authors systematically introduce strategies, from their basic working principles, mechanisms representative clinical applications. Then, ECDT-based is discussed, including how integrate emerging accelerating therapy, as well synergistic ECDT other methods. Eventually, future direction challenges therapies are elaborated, highlighting key scientific problems unsolved technical bottlenecks facilitate translation.

Language: Английский

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Superoxide dismutase nanozymes: an emerging star for anti-oxidation

Journal of Materials Chemistry B, Journal Year: 2021, Volume and Issue: 9(35), P. 6939 - 6957

Published: Jan. 1, 2021

This review summarizes catalytic mechanisms, regulatory factors, measurement methods and various applications of SOD-like nanozymes, as well proposes the current challenges prospects in development nanozymes.

Language: Английский

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Glutathione-Depleting Nanomedicines for Synergistic Cancer Therapy

ACS Nano, Journal Year: 2021, Volume and Issue: 15(5), P. 8039 - 8068

Published: May 11, 2021

Cancer cells frequently exhibit resistance to various molecular and nanoscale drugs, which inevitably affects the drugs' therapeutic outcomes. Overexpression of glutathione (GSH) has been observed in many cancer cells, solid evidence corroborated resulting tumor a variety anticancer therapies, suggesting that this biochemical characteristic can be developed as potential target for treatments. The single treatment GSH-depleting agents potentiate responses different cell death stimuli; therefore, an adjunctive strategy, GSH depletion is usually combined with mainstream therapies enhancing Propelled by rapid development nanotechnology, readily constructed into nanomedicines, have shown steep rise over past decade. Here, we review common nanomedicines widely applied synergistic treatments recent years. Some current challenges future perspectives depletion-based are also presented. With understanding structure–property relationship action mechanisms these biomaterials, hope nanotechnology will further realize more effective disease even achieve successful clinical translations.

Language: Английский

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Nanozymes-recent development and biomedical applications

Journal of Nanobiotechnology, Journal Year: 2022, Volume and Issue: 20(1)

Published: Feb. 22, 2022

Nanozyme is a series of nanomaterials with enzyme-mimetic activities that can proceed the catalytic reactions natural enzymes. In field biomedicine, nanozymes are capturing tremendous attention due to their high stability and low cost. Enzyme-mimetic be regulated by multiple factors, such as chemical state metal ion, pH, hydrogen peroxide (H2O2), glutathione (GSH) level, presenting great promise for biomedical applications. Over past decade, multi-functional have been developed various To promote understandings development novel multifunctional nanozymes, we herein provide comprehensive review applications in field. Nanozymes versatile enzyme-like properties briefly overviewed, mechanism application discussed future research. Finally, underlying challenges prospects frontier this review.

Language: Английский

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