Nanoerythrocyte Membrane–Enveloped ROS‐Responsive 5‐Aminolevulinic Acid Prodrug Nanostructures with Robust Atheroprotection

Maruf, Ali; Wang, Yi; Luo, Li; Zhong, Yuan; Nurhidayah, Deti; Liu, Boyan; Tang, Dan; Rouf, Muhammad Abdul; Zhang, Haijun; Yin, Yue-Ping; Wu, Wei; Wang, Guixue

doi:10.1002/ppsc.202000021

Cited by 16 publications

(8 citation statements)

References 35 publications

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“…The type of membrane proteins had no changes after coating on NPs in comparison to the erythrocyte membrane. In literature, the erythrocyte membrane made of ultrasonic method had verified that the membrane protein does not change after wrapping by SDS-PAGE gel electrophoresis 47 , 48 . The Results show that RP and RPP contained RBC membrane proteins ( Supporting Information Fig.…”

Section: Resultsmentioning

confidence: 99%

Highly sensitive H2O2-scavenging nano-bionic system for precise treatment of atherosclerosis

Liang

et al. 2023

Acta Pharmaceutica Sinica B

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Section: Resultsmentioning

confidence: 99%

Highly sensitive H2O2-scavenging nano-bionic system for precise treatment of atherosclerosis

Liang

et al. 2023

Acta Pharmaceutica Sinica B

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“…After accumulation at the targeted inflammatory sites, anti-atherosclerotic drugs loaded in ROS-sensitive nanoparticles would be subsequently released responding to the high concentration level of ROS, thereby enabling effective drug therapy [ 99 ]. Moreover, in our previous study, a biomimetic and intelligent nanosystem was designed using ROS-responsive 5-aminolevulinic acid encapsulated with rapamycin, which were coated with a red blood cell membrane [ 101 ]. This biomimetic nano-formulation provided a feasible method to prevent the premature release of drugs during circulation, as well as break the shell in response to high H 2 O 2 exposure, thus having potential therapeutic effects toward atherosclerosis.…”

Section: Ros-sensitive Nano-formulations For Atherosclerosis Applicationsmentioning

confidence: 99%

Recent Advances in ROS-Sensitive Nano-Formulations for Atherosclerosis Applications

Peng

Jin

et al. 2021

Pharmaceutics

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Over the past decade, ROS-sensitive formulations have been widely used in atherosclerosis applications such as ROS scavenging, drug delivery, gene delivery, and imaging. The intensified interest in ROS-sensitive formulations is attributed to their unique self-adaptive properties, involving the main molecular mechanisms of solubility switch and degradation under the pathological ROS differences in atherosclerosis. This review outlines the advances in the use of ROS-sensitive formulations in atherosclerosis applications during the past decade, especially highlighting the general design requirements in relation to biomedical functional performance.

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“…The small drug molecules or polymers can be built up into NPs with bottom-up methods, but the shape, size, and dispersity are not easily to control, while the top-down method can be used in the fabrication of NPs with well-controlled shape and uniform size (Chan and Kwok, 2011 ). Maruf et al ( 2020 ) fabricated red blood cell membrane–coated ROS-responsive 5-aminolevulinic acid prodrug nanostructures with robust atheroprotection using the top-down method.…”

Section: Mechanisms and Effects Of Abnormal Ros Levels On Oxidative Smentioning

confidence: 99%

Biomedical Application of Reactive Oxygen Species–Responsive Nanocarriers in Cancer, Inflammation, and Neurodegenerative Diseases

Liu

Chen

et al. 2020

Front. Chem.

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Numerous pathological conditions, including cancer, inflammatory diseases, and neurodegenerative diseases, are accompanied by overproduction of reactive oxygen species (ROS). This makes ROS vital flagging molecules in disease pathology. ROS-responsive drug delivery platforms have been developed. Nanotechnology has been broadly applied in the field of biomedicine leading to the progress of ROS-responsive nanoparticles. In this review, we focused on the production and physiological/pathophysiological impact of ROS. Particular emphasis is put on the mechanisms and effects of abnormal ROS levels on oxidative stress diseases, including cancer, inflammatory disease, and neurodegenerative diseases. Finally, we summarized the potential biomedical applications of ROS-responsive nanocarriers in these oxidative stress diseases. We provide insights that will help in the designing of new ROS-responsive nanocarriers for various applications.

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Nanoerythrocyte Membrane–Enveloped ROS‐Responsive 5‐Aminolevulinic Acid Prodrug Nanostructures with Robust Atheroprotection

Cited by 16 publications

References 35 publications

Highly sensitive H2O2-scavenging nano-bionic system for precise treatment of atherosclerosis

Highly sensitive H2O2-scavenging nano-bionic system for precise treatment of atherosclerosis

Recent Advances in ROS-Sensitive Nano-Formulations for Atherosclerosis Applications

Biomedical Application of Reactive Oxygen Species–Responsive Nanocarriers in Cancer, Inflammation, and Neurodegenerative Diseases

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