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A Glucose-Responsive Hydrogel Inhibits Primary and Secondary BRB Injury for Retinal Microenvironment Remodeling in Diabetic Retinopathy
Y. Zhou, C. Zhao, Z. Shi, Z. Heger, H. Jing, Z. Shi, Y. Dou, S. Wang, Z. Qiu, N. Li
Language English Country Germany
Document type Journal Article
Grant support
21JCYBJC00660
Tianjin Natural Science Foundation
2022-I2M-C&T-B-026
CAMS Innovation Fund for Medical Sciences
2022-JKCS-23
Nonprofit Central Research Institute Fund of Chinese Academy of Medical Sciences
2022-PUMCHB-101
National High Level Hospital Clinical Research Funding
82273873
National Natural Science Foundation of China
22305173
Young Scientists Fund of the National Natural Science Foundation of China
NLK
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- MeSH
- Cellular Microenvironment drug effects MeSH
- Diabetic Retinopathy * drug therapy metabolism MeSH
- Glucose * metabolism MeSH
- Blood-Retinal Barrier * metabolism drug effects MeSH
- Hydrogels * pharmacology MeSH
- Disease Models, Animal MeSH
- Mice MeSH
- Nanoparticles MeSH
- Retina drug effects metabolism MeSH
- Retinal Pigment Epithelium metabolism drug effects MeSH
- Animals MeSH
- Check Tag
- Mice MeSH
- Animals MeSH
- Publication type
- Journal Article MeSH
Current diabetic retinopathy (DR) treatment involves blood glucose regulation combined with laser photocoagulation or intravitreal injection of vascular endothelial growth factor (VEGF) antibodies. However, due to the complex pathogenesis and cross-interference of multiple biochemical pathways, these interventions cannot block disease progression. Recognizing the critical role of the retinal microenvironment (RME) in DR, it is hypothesized that reshaping the RME by simultaneously inhibiting primary and secondary blood-retinal barrier (BRB) injury can attenuate DR. For this, a glucose-responsive hydrogel named Cu-PEI/siMyD88@GEMA-Con A (CSGC) is developed that effectively delivers Cu-PEI/siMyD88 nanoparticles (NPs) to the retinal pigment epithelium (RPE). The Cu-PEI NPs act as antioxidant enzymes, scavenging ROS and inhibiting RPE pyroptosis, ultimately blocking primary BRB injury by reducing microglial activation and Th1 differentiation. Simultaneously, MyD88 expression silence in combination with the Cu-PEI NPs decreases IL-18 production, synergistically reduces VEGF levels, and enhances tight junction proteins expression, thus blocking secondary BRB injury. In summary, via remodeling the RME, the CSGC hydrogel has the potential to disrupt the detrimental cycle of cross-interference between primary and secondary BRB injury, providing a promising therapeutic strategy for DR.
Department of Chemistry and Biochemistry Mendel University in Brno Brno CZ 61300 Czech Republic
Department of Pharmacy Tianjin Union Medical Center Nankai University Tianjin 300122 P R China
References provided by Crossref.org
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