Jun Guo scite author profile

Vascular endothelial growth factor (VEGF-A) is a major pathogenic factor and a therapeutic target for age-related macular degeneration, diabetic retinopathy, and retinopathy of prematurity. Despite intensive effort in the field, the cellular mechanisms of VEGF action remain virtually uninvestigated. This situation makes it difficult to design cellular target-based therapeutics for these diseases. In light of the recent finding that VEGF is a potential neurotrophic factor, revealing the cellular mechanisms of VEGF action becomes necessary to preserve its beneficial effect and inhibit its pathological function in long-term anti-VEGF therapeutics for ocular vascular diseases. We therefore generated conditional VEGF knockout mice with an inducible Cre/lox system and determined the significance of Müller cell-derived VEGF in retinal development and maintenance and ischaemia-induced neovascularizartion and vascular leakage. Retinal development in the conditional VEGF knockout mice was analysed by examining retinal and choroidal vasculatures and retinal morphology and function. Ischaemia-induced retinal neovascularization and vascular leakage in the conditional VEGF knockout mice were analysed with fluorescein angiography, quantification of proliferative neovascular cells, immunohistochemistry, and immunoblotting using an oxygen-induced retinopathy model. Our results demonstrated that disruption of Müller cell-derived VEGF resulted in no apparent defects in retinal and choroidal vasculatures and retinal morphology and function, significant inhibition of the ischaemia-induced retinal neovascularization and vascular leakage, and attenuation of the ischaemia-induced breakdown of the blood-retina barrier. These results suggest that the retinal Müller cell-derived VEGF is a major contributor to ischaemia-induced retinal vascular leakage and pre-retinal and intra-retinal neovascularization. The observation that a significant, but not complete, reduction of VEGF in the retina does not cause detectable retinal degeneration suggests that appropriate doses of anti-VEGF agents may be important to the safe treatment of retinal vascular diseases.

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Recent Advances in Hydrometallation of Alkenes and Alkynes via the First Row Transition Metal Catalysis

Chen

2018

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Hydrometallation of alkenes and alkynes provides a straightforward route to access alkyl-or alkenyl-metal reagents, which have a wide range of applications in organic transformations. In recent years, the first row transition metals (such as copper, nickel, cobalt, iron, etc.) have emerged high activity and selectivity in this area with the aid of a variety of ligands. This review covers the recent advances in the hydrometallation of minimally functionalized unsaturated C-C bonds (including alkenes, alkynes, dienes, allenes, enynes, etc.), as well as transformations involving catalytic hydrometallation process via the first row transition metal catalysis.

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Retinal Angiogenesis in the Ins2^AkitaMouse Model of Diabetic Retinopathy

Han

Guo

Conley

et al. 2013

Invest. Ophthalmol. Vis. Sci.

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Comparative Analysis of DNA Nanoparticles and AAVs for Ocular Gene Delivery

et al. 2012

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Gene therapy is a critical tool for the treatment of monogenic retinal diseases. However, the limited vector capacity of the current benchmark delivery strategy, adeno-associated virus (AAV), makes development of larger capacity alternatives, such as compacted DNA nanoparticles (NPs), critical. Here we conduct a side-by-side comparison of self-complementary AAV and CK30PEG NPs using matched ITR plasmids. We report that although AAVs are more efficient per vector genome (vg) than NPs, NPs can drive gene expression on a comparable scale and longevity to AAV. We show that subretinally injected NPs do not leave the eye while some of the AAV-injected animals exhibited vector DNA and GFP expression in the visual pathways of the brain from PI-60 onward. As a result, these NPs have the potential to become a successful alternative for ocular gene therapy, especially for the multitude of genes too large for AAV vectors.

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Jun Guo

Müller cell‐derived VEGF is a significant contributor to retinal neovascularization

Recent Advances in Hydrometallation of Alkenes and Alkynes via the First Row Transition Metal Catalysis

Retinal Angiogenesis in the Ins2^AkitaMouse Model of Diabetic Retinopathy

Comparative Analysis of DNA Nanoparticles and AAVs for Ocular Gene Delivery

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About

Jun Guo

Müller cell‐derived VEGF is a significant contributor to retinal neovascularization

Recent Advances in Hydrometallation of Alkenes and Alkynes via the First Row Transition Metal Catalysis

Retinal Angiogenesis in the Ins2AkitaMouse Model of Diabetic Retinopathy

Comparative Analysis of DNA Nanoparticles and AAVs for Ocular Gene Delivery

Contact Info

Product

Resources

About

Retinal Angiogenesis in the Ins2^AkitaMouse Model of Diabetic Retinopathy