Apelin is a Crucial Factor for Hypoxia-induced Retinal Angiogenesis

Overview

Journal Arterioscler Thromb Vasc Biol

Date 2010 Aug 14

PMID 20705920

Citations 29

Authors

Atsushi Kasai

Yuki Ishimaru

Toshihiko Kinjo

Tatsuya Satooka

Nao Matsumoto

Yasuhiro Yoshioka

Akiko Yamamuro

Fumi Gomi

Norihito Shintani

Akemichi Baba

Sadaaki Maeda

Affiliations

Soon will be listed here.

Abstract

Objective: To investigate the role of endogenous apelin in pathological retinal angiogenesis.

Methods And Results: The progression of ischemic retinal diseases, such as diabetic retinopathy, is closely associated with pathological retinal angiogenesis, mainly induced by vascular endothelial growth factor (VEGF) and erythropoietin. Although antiangiogenic therapies using anti-VEGF drugs are effective in treating retinal neovascularization, they show a transient efficacy and cause general adverse effects. New therapeutic target molecules are needed to resolve these issues. It was recently demonstrated that the apelin/APJ system, a newly deorphanized G protein-coupled receptor system, is involved in physiological retinal vascularization. Retinal angiography and mRNA expression were examined during hypoxia-induced retinal angiogenesis in a mouse model of oxygen-induced retinopathy. Compared with age-matched control mice, retinal apelin expression was dramatically increased during the hypoxic phase in oxygen-induced retinopathy model mice. APJ was colocalized in proliferative cells, which were probably endothelial cells of the ectopic vessels in the vitreous body. Apelin deficiency hardly induced hypoxia-induced retinal angiogenesis despite the upregulation of VEGF and erythropoietin mRNA in oxygen-induced retinopathy model mice. Apelin small and interfering RNA suppressed the proliferation of endothelial cells independent of the VEGF/VEGF receptor 2 signaling pathway.

Conclusions: These results suggest that apelin is a prerequisite factor for hypoxia-induced retinal angiogenesis.

Citing Articles

Targeting the apelin system for the treatment of cardiovascular diseases.

Chapman F, Maguire J, Newby D, Davenport A, Dhaun N Cardiovasc Res. 2023; 119(17):2683-2696.

PMID: 37956047 PMC: 10757586. DOI: 10.1093/cvr/cvad171.

Alterations in choroidal vascular structures due to serum levels of vascular endothelial growth factor in patients with POEMS syndrome.

Yokouchi H, Nagasato D, Mitamura Y, Egawa M, Tabuchi H, Misawa S Sci Rep. 2023; 13(1):10650.

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Apelin-driven endothelial cell migration sustains intestinal progenitor cells and tumor growth.

Bernier-Latmani J, Cisarovsky C, Mahfoud S, Ragusa S, Dupanloup I, Barras D Nat Cardiovasc Res. 2022; 1(5):476-490.

PMID: 35602406 PMC: 7612746. DOI: 10.1038/s44161-022-00061-5.

Correlation Between Apelin and Collateral Circulation in Patients with Middle Cerebral Artery Occlusion and Moyamoya Disease.

Wu H, Xia C, Li R, Tao C, Tang Q, Hu W Int J Gen Med. 2022; 15:699-709.

PMID: 35082519 PMC: 8784270. DOI: 10.2147/IJGM.S341015.

Association of the Adipokines Chemerin, Apelin, Vaspin and Omentin and Their Functional Genetic Variants with Rheumatoid Arthritis.

Wahba A, Ibrahim M, Abo-Elmatty D, Mehanna E J Pers Med. 2021; 11(10).

PMID: 34683117 PMC: 8539350. DOI: 10.3390/jpm11100976.