Effects of hydrogen peroxide on endothelial function in three-dimensional hydrogel vascular model and regulation mechanism of polar protein Par3

Author:

Gao HongqianORCID,Wang Bo,Chen Ruomeng,Jin Zhen,Ren Lingxuan,Yang Jianjun,Wang Weirong,Zheng Nanbo,Lin RongORCID

Abstract

Abstract Three-dimensional (3D) cell cultures better reflect the function of endothelial cells (ECs) than two-dimensional (2D) cultures. In recent years, studies have found that ECs cultured in a 3D luminal structure can mimic the biological characteristics and phenotypes of vascular ECs, thus making it more suitable for endothelial dysfunction research. In this study, we used a 3D model and 2D tissue culture polystyrene (TCP) to investigate the effects of cell polarity on hydrogen peroxide (H2O2)-induced endothelial dysfunction and its related mechanisms. We observed the cell morphology, oxidative stress, and barrier and endothelial function of human umbilical vein ECs (HUVECs) in 3D and 2D cultures. We then used Illumina to detect the differentially expressed genes (DEGs) in the 3D-cultured HUVEC with and without H2O2 stimulation, using clusterProfiler for Gene Ontology function enrichment analysis and Kyoto Encyclopaedia of Genes and Genomes pathway enrichment analysis of DEGs. Finally, we explored the role and mechanism of polar protein partitioning defective protein 3 (Par3) in the regulation of ECs. ECs were inoculated into the 3D hydrogel channel; after stimulation with H2O2, the morphology of HUVECs changed, the boundary was blurred, the expression of intercellular junction proteins decreased, and the barrier function of the EC layer was damaged. 3D culture increased the oxidative stress response of cells stimulated by H2O2 compared to 2D TCPs. The polarity-related protein Par3 and cell division control protein 42 were screened using bioinformatics analysis, and western blotting was used to verify the results. Par3 knockdown significantly suppressed claudin1 (CLDN1) and vascular endothelial cadherin. These results suggest that the polar protein Par3 can protect H2O2-induced vascular ECs from damage by regulating CLDN1 and VE-cadherin.

Funder

Xi’an Science and Technology Plan Project

National Natural Science Foundation of China

Publisher

IOP Publishing

Subject

Biomedical Engineering,Biomaterials,Bioengineering

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