Your search keyword '"Chen, Guona"' showing total 5 results

1. Single‐cell RNA sequencing reveals that NRF2 regulates vascular smooth muscle cell phenotypic switching in abdominal aortic aneurysm.

Author

Xiao, Xiaoyong, Li, Chenglin, Huang, Xiaojia, Chen, Guona, Huang, Xiaoran, Song, Feier, Zhou, Yu, Liu, Xincheng, Zhou, Xueke, Meng, Jinxiu, Bellou, Abdelouahab, Zhong, Lintao, and Li, Xin

Published

2024

2. Endothelial CCRL2 induced by disturbed flow promotes atherosclerosis via chemerin-dependent β2 integrin activation in monocytes.

Author

Tang, Chaojun, Chen, Guona, Wu, Fan, Cao, Yiren, Yang, Fei, You, Tao, Liu, Chu, Li, Menglu, Hu, Shuhong, Ren, Lijie, Lu, Qiongyu, Deng, Wei, Xu, Ying, Wang, Guixue, Jo, Hanjoong, Zhang, Yonghong, Wu, Yi, Zabel, Brian A, and Zhu, Li

Subjects

*INTEGRINS, *ATHEROSCLEROTIC plaque, *CHEMERIN, *ATHEROSCLEROSIS, *MONOCYTES, *WESTERN diet

Abstract

Aims Chemoattractants and their cognate receptors are essential for leucocyte recruitment during atherogenesis, and atherosclerotic plaques preferentially occur at predilection sites of the arterial wall with disturbed flow (d-flow). In profiling the endothelial expression of atypical chemoattractant receptors (ACKRs), we found that Ackr5 (CCRL2) was up-regulated in an endothelial subpopulation by atherosclerotic stimulation. We therefore investigated the role of CCRL2 and its ligand chemerin in atherosclerosis and the underlying mechanism. Methods and results By analysing scRNA-seq data of the left carotid artery under d-flow and scRNA-seq datasets GSE131776 of ApoE−/− mice from the Gene Expression Omnibus database, we found that CCRL2 was up-regulated in one subpopulation of endothelial cells in response to d-flow stimulation and atherosclerosis. Using CCRL2−/−ApoE−/− mice, we showed that CCRL2 deficiency protected against plaque formation primarily in the d-flow areas of the aortic arch in ApoE−/− mice fed high-fat diet. Disturbed flow induced the expression of vascular endothelial CCRL2, recruiting chemerin, which caused leucocyte adhesion to the endothelium. Surprisingly, instead of binding to monocytic CMKLR1, chemerin was found to activate β2 integrin, enhancing ERK1/2 phosphorylation and monocyte adhesion. Moreover, chemerin was found to have protein disulfide isomerase-like enzymatic activity, which was responsible for the interaction of chemerin with β2 integrin, as identified by a Di-E-GSSG assay and a proximity ligation assay. For clinical relevance, relatively high serum levels of chemerin were found in patients with acute atherothrombotic stroke compared to healthy individuals. Conclusions Our findings indicate that d-flow-induced CCRL2 promotes atherosclerotic plaque formation via a novel CCRL2-chemerin-β2 integrin axis, providing potential targets for the prevention or therapeutic intervention of atherosclerosis. [ABSTRACT FROM AUTHOR]

Published

2023

3. Apelin-13 Pretreatment Promotes the Cardioprotective Effect of Mesenchymal Stem Cells against Myocardial Infarction by Improving Their Survival.

Author

Chen, Guona, Liang, Xiaoting, Han, Qian, Mai, Cong, Shi, Linli, Shao, Zhuang, Hong, Yimei, Lin, Fang, Li, Mimi, Hu, Bei, Li, Xin, and Zhang, Yuelin

Subjects

*MYOCARDIAL infarction, *MESENCHYMAL stem cells, *REACTIVE oxygen species, *CELL survival, *HEART, *CARDIOVASCULAR diseases

Abstract

Although mesenchymal stem cell- (MSC-) based therapy has shown promising results for myocardial infarction (MI), low cell survival heavily limits its beneficial effects. Apelin plays an essential regulatory role in cell proliferation. This study was aimed at determining whether Apelin-13 pretreatment could improve the survival of MSCs in the ischemic heart and enhance their cardioprotective efficacy against MI. MSCs were pretreated with or without Apelin-13 for 24 hours and then exposed to serum deprivation and hypoxia (SD/H) for 48 hours. The mitochondrial morphology of MSCs was assessed by MitoTracker staining. The apoptosis of MSCs was determined by TUNEL staining. The level of mitochondrial reactive oxygen species (ROS) of MSCs was detected by Mito-Sox staining. MSCs and Apelin-13-pretreated MSCs were transplanted into the peri-infarct region in a mouse MI model. Apelin-13 pretreatment protected MSCs against SD/H-induced mitochondrial fragmentation and apoptosis. Apelin-13 pretreatment reduced ROS generation induced by SD/H in MSCs. Furthermore, Apelin-13 pretreatment enhanced the angiogenesis of MSCs under SD/H conditions. Mechanistically, Apelin-13 pretreatment inhibited SD/H-induced MSC apoptosis by downregulating mitochondrial fission via activation of the ERK pathway, and these effects were partially abrogated by ERK inhibitor U0126. Apelin-13 pretreatment promoted the survival of MSCs in the ischemic heart. Moreover, transplantation with Apelin-13-pretreated MSCs improved heart function and increased angiogenesis accompanied by decreased fibrosis compared with MSC transplantation at 28 days following MI. These findings reveal that pretreatment with Apelin-13 improves MSCs survival and enhances their therapeutic efficacy for MI. Our study provides a novel approach to improve MSC-based therapy for cardiovascular disease. [ABSTRACT FROM AUTHOR]

Published

2022

4. Sema4D correlates with tumour immune infiltration and is a prognostic biomarker in bladder cancer, renal clear cell carcinoma, melanoma and thymoma.

Author

Lu, Qiongyu, Cai, Ping, Yu, Yan, Liu, Ziting, Chen, Guona, and Zeng, Zhao

Subjects

RENAL cell carcinoma, BLADDER cancer, BIOMARKERS, MELANOMA, PROGNOSIS

Abstract

Sema4D, a member of the immune semaphorin family, plays crucial roles in the immune regulation, bone resorption and nervous system. It is also involved in angiogenesis and tumour progression. However, systemic studies on the correlation between Sema4D expression and the immune infiltration or clinical outcomes in tumours are still limited. Here, we analysed the landscape of Sema4D expression and its prognostic value in the cancer genome atlas pan-cancer as well as the correlation between Sema4D and immune cell infiltration by Tumour Immune Estimation Resource and Gene Expression Profiling interactive analysis online tools. Results showed that a higher Sema4D expression was significantly correlated with a favourable overall survival in diverse solid tumours including bladder cancer (Hazards Ratio (HR)=0.68, p =.0095), kidney renal clear cell carcinoma (HR = 0.61, p =.0016), melanoma (HR = 0.58, p = 6.6e-05) and thymoma (HR = 0.1, p =.011). Interestingly, Sema4D expression has positive correlation with various tumour infiltrating immune cells and immune cell biomarkers in these tumours. These results suggest that Sema4D could be a prospective biomarker for calculating hazard ratio of tumour patients and their tumour immune infiltration levels. [ABSTRACT FROM AUTHOR]

Published

2021

5. Molecular docking‐assisted screening reveals tannic acid as a natural protein disulphide isomerase inhibitor with antiplatelet and antithrombotic activities.

Author

Ren, Lijie, You, Tao, Li, Qing, Chen, Guona, Liu, Ziting, Zhao, Xuefei, Wang, Yinyan, Wang, Lei, Wu, Yi, Tang, Chaojun, and Zhu, Li

Subjects

PROTEIN disulfide isomerase, MOLECULAR docking, TANNINS, BLOOD platelet aggregation, FIBRINOLYTIC agents, BLOOD platelet activation, PLANT polyphenols, BLOOD platelets

Abstract

Protein disulphide isomerase (PDI) promotes platelet activation and constitutes a novel antithrombotic target. In this study, we reported that a PDI‐binding plant polyphenol, tannic acid (TA), inhibits PDI activity, platelet activation and thrombus formation. Molecular docking using plant polyphenols from dietary sources with cardiovascular benefits revealed TA as the most potent binding molecule with PDI active centre. Surface plasmon resonance demonstrated that TA bound PDI with high affinity. Using Di‐eosin‐glutathione disulphide fluorescence assay and PDI assay kit, we showed that TA inhibited PDI activity. In isolated platelets, TA inhibited platelet aggregation stimulated by either GPVI or ITAM pathway agonists. Flow cytometry showed that TA inhibited thrombin‐ or CRP‐stimulated platelet activation, as reflected by reduced granule secretion and integrin activation. TA also reduced platelet spreading on immobilized fibrinogen and platelet adhesion under flow conditions. In a laser‐induced vascular injury mouse model, intraperitoneal injection of TA significantly decreased the size of cremaster arteriole thrombi. No prolongation of mouse jugular vein and tail‐bleeding time was observed after TA administration. Therefore, we identified TA from natural polyphenols as a novel inhibitor of PDI function. TA inhibits platelet activation and thrombus formation, suggesting it as a potential antithrombotic agent. [ABSTRACT FROM AUTHOR]

Published

2020