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18 results on '"Hong, Yi‐Xiang"'

4. Exploring the role of Prx II in mitigating endoplasmic reticulum stress and mitochondrial dysfunction in neurodegeneration

Author

Mei-Hua Jin, Lin Feng, Hong-Yi Xiang, Hu-Nan Sun, Ying-Hao Han, and Taeho Kwon

Subjects
Neurodegenerative diseases, Peroxiredoxin II, Reactive oxygen species, Endoplasmic reticulum-mitochondrial interactions, Mitochondrial damage, Medicine, Cytology, QH573-671
Abstract

Abstract Background Neurodegenerative diseases are increasingly recognized for their association with oxidative stress, which leads to progressive dysfunction and loss of neurons, manifesting in cognitive and motor impairments. This study aimed to elucidate the neuroprotective role of peroxiredoxin II (Prx II) in counteracting oxidative stress-induced mitochondrial damage, a key pathological feature of neurodegeneration. Methods We investigated the impact of Prx II deficiency on endoplasmic reticulum stress and mitochondrial dysfunction using HT22 cell models with knocked down and overexpressed Prx II. We observed alcohol-treated HT22 cells using transmission electron microscopy and monitored changes in the length of mitochondria-associated endoplasmic reticulum membranes and their contact with endoplasmic reticulum mitochondria contact sites (EMCSs). Additionally, RNA sequencing and bioinformatic analysis were conducted to identify the role of Prx II in regulating mitochondrial transport and the formation of EMCSs. Results Our results indicated that Prx II preserves mitochondrial integrity by facilitating the formation of EMCSs, which are essential for maintaining mitochondrial Ca2+ homeostasis and preventing mitochondria-dependent apoptosis. Further, we identified a novel regulatory axis involving Prx II, the transcription factor ATF3, and miR-181b-5p, which collectively modulate the expression of Armcx3, a protein implicated in mitochondrial transport. Our findings underscore the significance of Prx II in protecting neuronal cells from alcohol-induced oxidative damage and suggest that modulating the Prx II-ATF3-miR-181b-5p pathway may offer a promising therapeutic strategy against neurodegenerative diseases. Conclusions This study not only expands our understanding of the cytoprotective mechanisms of Prx II but also offers necessary data for developing targeted interventions to bolster mitochondrial resilience in neurodegenerative conditions.

Published
2024
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5. A foot structure study of new arch flexibility grading system based on three-dimensional arch volume

Author

Jun Liu, Miao Deng, Wei Wang, Xiang-Dong Liu, Lun Tao, Hong-Yi Xiang, and Yan Xiong

Subjects
Arch height flexibility, Arch volume flexibility, Classification, Arch volume, Three-dimensional, Arch index, Medicine (General), R5-920
Abstract

Purpose: Different arch structures may cause different foot function injuries. In the past, the arch structure and flexibility of the foot were often defined by the height of the arch, and there was no three-dimensional (3D) structure classification method. In order to form a more complete 3D description, we propose a new classification system of arch volume flexibility (AVF), and then use this new classification system to investigate the relationship between the AVF and arch index (AI), and the arch height flexibility (AHF) and AI, respectively. Methods: It is proposed to recruit 180 young male adults for the test. We obtained arch volume and AI through 3D scanning and obtained the navicular height through manual measurement. Based on these data, we calculated the AHF and the AVF. Using the quintile method, these arches are divided into very stiff, stiff, neutral, flexible, and very flexible. According to AI value, all arches were divided into cavus, rectus, and planus. The distribution of AVF was compared using χ2 goodness of fit test. The spearman correlation test was used to compare the AHF and AVF. A p

Published
2023
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10. Deletion of endothelial IGFBP5 protects against ischaemic hindlimb injury by promoting angiogenesis.

Author

Song, Fei, Hu, Yu, Hong, Yi‐Xiang, Sun, Hu, Han, Yue, Mao, Yi‐Jie, Wu, Wei‐Yin, Li, Gang, and Wang, Yan

Subjects
INSULIN-like growth factor-binding proteins, SOMATOMEDIN, NEOVASCULARIZATION, VASCULAR remodeling, HINDLIMB
Abstract

Background: Angiogenesis is critical for forming new blood vessels from antedating vascular vessels. The endothelium is essential for angiogenesis, vascular remodelling and minimisation of functional deficits following ischaemia. The insulin‐like growth factor (IGF) family is crucial for angiogenesis. Insulin‐like growth factor‐binding protein 5 (IGFBP5), a binding protein of the IGF family, may have places in angiogenesis, but the mechanisms are not yet completely understood. We sought to probe whether IGFBP5 is involved in pathological angiogenesis and uncover the molecular mechanisms behind it. Methods and results: IGFBP5 expression was elevated in the vascular endothelium of gastrocnemius muscle from critical limb ischaemia patients and hindlimb ischaemic (HLI) mice and hypoxic human umbilical vein endothelial cells (HUVECs). In vivo, loss of endothelial IGFBP5 (IGFBP5EKO) facilitated the recovery of blood vessel function and limb necrosis in HLI mice. Moreover, skin damage healing and aortic ring sprouting were faster in IGFBP5EKO mice than in control mice. In vitro, the genetic inhibition of IGFBP5 in HUVECs significantly promoted tube formation, cell proliferation and migration by mediating the phosphorylation of IGF1R, Erk1/2 and Akt. Intriguingly, pharmacological treatment of HUVECs with recombinant human IGFBP5 ensued a contrasting effect on angiogenesis by inhibiting the IGF1 or IGF2 function. Genetic inhibition of IGFBP5 promoted cellular oxygen consumption and extracellular acidification rates via IGF1R‐mediated glycolytic adenosine triphosphate (ATP) metabolism. Mechanistically, IGFBP5 exerted its role via E3 ubiquitin ligase Von Hippel‐Lindau (VHL)‐regulated HIF1α stability. Furthermore, the knockdown of the endothelial IGF1R partially abolished the reformative effect of IGFBP5EKO mice post‐HLI. Conclusion: Our findings demonstrate that IGFBP5 ablation enhances angiogenesis by promoting ATP metabolism and stabilising HIF1α, implying IGFBP5 is a novel therapeutic target for treating abnormal angiogenesis‐related conditions. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Identification of peroxiredoxin II and its related molecules as potential biomarkers of dermal mesenchymal stem cell homing using network analysis

Author

Ying-Hao Han, Ying-Ying Mao, Yao-Yuan Feng, Hong-Yi Xiang, Hu-Nan Sun, Mei-Hua Jin, and Taeho Kwon

Subjects
Organic Chemistry, General Biochemistry, Genetics and Molecular Biology
Abstract

In this study, we performed RNA sequencing of Prx II+/+ and Prx II−/− dermal mesenchymal stem cells (DMSCs) to identify differentially expressed genes (DEGs). To explore the role of Prx II in DMSCs, we performed Gene Ontology analysis of the DEGs. The results showed that the DEGs were mainly involved in the biological processes of cell migration, intercellular adhesion, and coordination of the regulation of stem cell homing. Through the construction of protein–protein interaction network, four hub genes Cd274, Ccl5, Il1b, and Stat1 involved in cell adhesion and cell homing were screened. Quantitative reverse transcription PCR analysis showed that Cd274, Ccl5, Il1b, and Stat1 were down regulated in Prx II−/− DMSCs. miRwalk and Starbase databases were further used to screen the upstream molecules miRNA and lncRNA regulating hub gene. Prx II was found to be involved in the regulation of stem cell homing via the Tctn2/miR-351/Stat1/Il1b axis. Thus, we demonstrated that Prx II is a key molecule in the regulation of the homing ability of DMSCs. Our results provide a theoretical foundation for improving the homing ability of DMSCs by targeting Prx II.

Published
2022
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12. Additional file 1 of Heart-targeting exosomes from human cardiosphere-derived cells improve the therapeutic effect on cardiac hypertrophy

Author

Mao, Liang, Li, Yun-Da, Chen, Ruo-Lan, Li, Gang, Zhou, Xiao-Xia, Song, Fei, Wu, Chan, Hu, Yu, Hong, Yi-Xiang, Dang, Xitong, Li, Gui-Rong, and Wang, Yan

Abstract

Additional file 1: Figure S1. Schematic illustration of displaying a homing peptide/FLAG on the surface of exosomes. The coding sequence of HHP/FLAG (red bar) was fused in-frame to the LAMP2b cDNA between the signal peptide (SP) and the N-terminus, which was then cloned into pLVX-IRES-ZsGreen1 expression plasmid. Forced expression of the plasmid in CDCs would display the HHP/FLAG (red oval) on the surface of exosomes. Figure S2. Schematic illustration of mice treatment schedule. The TAC mice were randomly divided into 3 groups, PBS control, CON-EXO, and HHP-EXO (n = 12 each). Exosomes (4 mg/kg) or PBS were tail-vein injected on day 8, 10, 12, 14, 16, 18, 20 post-TAC. Echocardiographic studies were performed 3 days (Control) prior to, and on day 7, 14, 21, 28 and 42 after, the TAC. The mean arterial blood pressure was evaluated, serum was collected, and the hearts were harvested on day 42 post-TAC. Figure S3. Cardiac hypertrophy after exosome treatment. A Coronal sections of the hearts among groups by HE staining. B Quantitation of heart weight/body weight (left panel) and heart weight/tibial length (right panel) ratios among groups. Data are presented as ‘Mean ± STDEV’, n = 9-12 animals, *P < 0.05 and **P < 0.01. Figure S4. HHP-EXO and SC144 perform similar effect of inhibiting GP130-STAT pathway. H9C2 cardiomyocytes were pretreated with SC144 (10μM) for 1h, and then exposure to Ang II (1 μM) with or without HHP-EXO (50μg/ml) for 24h, the expression of β-MHC, GP130, p-STAT3, STAT3, p-ERK1/2, ERK, p-AKT and AKT was detected by Western blotting. Table S1. Parameters of cardiac function and related serum kinases levels in TAC mice with different treatments. Table S2. Reagents and antibodies used in the present study. Table S3. Primers for cloning of LAMP2b fusion plasmids used in the present study.

Published
2022
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18. Abstract 14120: The Natural Flavone Acacetinslows the Development of Atherosclerosis by Sirt3-Mediated Activation of AMPK Signaling Pathway in Diabetic ApoE Null Mice

Author

Han, Wei-Min, Chen, Xu-Chang, Hong, Yi-Xiang, Wang, Hui-Min, Li, Gui-Rong, and Wang, Yan

Abstract

Background:It is well recognized that the risk for atherosclerosis is remarkably increased in diabetes mellitus. The present study investigates whether the natural flavone acacetin can slow the development of atherosclerosis in diabetes mellitus of ApoE null mice.Methods:ApoE null mice with type-2 diabetes mellitus (DM) induced by streptozotocin were treated with acacetin (20 mg/kg, s.c., b,i,d.) for 12 weeks. Human umbilical vein endothelial cells (HUVECs) were cultured with high glucose (33 mM) medium with or without treatment of acacetin to explore the potential molecular mechanisms.Results:Atherosclerotic plaque area of aorta was significantly increased in DM mice to 10.99?1.02% from 5.07?0.32% of control (n=11, P<0.01) while reduced to 7.01?0.59 % (n=11, P<0.01) in DM mice treated with acacetin (see figure). Acacetin did not reduce random blood glucose level (21.30?1.10 mM vs. 23.07?1.35 mM in DM). Interestingly, it decreased the plasma TG, TC, LDL from 3.99?0.39 mM, 21.72?1.13 mM, 6.39?0.49 mM in vehicle-treated DM mice respectively to 2.69?0.19 mM, 16.28?0.94 mM, 4.39?0.53 mM in acacetin-treated animals. Moreover, acacetin increased plasma from HDL 0.48?0.03 mM to 0.64?0.02 mM (n=11, P<0.01). In cultured HUVECs, acacetin (0.3-3 uM) reversed the cell viability reduction, apoptosis, mitochondrial injury induced by high glucose culture via rescuing Nrf2, SOD1, SOD2, Bcl2/Bax reduction. These protective effects were associated with up-regulation of Sirt3 and LKB1-AMPK phosphorylation.Conclusions:Our results demonstrate for the first time that acacetin exerts an anti-atherosclerotic action in diabetic ApoE null mice via activating Sirt3- LKB1-AMPK signaling pathway, suggesting that acacetin may be an effective therapeutic drug for diabetic cardiovascular complications.

Published
2019
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