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172 results on '"Cheang, Wai San"'

13. 3,3′,4,5′‐Tetramethoxy‐trans‐stilbene and 3,4′,5‐trimethoxy‐trans‐stilbene prevent oxygen–glucose deprivation‐induced injury in brain endothelial cell.

Author

Zhou, Chunxiu, Zhou, Yan, Vong, Chi Teng, Khan, Haroon, and Cheang, Wai San

Subjects
TIGHT junctions, NITRIC-oxide synthases, ISCHEMIC stroke, METHOXY group, REACTIVE oxygen species, STILBENE
Abstract

Blood–brain barrier (BBB) disruption is a major pathophysiological event of ischemic stroke. Brain microvascular endothelial cells are critical to maintain homeostasis between central nervous system and periphery. Resveratrol protects against ischemic stroke. 3,3′,4,5′‐tetramethoxy‐trans‐stilbene (3,3′,4,5′‐TMS) and 3,4′,5‐trimethoxy‐trans‐stilbene (3,4′,5‐TMS) are resveratrol derivatives with addition of methoxy groups, showing better pharmacokinetic performance. We aimed to explore their protective effects and underlying mechanisms. Oxygen–glucose deprivation (OGD) model was applied in bEnd.3 cell line, mouse brain microvascular endothelium to mimic ischemia. The cells were pre‐treated with 3,3′,4,5′‐TMS or 3,4′,5‐TMS (1 and 5 μM, 24 h) and then subjected to 2‐h OGD injury. Cell viability, levels of proinflammatory cytokines and reactive oxygen species (ROS), and protein expressions were measured by molecular assays and fluorescence staining. OGD injury triggered cell death, inflammatory responses, ROS production and nuclear factor‐kappa B (NF‐κB) signalling pathway. These impairments were remarkably attenuated by the two stilbenes, 3,3′,4,5′‐TMS and 3,4′,5‐TMS. They also alleviated endothelial barrier injuries through upregulating the expression of tight junction proteins. Moreover, 3,3′,4,5′‐TMS and 3,4′,5‐TMS activated 5′ adenosine monophosphate‐activated protein kinase (AMPK) and endothelial nitric oxide synthase (eNOS). Overall, 3,3′,4,5′‐TMS and 3,4′,5‐TMS exert protective effects against OGD damage through suppressing cell death, inflammatory responses, oxidative stress, as well as BBB disruption on bEnd.3 cells. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Exploiting new strategies in combating head and neck carcinoma: A comprehensive review on phytochemical approaches passing through PI3K/Akt/mTOR signaling pathway.

Author

Iranpanah, Amin, Majnooni, Mohammad Bagher, Biganeh, Hossein, Amirian, Roshanak, Rastegari‐Pouyani, Mohsen, Filosa, Rosanna, Cheang, Wai San, Fakhri, Sajad, and Khan, Haroon

Abstract

Recently, malignant neoplasms have growingly caused human morbidity and mortality. Head and neck cancer (HNC) constitutes a substantial group of malignancies occurring in various anatomical regions of the head and neck, including lips, mouth, throat, larynx, nose, sinuses, oropharynx, hypopharynx, nasopharynx, and salivary glands. The present study addresses the phosphoinositide 3‐kinase (PI3K)/protein kinase B (Akt)/mammalian target of rapamycin (mTOR) pathway as a possible therapeutic target in cancer therapy. Finding new multitargeting agents capable of modulating PI3K/Akt/mTOR and cross‐linked mediators could be viewed as an effective strategy in combating HNC. Recent studies have introduced phytochemicals as multitargeting agents and rich sources for finding and developing new therapeutic agents. Phytochemicals have exhibited immense anticancer effects, including targeting different stages of HNC through the modulation of several signaling pathways. Moreover, phenolic/polyphenolic compounds, alkaloids, terpenes/terpenoids, and other secondary metabolites have demonstrated promising anticancer activities because of their diverse pharmacological and biological properties like antiproliferative, antineoplastic, antioxidant, and anti‐inflammatory activities. The current review is mainly focused on new therapeutic strategies for HNC passing through the PI3K/Akt/mTOR pathway as new strategies in combating HNC. [ABSTRACT FROM AUTHOR]

Published
2024
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15. Ginsenoside Rk1 Ameliorates ER Stress-Induced Apoptosis through Directly Activating IGF-1R in Mouse Pancreatic β-Cells and Diabetic Pancreas.

Author

Vong, Chi Teng, Tan, Dechao, Liao, Fengyun, Chen, Zhejie, Chen, Zhangmei, Tseng, Hisa Hui Ling, Cheang, Wai San, Wang, Shengpeng, and Wang, Yitao

Subjects
COMPUTER-assisted molecular modeling, PROTEIN kinases, PHOSPHOLIPIDS, RESEARCH funding, ENDOPLASMIC reticulum, APOPTOSIS, PANCREATIC beta cells, ENZYME-linked immunosorbent assay, OXIDATIVE stress, DESCRIPTIVE statistics, CELLULAR signal transduction, PANCREAS, CELL lines, MICE, GENE expression, GLYCOSIDES, TYPE 2 diabetes, ANIMAL experimentation, WESTERN immunoblotting, ONE-way analysis of variance, MOLECULAR structure, CELL receptors, CONNECTIVE tissue growth factor, CASPASES, IMMUNOBLOTTING
Abstract

Hyperglycemia induces chronic stresses, such as oxidative stress and endoplasmic reticulum (ER) stress, which can result in β -cell dysfunction and development of Type 2 Diabetes Mellitus (T2DM). Ginsenoside Rk1 is a minor ginsenoside isolated from Ginseng. It has been shown to exert anti-cancer, anti-inflammatory, anti-oxidant, and neuroprotective effects; however, its effects on pancreatic cells in T2DM have never been studied. This study aims to examine the novel effects of Ginsenoside Rk1 on ER stress-induced apoptosis in a pancreatic β -cell line MIN6 and HFD-induced diabetic pancreas, and their underlying mechanisms. We demonstrated that Ginsenoside Rk1 alleviated ER stress-induced apoptosis in MIN6 cells, which was accomplished by directly targeting and activating insulin-like growth factor 1 receptor (IGF-1R), thus activating the phosphoinositide 3-kinase (PI3K)/protein kinase B (Akt)/Bcl-2-associated agonist of cell death (Bad)-B-cell lymphoma-2 (Bcl-2) pathway. This pathway was also confirmed in an HFD-induced diabetic pancreas. Meanwhile, the use of the IGF-1R inhibitor PQ401 abolished this anti-apoptotic effect, confirming the role of IGF-1R in mediating anti-apoptosis effects exerted by Ginsenoside Rk1. Besides, Ginsenoside Rk1 reduced pancreas weights and increased pancreatic insulin contents, suggesting that it could protect the pancreas from HFD-induced diabetes. Taken together, our study provided novel protective effects of Ginsenoside Rk1 on ER stress-induced β -cell apoptosis and HFD-induced diabetic pancreases, as well as its direct target with IGF-1R, indicating that Ginsenoside Rk1 could be a potential drug for the treatment of T2DM. [ABSTRACT FROM AUTHOR]

Published
2024
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20. 6‐benzylaminopurine causes endothelial dysfunctions to human umbilical vein endothelial cells and exacerbates atorvastatin‐induced cerebral hemorrhage in zebrafish.

Author

Gong, Guiyi, Kam, Hiotong, Bai, Yubin, Cheang, Wai san, Wu, Shuilong, Cheng, Xiaoning, Giesy, John P., and Lee, Simon Ming‐yuen

Subjects
CEREBRAL hemorrhage, UMBILICAL veins, ENDOTHELIAL cells, ENDOTHELIUM diseases, BRACHYDANIO
Abstract

6‐benzylaminopurine (6‐BA), a multifunctional plant growth regulator, which is frequently used worldwide to improve qualities of various crops, is an important ingredient in production of "toxic bean sprouts." Although there is no direct evidence of adverse effects, its hazardous effects, as well as joint toxicity with other chemicals, have received particular attention and aroused furious debate between proponents and environmental regulators. By use of human umbilical vein endothelial cells (HUVECs), adverse effects of 6‐BA to human‐derived cells were first demonstrated in this study. A total of 25–50 mg 6‐BA/L inhibited proliferation, migration, and formation of tubular‐like structures by 50% in vitro. Results of Western blot analyses revealed that exposure to 6‐BA differentially modulated the MAPK signal transduction pathway in HUVECs. Specifically, 6‐BA decreased phosphorylation of MEK and ERK, but increased phosphorylation of JNK and P38. In addition, 6‐BA exacerbated atorvastatin‐induced cerebral hemorrhage via increasing hemorrhagic occurrence by 60% and areas by 4 times in zebrafish larvae. In summary, 6‐BA elicited toxicity to the endothelial system of HUVECs and zebrafish. This was due, at least in part, to discoordination of MAPK signaling pathway, which should pose potential risks to the cerebral vascular system. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Exploration of natural flavones' bioactivity and bioavailability in chronic inflammation induced-type-2 diabetes mellitus.

Author

Miao, Lingchao, Liu, Conghui, Cheong, Meang Sam, Zhong, Ruting, Tan, Yi, Rengasamy, Kannan R. R., Leung, Susan Wai Sum, Cheang, Wai San, and Xiao, Jianbo

Subjects
BIOAVAILABILITY, TYPE 2 diabetes, FLAVONES, DIABETES, DRUG delivery systems
Abstract

Diabetes, being the most widespread illness, poses a serious threat to global public health. It seems that inflammation plays a critical role in the pathophysiology of diabetes. This review aims to demonstrate a probable link between type 2 diabetes mellitus (T2DM) and chronic inflammation during its development. Additionally, the current review examined the bioactivity of natural flavones and the possible molecular mechanisms by which they influence diabetes and inflammation. While natural flavones possess remarkable anti-diabetic and anti-inflammatory bioactivities, their therapeutic use is limited by the low oral bioavailability. Several factors contribute to the low bioavailability, including poor water solubility, food interaction, and unsatisfied metabolic behaviors, while the diseases (diabetes, inflammation, etc.) causing even less bioavailability. Throughout the years, different strategies have been developed to boost flavones' bioavailability, including structural alteration, biological transformation, and innovative drug delivery system design. This review addresses current advancements in improving the bioavailability of flavonoids in general, and flavones in particular. Clinical trials were also analyzed to provide insight into the potential application of flavonoids in diabetes and inflammatory therapies. [ABSTRACT FROM AUTHOR]

Published
2023
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23. Portulaca Oleracea L. (Purslane) Extract Protects Endothelial Function by Reducing Endoplasmic Reticulum Stress and Oxidative Stress through AMPK Activation in Diabetic Obese Mice.

Author

Miao, Lingchao, Zhou, Chunxiu, Zhang, Haolin, Cheong, Meng Sam, Tan, Yi, Wang, Yuehan, Zhang, Xutao, Yu, Hua, and Cheang, Wai San

Subjects
GLUCOSE-regulated proteins, OXIDATIVE stress, AMP-activated protein kinases, PORTULACA oleracea, ENDOPLASMIC reticulum, FLAVONOID glycosides, NITRIC-oxide synthases
Abstract

Portulaca oleracea L. (purslane) is a food and a traditional drug worldwide. It exhibits anti-inflammatory, anti-oxidative, anti-tumor, and anti-diabetic bioactivities; but its activity on diabetic-associated endothelial dysfunction is unknown. This study aimed to investigate the effect of purslane on endothelial function and the underlying mechanisms. Male C57BL/6 mice had 14-week ad libitum access to a high-fat rodent diet containing 60% kcal% fat to induce obesity and diabetes whereas purslane extract (200 mg/kg/day) was administered during the last 4 weeks via intragastric gavage. Primary rat aortic endothelial cells and isolated mouse aortas were cultured with a risk factor, high glucose or tunicamycin, together with purslane extract. By ESI-QTOF-MS/MS, flavonoids and their glycoside products were identified in the purslane extract. Exposure to high glucose or tunicamycin impaired acetylcholine-induced endothelium-dependent relaxations in aortas and induced endoplasmic reticulum (ER) stress and oxidative stress with the downregulation of 5′ AMP-activated protein kinase (AMPK)/ endothelial nitric oxide synthase (eNOS) signaling. Co-incubation with purslane significantly ameliorated these impairments. The effects of purslane were abolished by Compound C (AMPK inhibitor). Four-week purslane treatment ameliorated aortic relaxations, ER stress, and oxidative stress in diabetic obese mice. This study supported that purslane protected endothelial function, and inhibited ER stress and oxidative stress in vasculature through AMPK/eNOS activation, revealing its therapeutic potential against vascular complications in diabetes. [ABSTRACT FROM AUTHOR]

Published
2023
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25. Analysis of Flavonoid Metabolites in Citrus reticulata 'Chachi' at Different Collection Stages Using UPLC-ESI-MS/MS.

Author

Chen, Yuting, Xu, Yujuan, Wen, Jing, Yu, Yuanshan, Wu, Jijun, Cheng, Lina, Cheang, Wai-San, Liu, Wenwen, and Fu, Manqin

Subjects
MANDARIN orange, FLAVONOIDS, ISOFLAVONES, METABOLITES, FLAVONOID glycosides, FLAVONES, CHALCONES
Abstract

Flavonoids are essential substances with antioxidant properties and high medicinal value. Citrus reticulata 'Chachi' peel (CRCP) is rich in flavonoids and has numerous health benefits. The different maturity periods of CRCP can affect the flavonoid contents and pharmacological effects. In this study, we successfully performed UPLC-ESI-MS/MS-based metabolic analysis to compare the metabolites of CRCP at different harvesting periods (Jul, Aug, Sep, Oct, Nov, and Dec) using a systematic approach. The results revealed the identification of a total of 168 flavonoid metabolites, including 61 flavones, 54 flavonols, 14 flavone C-glycosides, 14 dihydroflavones, 9 flavanones, 8 isoflavones, 3 flavanols, 3 dihydroflavonols, and 2 chalcones. Clustering analysis and PCA were used to separate the CRCP samples collected at different stages. Furthermore, from July to December, the relative contents of isoflavones, dihydroflavones, and dihydroflavonols gradually increased and flavanols gradually decreased over time. The relative content of flavonoid C-glycosides showed an increasing and then decreasing trend, reaching the highest value in August. This study contributes to a better understanding of flavonoid metabolites in CRCP at different harvesting stages and informs their potential future utilization. [ABSTRACT FROM AUTHOR]

Published
2023
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26. A2AR-mediated lymphangiogenesis via VEGFR2 signaling prevents salt-sensitive hypertension.

Author

Zhuang, Tao, Lei, Yu, Chang, Jin-Jia, Zhou, Yan-Ping, Li, Yan, Li, Yan-Xiu, Yang, Yong-Feng, Chen, Mei-Hua, Meng, Ting, Fu, Shi-Man, Huang, Li-Hao, Cheang, Wai-San, Cooke, John P, Dong, Zhi-Hui, Bai, Ying-Nan, and Ruan, Cheng-Chao

Subjects
BLOOD pressure, HIGH-salt diet, HYPERTENSION, KNOCKOUT mice, ENDOTHELIAL cells
Abstract

Aims Excess dietary sodium intake and retention lead to hypertension. Impaired dermal lymphangiogenesis and lymphatic dysfunction–mediated sodium and fluid imbalance are pathological mechanisms. The adenosine A2A receptor (A2AR) is expressed in lymphatic endothelial cells (LECs), while the roles and mechanisms of LEC–A2AR in skin lymphangiogenesis during salt-induced hypertension are not clear. Methods and results The expression of LEC–A2AR correlated with lymphatic vessel density in both high-salt diet (HSD)–induced hypertensive mice and hypertensive patients. Lymphatic endothelial cell–specific A2AR knockout mice fed HSD exhibited 17 ± 2% increase in blood pressure and 17 ± 3% increase in Na+ content associated with decreased lymphatic density (−19 ± 2%) compared with HSD- WT mice. A2AR activation by agonist CGS21680 increased lymphatic capillary density and decreased blood pressure in HSD- WT mice. Furthermore, this A2AR agonist activated MSK1 directly to promote VEGFR2 activation and endocytosis independently of VEGF as assessed by phosphoprotein profiling and immunoprecipitation assays in LECs. VEGFR2 kinase activity inhibitor fruquintinib or VEGFR2 knockout in LECs but not VEGF-neutralizing antibody bevacizumab suppressed A2AR activation–mediated decrease in blood pressure. Immunostaining revealed phosphorylated VEGFR2 and MSK1 expression in the LECs were positively correlated with skin lymphatic vessel density and A2AR level in hypertensive patients. Conclusion The study highlights a novel A2AR-mediated VEGF-independent activation of VEGFR2 signaling in dermal lymphangiogenesis and sodium balance, which might be a potential therapeutic target in salt-sensitive hypertension. [ABSTRACT FROM AUTHOR]

Published
2023
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29. Marine Cyanobacterial Peptides in Neuroblastoma: Search for Better Therapeutic Options.

Author

Ahmed, Salman, Alam, Waqas, Aschner, Michael, Filosa, Rosanna, Cheang, Wai San, Jeandet, Philippe, Saso, Luciano, and Khan, Haroon

Subjects
THERAPEUTIC use of antineoplastic agents, NEUROBLASTOMA, SODIUM channel blockers, BLOOD-brain barrier, AUTOPHAGY, CELL membranes, APOPTOSIS, METASTASIS, CELL cycle, CHEMORADIOTHERAPY, CELL proliferation, MOLECULAR structure, ALGAE, BACTERIA, PEPTIDES, CASPASES, PHARMACODYNAMICS
Abstract

Simple Summary: This review describes the anticancer activities of several marine peptides isolated from cyanobacteria and their specific effects against neuroblastoma. After a short presentation of the major cyanobacterial peptides of marine origin, mainly belonging to the cyclic depsipeptide family, this work has focused on the different mechanisms of action of these peptides (effects on apoptosis, cell cycle arrest, autophagy, sodium channel blocking as well as antimetastatic activities). A thorough description of the biological effects of the marine cyanobacterial marine peptides is developed including data on their half-maximal effective concentration (EC50), growth inhibition 50% (GI50) and lethal concentration 50 (LC50) on various neuroblastoma cell lines. This review ends with a description of the clinical trials which are underway to evaluate the anticancer effects of peptides arising from marine cyanobacteria and microalgae. Conclusions envisage the potential role of such peptides for the development of anti-neuroblastoma medicines and a platform for uncovering new therapeutic cellular targets. Neuroblastoma is the most prevalent extracranial solid tumor in pediatric patients, originating from sympathetic nervous system cells. Metastasis can be observed in approximately 70% of individuals after diagnosis, and the prognosis is poor. The current care methods used, which include surgical removal as well as radio and chemotherapy, are largely unsuccessful, with high mortality and relapse rates. Therefore, attempts have been made to incorporate natural compounds as new alternative treatments. Marine cyanobacteria are a key source of physiologically active metabolites, which have recently received attention owing to their anticancer potential. This review addresses cyanobacterial peptides' anticancer efficacy against neuroblastoma. Numerous prospective studies have been carried out with marine peptides for pharmaceutical development including in research for anticancer potential. Marine peptides possess several advantages over proteins or antibodies, including small size, simple manufacturing, cell membrane crossing capabilities, minimal drug–drug interactions, minimal changes in blood–brain barrier (BBB) integrity, selective targeting, chemical and biological diversities, and effects on liver and kidney functions. We discussed the significance of cyanobacterial peptides in generating cytotoxic effects and their potential to prevent cancer cell proliferation via apoptosis, the activation of caspases, cell cycle arrest, sodium channel blocking, autophagy, and anti-metastasis behavior. [ABSTRACT FROM AUTHOR]

Published
2023
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30. Resveratrol regulates inflammation and improves oxidative stress via Nrf2 signaling pathway: Therapeutic and biotechnological prospects.

Author

Shahcheraghi, Seyed Hossein, Salemi, Fateme, Small, Shlomo, Syed, Suliman, Salari, Farzam, Alam, Waqas, Cheang, Wai San, Saso, Luciano, and Khan, Haroon

Abstract

Usually, in aerobic metabolism, natural materials including nucleic acids, proteins, and lipids can experience auxiliary injury by oxidative responses. This damage produced by reactive oxygen/nitrogen species has been identified as "oxidative stress." As a natural polyphenol got from red wine and peanuts, resveratrol is one of the most eminent anti‐aging mixtures. Based on many studies', resveratrol hinders destructive effects of inflammatory causes and reactive oxygen radicals in several tissues. The nuclear erythroid 2‐related factor 2 is a factor related to transcription with anti‐inflammatory, antioxidant possessions which is complicated by enzyme biotransformation and biosynthesis of lipids and carbohydrates. This review provides current understanding and information about the character of resveratrol against oxidative stress and regulation of inflammation via Nrf2 signaling pathway. [ABSTRACT FROM AUTHOR]

Published
2023
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32. Citri Reticulatae Pericarpium (Chenpi) Protects against Endothelial Dysfunction and Vascular Inflammation in Diabetic Rats.

Author

Wang, Yuehan, Zhang, Xutao, Zhou, Chunxiu, Khan, Haroon, Fu, Manqin, and Cheang, Wai San

Abstract

Dried tangerine peel (Citri reticulatae Pericarpium, CRP; Chenpi in Chinese) possesses medicine and food homology with hypolipidemic, anti-inflammatory and antioxidant activities. This study aimed to explore the protective effect of CRP extract on endothelial function and inflammation in type 2 diabetic rats and the related mechanisms. Type 2 diabetes mellitus was induced by high-fat diet (HFD)/streptozotocin (STZ) in male Sprague Dawley rats, and CRP extract was orally administered at 400 mg/kg/day for 4 weeks. Rat and mouse aortas were treated with high glucose and CRP extract ex vivo. The data showed that the ethanolic extract of CRP normalized blood pressure and the plasma lipid profile as well as the plasma levels of liver enzymes in diabetic rats. Impaired endothelium-dependent relaxations in aortas, carotid arteries and renal arteries were improved. CRP extract suppressed vascular inflammatory markers and induced AMPK activation in aortas of diabetic rats. Exposure to high glucose impaired vasodilation in aortas of rats and mice, and this impairment was prevented by co-incubation with CRP extract. In conclusion, our findings suggest that CRP extract protects endothelial function by inhibiting the vascular inflammatory state on activation of AMPK in diabetic rats. [ABSTRACT FROM AUTHOR]

Published
2022
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37. Jatrorrhizine Improves Endothelial Function in Diabetes and Obesity through Suppression of Endoplasmic Reticulum Stress.

Author

Zhou, Yan, Wang, Yuehan, Vong, Chi Teng, Zhu, Yanyan, Xu, Baojun, Ruan, Cheng-Chao, Wang, Yitao, and Cheang, Wai San

Subjects
ENDOPLASMIC reticulum, ASPARTATE aminotransferase, BERBERINE, BLOOD pressure, CAROTID artery, OXIDATIVE stress, BLOOD lipids
Abstract

Jatrorrhizine (JAT) is one of the major bioactive protoberberine alkaloids found in rhizoma coptidis, which has hypoglycemic and hypolipidemic potential. This study aimed to evaluate the vasoprotective effects of JAT in diabetes and obesity and the underlying mechanism involved. Mouse aortas, carotid arteries and human umbilical cord vein endothelial cells (HUVECs) were treated with risk factors (high glucose or tunicamycin) with and without JAT ex vivo and in vitro. Furthermore, aortas were obtained from mice with chronic treatment: (1) control; (2) diet-induced obese (DIO) mice fed a high-fat diet (45% kcal% fat) for 15 weeks; and (3) DIO mice orally administered JAT at 50 mg/kg/day for the last 5 weeks. High glucose or endoplasmic reticulum (ER) stress inducer tunicamycin impaired acetylcholine-induced endothelium-dependent relaxations (EDRs) in mouse aortas, induced oxidative stress in carotid arteries and HUVECs, downregulated phosphorylations of Akt at Ser473 and eNOS at Ser1177 and enhanced ER stress in mouse aortas and HUVECs, and these impairments were reversed by cotreatment with JAT. JAT increased NO release in high-glucose-treated mouse aortas and HUVECs. In addition, chronic JAT treatment restored endothelial function with EDRs comparable to the control, increased Akt/eNOS phosphorylation, and attenuated ER stress and oxidative stress in aortas from DIO mice. Blood pressure, glucose sensitivity, fatty liver and its morphological change, as well as plasma levels of aspartate aminotransferase (AST) and alanine aminotransferase (ALT) and plasma lipid profile, were also normalized by JAT treatment. Collectively, our data may be the first to reveal the vasoprotective effect of JAT that ameliorates endothelial dysfunction in diabetes and obesity through enhancement of the Akt/eNOS pathway and NO bioavailability, as well as suppression of ER stress and oxidative stress. [ABSTRACT FROM AUTHOR]

Published
2022
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38. 3,4′,5-Trimethoxy- trans -stilbene Alleviates Endothelial Dysfunction in Diabetic and Obese Mice via Activation of the AMPK/SIRT1/eNOS Pathway.

Author

Zhou, Chunxiu, Tan, Yi, Xu, Baojun, Wang, Yitao, and Cheang, Wai-San

Subjects
GLUCOSE-regulated proteins, ENDOTHELIUM diseases, STILBENE, NITRIC-oxide synthases, OBESITY, THORACIC aorta, RESVERATROL, OXIDATIVE stress
Abstract

3,4′,5-trimethoxy-trans-stilbene (TMS) is a methoxylated derivative of resveratrol. Previous studies showed the vaso-protective effects of resveratrol; nevertheless, research on this derivative is scarce. The current study aimed to explore whether TMS can alleviate endothelial dysfunction in diabetic and obese mice, along with the underlying mechanisms. Thoracic aortas isolated from male C57BL/6J mice and primary cultures of rat aortic endothelial cells were treated with high glucose with or without TMS. High glucose exposure impaired acetylcholine-induced endothelium-dependent relaxations, down-regulated NO bioavailability and the AMP-activated protein kinase (AMPK)/Sirtuin 1 (SIRT1)/endothelial nitric oxide synthase (eNOS) pathway, increased endoplasmic reticulum (ER) stress and oxidative stress, which were reversed by TMS treatment. Moreover, the protective effects of TMS were abolished by Compound C (AMPK inhibitor), and EX527 (SIRT1 inhibitor). The mice were fed with high-fat diet (60% kcal% fat) for 14 weeks to establish a diabetic and obese model, and were orally administered TMS (10 mg/kg/day) in the last 4 weeks. Chronic TMS treatment alleviated endothelial dysfunction via enhancing the AMPK/SIRT1/eNOS pathway and attenuated oxidative stress and ER stress in aortas of diet-induced obese mice. In summary, our study reveals the potent vaso-protective effect of TMS and its therapeutic potential against endothelial dysfunction in metabolic disorders. [ABSTRACT FROM AUTHOR]

Published
2022
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39. Activation of AMPK/miR-181b Axis Alleviates Endothelial Dysfunction and Vascular Inflammation in Diabetic Mice.

Author

Cheng, Chak-Kwong, Shang, Wenbin, Liu, Jian, Cheang, Wai-San, Wang, Yu, Xiang, Li, Lau, Chi-Wai, Luo, Jiang-Yun, Ng, Chi-Fai, Huang, Yu, and Wang, Li

Subjects
DIABETIC retinopathy, ENDOTHELIUM diseases, DIABETIC nephropathies, ENDOTHELIAL cells, ADVANCED glycation end-products, HIGH-fat diet, SHEARING force, BLOOD flow
Abstract

Hyperglycemia in diabetes mellitus impairs endothelial function and disrupts microRNA (miRNA) profiles in vasculature, increasing the risk of diabetes-associated complications, including coronary artery disease, diabetic retinopathy, and diabetic nephropathy. miR-181b was previously reported to be an anti-inflammatory mediator in vasculature against atherosclerosis. The current study aimed to investigate whether miR-181b ameliorates diabetes-associated endothelial dysfunction, and to identify potential molecular mechanisms and upstream inducer of miR-181b. We found that miR-181b level was decreased in renal arteries of diabetic patients and in advanced glycation end products (AGEs)-treated renal arteries of non-diabetic patients. Transfection of miR-181b mimics improved endothelium-dependent vasodilation in aortas of high fat diet (HFD)/streptozotocin (STZ)-induced diabetic mice, accompanied by suppression of superoxide overproduction and vascular inflammation markers. AMPK activator-induced AMPK activation upregulated miR-181b level in human umbilical vein endothelial cells (HUVECs). Chronic exercise, potentially through increased blood flow, activated AMPK/miR-181b axis in aortas of diabetic mice. Exposure to laminar shear stress upregulated miR-181b expression in HUVECs. Overall, our findings highlight a critical role of AMPK/miR-181b axis and extend the benefits of chronic exercise in counteracting diabetes-associated endothelial dysfunction. [ABSTRACT FROM AUTHOR]

Published
2022
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45. Resveratrol ameliorates endothelial dysfunction in diabetic and obese mice through sirtuin 1 and peroxisome proliferator-activated receptor δ.

Author

Cheang, Wai San, Wong, Wing Tak, Wang, Li, Cheng, Chak Kwong, Lau, Chi Wai, Ma, Ronald Chin Wan, Xu, Aimin, Wang, Nanping, Huang, Yu, and Tian, Xiao Yu

Subjects
*RESVERATROL, *ENDOTHELIUM diseases, *SIRTUINS, *PEROXISOME proliferator-activated receptors, *ANGIOTENSIN II, *LABORATORY mice
Abstract

Graphical abstract Abstract Sirtuin 1 (SIRT1) activation reduces oxidative stress, inhibits inflammatory responses, and retards cellular senescence in endothelial cells in mouse models of diabetes. However, whether SIRT1 also plays a protective role in vascular dysfunction of diabetic and obese mice is not fully characterized. Previous work showed that peroxisome proliferator-activated receptor δ (PPARδ) is beneficial in diabetic vascular dysfunction. Whether PPARδ is involved in the beneficial effect of SIRT1 on vascular endothelial function is unknown. We used mice with overexpression of endothelial cell-specific human SIRT1 (SIRT1 -Tg) and dominant-negative SIRT1 (SIRT1 -mut) fed with normal chow and high fat diet to show that expression of functional SIRT1 in endothelium protects against vascular dysfunction in diet-induced obese mice. Endothelial-specific overexpression of SIRT1 improved endothelium-dependent dilation in aortas treated with risk factors including high glucose, angiotensin II, and lysophosphatidylcholine. Oral treatment with resveratrol treatment improves endothelial function in high fat diet fed wild type Ppard -wt but not in PPAR δ knockout Ppard -mut mice. Experiments on isolated arteries also showed that the effect of resveratrol or SIRT1 activator CAY10602 was inhibited by PPARδ antagonist GSK0660. Resveratrol increased PPARδ transcriptional activity in endothelial cells. Results demonstrated here indicated that PPARδ contributes to the beneficial effect of SIRT1 to ameliorate endothelial dysfunction in diabetic and obese mice. These results help to understand SIRT1-based strategy for treating vascular and metabolic dysfunction in the context of obesity and insulin resistance. [ABSTRACT FROM AUTHOR]

Published
2019
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48. Modifications of dietary flavonoids towards improved bioactivity: An update on structure–activity relationship.

Author

Chen, Lei, Teng, Hui, Xie, Zhenglu, Cao, Hui, Cheang, Wai San, Skalicka-Woniak, Krystyna, Georgiev, Milen I., and Xiao, Jianbo

Subjects
FLAVONOIDS, INFLAMMATION, CHRONIC disease treatment, PHENOLS, HYDROXYLATION, GLYCOSYLATION, THERAPEUTICS
Abstract

Over the past two decades, extensive studies have revealed that inflammation represents a major risk factor for various human diseases. Chronic inflammatory responses predispose to pathological progression of chronic illnesses featured with penetration of inflammatory cells, dysregulation of cellular signaling, excessive generation of cytokines, and loss of barrier function. Hence, the suppression of inflammation has the potential to delay, prevent, and to treat chronic diseases. Flavonoids, which are widely distributed in humans daily diet, such as vegetables, fruits, tea and cocoa, among others, are considered as bioactive compounds with anti-inflammatory potential. Modification of flavonoids including hydroxylation, o-methylation, and glycosylation, can alter their metabolic features and affect mechanisms of inflammation. Structure-activity relationships among naturally occurred flavonoids hence provide us with a preliminary insight into their anti-inflammatory potential, not only attributing to the antioxidant capacity, but also to modulate inflammatory mediators. The present review summarizes current knowledge and underlies mechanisms of anti-inflammatory activities of dietary flavonoids and their influences involved in the development of various inflammatory-related chronic diseases. In addition, the established structure-activity relationships of phenolic compounds in this review may give an insight for the screening of new anti-inflammatory agents from dietary materials. [ABSTRACT FROM AUTHOR]

Published
2018
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50. PPARδ Is Required for Exercise to Attenuate Endoplasmic Reticulum Stress and Endothelial Dysfunction in Diabetic Mice.

Author

Wai San Cheang, Wing Tak Wong, Lei Zhao, Jian Xu, Li Wang, Chi Wai Lau, Zhen Yu Chen, Ching Wan Ma, Ronald, Aimin Xu, Nanping Wang, Xiao Yu Tian, Yu Huang, Cheang, Wai San, Wong, Wing Tak, Zhao, Lei, Xu, Jian, Wang, Li, Lau, Chi Wai, Chen, Zhen Yu, and Ma, Ronald Ching Wan

Subjects
PHYSICAL activity, ENDOPLASMIC reticulum, ENDOTHELIUM diseases, PEOPLE with diabetes, LABORATORY mice, PHYSIOLOGICAL effects of nitric oxide, OXIDATIVE stress, THERAPEUTICS, PHYSIOLOGY, HEALTH, ANIMAL experimentation, AORTA, BLOOD pressure, VASODILATION, CELL receptors, DIABETES, DIABETIC angiopathies, DIAGNOSIS, DIET, ENDOTHELIUM, RESEARCH methodology, MESENTERIC artery, MICE, MUSCLES, NITRIC oxide, OBESITY, PHYSICAL fitness, TISSUE culture, CARBOCYCLIC acids
Abstract

Physical activity has profound benefits on health, especially on cardiometabolic wellness. Experiments in rodents with trained exercise have shown that exercise improves vascular function and reduces vascular inflammation by modulating the balance between nitric oxide (NO) and oxidative stress. However, the upstream regulator of exercise-induced vascular benefits is unclear. We aimed to investigate the involvement of peroxisome proliferator-activated receptor δ (PPARδ) in exercise-induced vascular functional improvement. We show that PPARδ is a crucial mediator for exercise to exert a beneficial effect on the vascular endothelium in diabetic mice. In db/db mice and high-fat diet-induced obese mice, 4 weeks of treadmill exercise restored endothelium-dependent vasodilation of aortas and flow-mediated vasodilation in mesenteric resistance arteries, whereas genetic ablation of Ppard abolished such improvements. Exercise induces AMPK activation and subsequent PPARδ activation, which help to reduce endoplasmic reticulum (ER) and oxidative stress, thus increasing NO bioavailability in endothelial cells and vascular tissues. Chemical chaperones 4-phenylbutyric acid and tauroursodeoxycholic acid decrease ER stress and protect against endothelial dysfunction in diabetic mice. The results demonstrate that PPARδ-mediated inhibition of ER stress contributes to the vascular benefits of exercise and provides potentially effective targets for treating diabetic vasculopathy. [ABSTRACT FROM AUTHOR]

Published
2017
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