Yang Zhang scite author profile

Since December 2019, a novel type of coronavirus disease (COVID-19) in Wuhan led to an outbreak throughout China and the rest of the world. To date, there have been more than 1,260,000 COVID-19 patients, with a mortality rate of approximately 5.44%. Studies have shown that coagulation dysfunction is a major cause of death in patients with severe COVID-19. Therefore, the People’s Liberation Army Professional Committee of Critical Care Medicine and Chinese Society on Thrombosis and Hemostasis grouped experts from the frontline of the Wuhan epidemic to come together and develop an expert consensus on diagnosis and treatment of coagulation dysfunction associated with a severe COVID-19 infection. This consensus includes an overview of COVID-19-related coagulation dysfunction, tests for coagulation, anticoagulation therapy, replacement therapy, supportive therapy and prevention. The consensus produced 18 recommendations which are being used to guide clinical work.

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Dysregulation of the Low-Density Lipoprotein Receptor Pathway Is Involved in Lipid Disorder-Mediated Organ Injury

Zhang¹,

Ling²,

Ruan³

et al. 2016

Int. J. Biol. Sci.

105

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The low-density lipoprotein receptor (LDLR) pathway is a negative feedback system that plays important roles in the regulation of plasma and intracellular cholesterol homeostasis. To maintain a cholesterol homeostasis, LDLR expression is tightly regulated by sterol regulatory element-binding protein-2 (SREBP-2) and SREBP cleavage-activating protein (SCAP) in transcriptional level and by proprotein convertase subtilisin/kexin type 9 (PCSK9) in posttranscriptional level. The dysregulation of LDLR expression results in abnormal lipid accumulation in cells and tissues, such as vascular smooth muscle cells, hepatic cells, renal mesangial cells, renal tubular cells and podocytes. It has been demonstrated that inflammation, renin-angiotensin system (RAS) activation, and hyperglycemia induce the disruption of LDLR pathway, which might contribute to lipid disorder-mediated organ injury (atherosclerosis, non-alcoholic fatty liver disease, kidney fibrosis, etc). The mammalian target of rapamycin (mTOR) pathway is a critical mediator in the disruption of LDLR pathway caused by pathogenic factors. The mTOR complex1 activation upregulates LDLR expression at the transcriptional and posttranscriptional levels, consequently resulting in lipid deposition. This paper mainly reviews the mechanisms for the dysregulation of LDLR pathway and its roles in lipid disorder-mediated organ injury under various pathogenic conditions. Understanding these mechanisms leading to the abnormality of LDLR expression contributes to find potential new drug targets in lipid disorder-mediated diseases.

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Oxidative Stress-Dependent Cyclooxygenase-2-Derived Prostaglandin F_2α Impairs Endothelial Function in Renovascular Hypertensive Rats

Tian

Wong

Leung

et al. 2012

Antioxidants & Redox Signaling

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Aims: The role of endothelium-derived contracting factors (EDCFs) in regulating renovascular function is yet to be elucidated in renovascular hypertension (RH). The current study investigated whether oxidative stressdependent cyclooxygenase (COX)-2-derived prostaglandin F 2a (PGF 2a ) impairs endothelial function in renal arteries of renovascular hypertensive rats (RHR). Results: Renal hypertension was induced in rats by renal artery stenosis of both kidneys using the 2-kidney 2-clip model. Acute treatment with reactive oxygen species (ROS) scavengers, COX-2 inhibitors, and thromboxane-prostanoid receptor antagonists, but not COX-1 inhibitors, improved endothelium-dependent relaxations and eliminated endothelium-dependent contractions in RHR renal arteries. Five weeks of treatment with celecoxib or tempol reduced blood pressure, increased renal blood flow, and restored endothelial function in RHRs. Increased ROS production in RHR arteries was inhibited by ROS scavengers, but unaffected by COX-2 inhibitors; whereas increased PGF 2a release was reduced by both ROS scavengers and COX-2 inhibitors. ROS also induced COX-2-dependent contraction in RHR renal arteries, which was accompanied by the release of COX-2-derived PGF 2a . Further, chronic tempol treatment reduced COX-2 and BMP4 upregulation, p38MAPK phosphorylation, and the nitrotyrosine level in RHR renal arteries. Conclusion: These findings demonstrate the functional importance of oxidative stress, which serves as an initiator of increased COX-2 activity, and that COX-2-derived PGF 2a plays an important role in mediating endothelial dysfunction in RH. Innovation: The current study, thus, suggests that drugs targeting oxidative stress-dependent COX-2-derived PGF 2a may be useful in the prevention and management of RH .

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Upregulation of Angiotensin (1-7)-Mediated Signaling Preserves Endothelial Function Through Reducing Oxidative Stress in Diabetes

Zhang

Liu

Luo

et al. 2015

Antioxidants & Redox Signaling

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Aims: Angiotensin-converting enzyme 2 (ACE2)-angiotensin (1-7) [Ang (1-7)]-Mas constitutes the vasoprotective axis and is demonstrated to antagonize the vascular pathophysiological effects of the classical reninangiotensin system. We sought to study the hypothesis that upregulation of ACE2-Ang (1-7) signaling protects endothelial function through reducing oxidative stress that would result in beneficial outcome in diabetes. Results: Ex vivo treatment with Ang (1-7) enhanced endothelium-dependent relaxation (EDR) in renal arteries from diabetic patients. Both Ang (1-7) infusion via osmotic pump (500 ng/kg/min) for 2 weeks and exogenous ACE2 overexpression mediated by adenoviral ACE2 via tail vein injection (10 9 pfu/mouse) rescued the impaired EDR and flow-mediated dilatation (FMD) in db/db mice. Diminazene aceturate treatment (15 mg/kg/day) activated ACE2, increased the circulating Ang (1-7) level, and augmented EDR and FMD in db/db mouse arteries. In addition, activation of the ACE2-Ang (1-7) axis reduced reactive oxygen species (ROS) overproduction determined by dihydroethidium staining, CM-H 2 DCFDA fluorescence imaging, and chemiluminescence assay in db/db mouse aortas and also in high-glucose-treated endothelial cells. Pharmacological benefits of ACE2-Ang (1-7) upregulation on endothelial function were confirmed in ACE2 knockout (ACE2 KO) mice both ex vivo and in vitro. Innovation: We elucidate that the ACE2-Ang (1-7)-Mas axis serves as an important signal pathway in endothelial cell protection in diabetic mice, especially in diabetic human arteries. Conclusion: Endogenous ACE2-Ang (1-7) activation or ACE2 overexpression preserves endothelial function in diabetic mice through increasing nitric oxide bioavailability and inhibiting oxidative stress, suggesting the therapeutic potential of ACE2-Ang(1-7) axis activation against diabetic vasculopathy. Antioxid. Redox Signal. 23, 880-892.

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Yang Zhang

Chinese expert consensus on diagnosis and treatment of coagulation dysfunction in COVID-19

Dysregulation of the Low-Density Lipoprotein Receptor Pathway Is Involved in Lipid Disorder-Mediated Organ Injury

Oxidative Stress-Dependent Cyclooxygenase-2-Derived Prostaglandin F_2α Impairs Endothelial Function in Renovascular Hypertensive Rats

Upregulation of Angiotensin (1-7)-Mediated Signaling Preserves Endothelial Function Through Reducing Oxidative Stress in Diabetes

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Yang Zhang

Chinese expert consensus on diagnosis and treatment of coagulation dysfunction in COVID-19

Dysregulation of the Low-Density Lipoprotein Receptor Pathway Is Involved in Lipid Disorder-Mediated Organ Injury

Oxidative Stress-Dependent Cyclooxygenase-2-Derived Prostaglandin F2α Impairs Endothelial Function in Renovascular Hypertensive Rats

Upregulation of Angiotensin (1-7)-Mediated Signaling Preserves Endothelial Function Through Reducing Oxidative Stress in Diabetes

Contact Info

Product

Resources

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Oxidative Stress-Dependent Cyclooxygenase-2-Derived Prostaglandin F_2α Impairs Endothelial Function in Renovascular Hypertensive Rats