Cervical Ganglion Block Attenuates the Progression of Pulmonary Hypertension via Nitric Oxide and Arginase Pathways

Na, Sungwon; Kim, Ok Soo; Ryoo, Sungwoo; Kweon, Tae Dong; Choi, Yong Seon; Shim, Hyo Sup; Oh, Young Jun

doi:10.1161/hypertensionaha.113.01979

Cited by 38 publications

(40 citation statements)

References 44 publications

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“…Arginase II is expressed in the mitochondria of extrahepatic cells and is encoded by a different gene (3). The two arginases are constitutively expressed in cells and tissues, and indirectly regulate nitric oxide (NO) generation from nitric oxide synthase (NOS) by competition for a common enzyme substrate (4,5). Therefore, the induction of NOS arginase has been investigated in the inflammatory cells of asthmatic lungs as pathophysiological evidence that the consumption of L-arginine by arginase may lead to the depletion of NO production and endothelial dysfunction; thus, the enlargement of bronchial smooth muscle associated with airway hyperresponsiveness (6–8).…”

Section: Introductionmentioning

confidence: 99%

Assessment of serum arginase I as a type 2 diabetes mellitus diagnosis biomarker in patients

Wang

Fang

Jin

et al. 2014

Experimental and Therapeutic Medicine

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Previous studies have reported that levels of serum arginase I are increased in certain diseases. However, the exact association between arginase I and diabetes mellitus (DM) has yet to be determined. The aim of the present study was to investigate the correlation between arginase I activity and DM to determine whether arginase I activity may be used as a diagnostic biomarker for DM. DM was induced by a streptozotocin injection, while the arginase inhibitor, citrulline, was administered daily. Serum levels of glucose, reactive oxygen species (ROS) and arginase I activity were analyzed, and quantitative polymerase chain reaction and western blot analysis were performed to detect the mRNA and protein expression levels of arginase I, respectively. In addition, western blot analysis was used to determine the protein expression of the Tie 2 receptor. Pearson’s analysis was used to determine the correlation between arginase I activity and Tie 2 expression, while concordance analysis was performed using the Cohen’s test to obtain the Kappa statistic. The results demonstrated that serum arginase I activity levels in the rats with DM were significantly elevated compared with the control group, and positively correlated with the blood glucose levels. In addition, the blood glucose and ROS levels were increased significantly in the rats with DM. Arginase I mRNA and protein expression levels were significantly elevated in the diabetic rats when compared with the control group, and Tie 2 expression levels increased and were shown to correlate with arginase I activity in the diabetic rats. In addition, arginase I activity was shown to correlate with glucose intolerance and post-load glucose values. Good concordance was observed between arginase I activity and the clinical diagnosis for DM (κ=0.876; P<0.001). Therefore, the results indicated that arginase I may function as a diagnostic biomarker for DM rats model.

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Section: Introductionmentioning

confidence: 99%

Assessment of serum arginase I as a type 2 diabetes mellitus diagnosis biomarker in patients

Wang

Fang

Jin

et al. 2014

Experimental and Therapeutic Medicine

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“…Tissue acidosis occurring during ischemia increases NO production. 50 Otherwise, in inflammatory conditions caused by AMI, 51 it produces a high concentration of NO, forming oxidative stress injury. The findings of the previous study were that direct SGB increased NO bioavailability and decreased the NO expression in cardiac tissue.…”

Section: Discussionmentioning

confidence: 99%

“…52 In our research, we found that SGB increased eNOS and nNOS expression, which was similar to previous literature reports. 51,52 The reasons for the inconsistency with regulating expression of NO and eNOS and nNOS were as follows: First, the increased NO was reduced by consumption of oxidative reaction. Nitric oxide-producing enzymes, such as the eNOS and nNOS expression of the protein and mRNA, were increased by SGB.…”

Section: Discussionmentioning

confidence: 99%

Antioxidation Role of Different Lateral Stellate Ganglion Block in Isoproterenol-Induced Acute Myocardial Ischemia in Rats

Wei

Chi

Deng

et al. 2017

Regional Anesthesia and Pain Medicine

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“…Potentially important signaling pathways highlighted include microRNAs, 1,2 myocardin-related transcription factor A, 3 kinins, 4 estradiol, 5 leukotrienes, 6 tumor necrosis factor-α, 7 nuclear factor-κB, 8 oxidative stress, 9,10 TWIK-2 potassium channels, 11 and transient receptor potential channels. 12 Two articles 13,14 focus on possible adverse impacts of the sympathetic nervous system activation known to accompany PAH. Two studies were designed to improve the pharmacological management of PAH using novel drug delivery strategies.…”

Section: Hypertension Editors' Picks Pulmonary Hypertensionmentioning

confidence: 99%

Hypertension Editors’ Picks

Wilkins¹

2016

Hypertension

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Chronic thromboembolic pulmonary hypertension (CTEPH) is an entity of PH that not only limits patients quality of life but also causes significant morbidity and mortality. The treatment of choice is pulmonary endarterectomy. However numerous patients do not qualify for pulmonary endarterectomy or present with residual vasculopathy post pulmonary endarterectomy and require specific vasodilator treatment. Currently, there is no available specific small animal model of CTEPH that could serve as tool to identify targetable molecular pathways and to test new treatment options. Thus, we generated and standardized a rat model that not only resembles functional and histological features of CTEPH but also emulates thrombi fibrosis. The pulmonary embolism protocol consisted of 3 sequential tail vein injections of fibrinogen/collagen-covered polystyrene microspheres combined with thrombin and administered to 10-week-old male Wistar rats. After the third embolism, rats developed characteristic features of CTEPH including elevated right ventricular systolic pressure, right ventricular cardiomyocyte hypertrophy, pulmonary artery remodeling, increased serum brain natriuretic peptide levels, thrombi fibrosis, and formation of pulmonary cellular-fibrotic lesions. The current animal model seems suitable for detailed study of CTEPH pathophysiology and permits preclinical testing of new pharmacological therapies against CTEPH

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Cervical Ganglion Block Attenuates the Progression of Pulmonary Hypertension via Nitric Oxide and Arginase Pathways

Cited by 38 publications

References 44 publications

Assessment of serum arginase I as a type 2 diabetes mellitus diagnosis biomarker in patients

Assessment of serum arginase I as a type 2 diabetes mellitus diagnosis biomarker in patients

Antioxidation Role of Different Lateral Stellate Ganglion Block in Isoproterenol-Induced Acute Myocardial Ischemia in Rats

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