GRK2 Mediates Arginine Vasopressin-Induced Interleukin-6 Production via Nuclear Factor-κB Signaling Neonatal Rat Cardiac Fibroblast

Xu, Feifei; Sun, Shuzhen; Wang, Xiaojun; Ni, Eran; Zhao, Lingling; Zhu, Wuqiang

doi:10.1124/mol.116.107698

Cited by 20 publications

(18 citation statements)

References 56 publications

(71 reference statements)

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“…However, the Food and Drug Administration-approved SSRI paroxetine was identified using a high throughput aptamer displacement assay to bind directly to GRK2 to inhibit its ability to phosphorylate rhodopsin, tubulin and thyrotropin-releasing hormone receptor, while increasing βAR-stimulated cardiomyocyte (in vitro) and cardiac (in vivo) contractility 7 . Subsequently, paroxetine has been shown to reverse cardiac dysfunction induced by either ischemia 8 or high fat diet 18 , inhibit T cell activation 19 and decrease fibroblast cytokine production 20 . Despite the increasing use of paroxetine in studies in which its effects are attributed to inhibition of receptor desensitization processes classically engaged by GRK2, such as βarr recruitment and GPCR internalization, no studies have confirmed whether it actually attenuates these responses.…”

Section: Discussionmentioning

confidence: 99%

Impact of paroxetine on proximal β-adrenergic receptor signaling

Guo

Carter

Grisanti

et al. 2017

Cellular Signalling

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β-adrenergic receptors (βAR) regulate numerous functions throughout the body, however G protein-coupled receptor kinase (GRK)-dependent desensitization of βAR has long been recognized as a maladaptive process in the progression of various disease states. Thus, the development of small molecule inhibitors of GRKs for the study of these processes and as potential therapeutics has been at the forefront of recent research efforts. Via structural and biochemical analyses, the selective serotonin reuptake inhibitor (SSRI) paroxetine was identified as a GRK2 inhibitor that enhances βAR-dependent cardiomyocyte and cardiac contractility and reverses cardiac dysfunction and myocardial βAR expression in mouse models of heart failure. Despite these functional outcomes, consistent with diminished βAR desensitization, the proximal βAR signaling mechanisms sensitive to paroxetine have not been reported. In this study, we aimed to determine whether paroxetine prevents classic βAR desensitization-related signaling mechanisms at a molecular level. Therefore, via immunoblotting, radioligand binding, fluorescence resonance energy transfer (FRET) and microscopy assays, we have performed an assessment of the effect of paroxetine on proximal βAR signaling responses. Indeed, paroxetine treatment inhibited ligand-induced β2AR phosphorylation in a concentration-dependent manner. Additionally, for both β1AR and β2AR, paroxetine decreased ligand-induced βarrestin2 recruitment and subsequent receptor internalization. Thus, paroxetine inhibits βAR desensitization mechanisms consistent with GRK2 inhibition and provides a useful pharmacological tool for studying these proximal GPCR signaling responses.

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Section: Discussionmentioning

confidence: 99%

Impact of paroxetine on proximal β-adrenergic receptor signaling

Guo

Carter

Grisanti

et al. 2017

Cellular Signalling

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“…Our previous study demonstrated that AVP induces IL-6 production via NF-κB signaling in neonatal rat cardiac fibroblasts [ 33 ] and cultured ARCFs (Fig. 4 ).…”

Section: Resultsmentioning

confidence: 95%

β-Arrestin 2 mediates arginine vasopressin-induced IL-6 induction via the ERK1/2-NF-κB signal pathway in murine hearts

et al. 2019

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Evidence to date suggests that β-arrestins act beyond their role as adapter proteins. Arginine vasopressin (AVP) may be a factor in inflammation and fibrosis in the pathogenesis of heart failure. In the present study we investigated the effect of AVP on inflammatory cytokine IL-6 production in murine hearts and the impact of β-arrestin 2-dependent signaling on AVP-induced IL-6 production. We found that administration of AVP (0.5 U/kg, iv) markedly increased the levels of IL-6 mRNA in rat hearts with the maximum level occurred at 6 h. In β-arrestin 2 KO mouse hearts, deletion of β-arrestin 2 decreased AVP-induced IL-6 mRNA expression. We then performed in vitro experiments in adult rat cardiac fibroblasts (ARCFs). We found that AVP (10 −9 –10 −6 M) dose-dependently increased the expression of IL-6 mRNA and protein, activation of NF-κB signaling and ERK 1/2 phosphorylation, whereas knockdown of β-arrestin 2 blocked AVP-induced IL-6 increase, NF-κB activation and ERK 1/2 phosphorylation. Pharmacological blockade of ERK 1/2 using PD98059 diminished AVP-induced NF-κB activation and IL-6 production. The selective V 1A receptor antagonist SR49059 effectively blocked AVP-induced NF-κB phosphorylation and activation as well as IL-6 expression in ARCFs. In AVP-treated mice, pre-injection of SR49059 (2 mg/kg, iv) abolished AVP-induced NF-κB activation and IL-6 production in hearts. The above results suggest that AVP induces IL-6 induction in murine hearts via the V 1A receptor-mediated β-arrestin2/ERK 1/2 /NF-κB pathway, thus reveal a novel mechanism of myocardial inflammation in heart failure involving the V 1A /β-arrestin 2/ERK 1/2 /NF-κB signaling pathway.

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“…Other evidence of GRK2 related to DCM was provided by inhibiting the GRK2 expression. Inhibition of GRK2 increased oxygen consumption rates and ATP production, reduced the degree of myocardial remodeling, and abolished the AVP‐induced IL‐6 production and NF‐κB activation . Moreover, a very recent paper showed that GRK2 inhibition can be safely achieved with beneficial effects in diabetes, and beyond its effects on the glycemic profile, exerted the anti‐inflammatory and antioxidative effect on the heart, which indicated a potential therapeutic action on DCM …”

Section: Discussionmentioning

confidence: 95%

“…Inhibition of GRK2 increased oxygen consumption rates and ATP production, 33 reduced the degree of myocardial remodeling, 34 and abolished the AVP-induced IL-6 production and NF-κB activation. 35 Moreover, a very recent paper showed that GRK2 inhibition can be safely achieved with beneficial effects in diabetes, and beyond its effects on the glycemic profile, exerted the anti-inflammatory and antioxidative effect on the heart, which indicated a potential therapeutic action on DCM. 36 In addition to β-adrenergic receptor-mediated signaling, other mechanisms including insulin resistance, fatty acid oxidation, and cardiomyocyte oxidative stress might be involved in the relation between GRK2 and DCM.…”

Section: Discussionmentioning

confidence: 99%

G protein‐coupled receptor kinase‐2: A potential biomarker for early diabetic cardiomyopathy

Lai

Yang

et al. 2019

Journal of Diabetes

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Background G protein‐coupled receptor kinase‐2 (GRK2) has been shown as a key regulator of cardiac function, and the myocardial GRK2 levels are mirrored by the levels in peripheral blood mononuclear cells (PBMCs). In this study, we evaluated the myocardial and PBMCs GRK2 levels in early diabetic cardiomyopathy (DCM). Methods C57BL/KS‐db/db male diabetic mice at 12 weeks of age, as the type 2 diabetes (T2DM) animal model of early DCM were evaluated. Forty‐four T2DM patients with left ventricular diastolic dysfunction (LVDD), without evidence of hypertension, coronary artery diseases, congestive heart failure, and diabetic complications and without evidence of ischemia in a maximal treadmill exercise test, were recruited as the DM + LVDD group; 30 age‐matched T2DM patients without LVDD were recruited as the DM control group. Left ventricular diastolic function was evaluated by cardiac tissue Doppler. The pseudonormal pattern of ventricular filling and E′/A′ < 1 were regarded as LVDD. Results Compared to 8‐week‐old diabetic mice and 12‐week‐old control mice, GRK2‐mRNA level and expression in myocardial tissues of 12‐week‐old diabetic mice were significantly increased, as well as the left ventricular wall thickness and systolic function. And the collagen volume fraction (CVF), collagen‐3 expression, P53 expression, and cell apoptotic rate in the myocardium of 12‐week‐old diabetic mice elevated as well. The GRK2‐mRNA level in PBMCs of DM with LVDD was significantly higher than in DM control without LVDD. Conclusions GRK2 expression increased in the myocardial tissue and the PBMCs at the early stage of DCM. These data support further research on the role of GRK2 as the clinical biomarker for early DCM.

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GRK2 Mediates Arginine Vasopressin-Induced Interleukin-6 Production via Nuclear Factor-κB Signaling Neonatal Rat Cardiac Fibroblast

Cited by 20 publications

References 56 publications

Impact of paroxetine on proximal β-adrenergic receptor signaling

Impact of paroxetine on proximal β-adrenergic receptor signaling

β-Arrestin 2 mediates arginine vasopressin-induced IL-6 induction via the ERK1/2-NF-κB signal pathway in murine hearts

G protein‐coupled receptor kinase‐2: A potential biomarker for early diabetic cardiomyopathy

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