Hong Jin scite author profile

The recently discovered peptide apelin is known to be involved in the maintenance of insulin sensitivity. However, questions persist regarding its precise role in the chronic setting. Fasting glucose, insulin, and adiponectin levels were determined on mice with generalized deficiency of apelin (APKO). Additionally, insulin (ITT) and glucose tolerance tests (GTT) were performed. To assess the impact of exogenously delivered apelin on insulin sensitivity, osmotic pumps containing pyroglutamated apelin-13 or saline were implanted in APKO mice for 4 wk. Following the infusion, ITT/GTTs were repeated and the animals euthanized. Soleus muscles were harvested and homogenized in lysis buffer, and insulin-induced Akt phosphorylation was determined by Western blotting. Apelin-13 infusion and ITTs/GTTs were also performed in obese diabetic db/db mice. To probe the underlying mechanism for apelin's effects, apelin-13 was also delivered to cultured C 2C12 myotubes. 2-[ 3 H]deoxyglucose uptake and Akt phosphorylation were assessed in the presence of various inhibitors. APKO mice had diminished insulin sensitivity, were hyperinsulinemic, and had decreased adiponectin levels. Soleus lysates had decreased insulininduced Akt phosphorylation. Administration of apelin to APKO and db/db mice resulted in improved insulin sensitivity. In C 2C12 myotubes, apelin increased glucose uptake and Akt phosphorylation. These events were fully abrogated by pertussis toxin, compound C, and siRNA knockdown of AMPK␣1 but only partially diminished by LY-294002 and not at all by L-NAME. We conclude that apelin is necessary for the maintenance of insulin sensitivity in vivo. Apelin's effects on glucose uptake and Akt phosphorylation are in part mediated by a G i and AMPK-dependent pathway. insulin resistance; obesity; diabetes; hormones INSULIN RESISTANCE, defined as a diminution in a cell, tissue, or organism's ability to take up glucose in response to insulin, is the pathophysiological hallmark of type 2 diabetes mellitus. Although insulin resistance is typically asymptomatic, it is independently and strongly associated with an increased risk of coronary disease (22), heart failure (15), and mortality (19). Insulin resistance is thus rapidly gaining in importance as a disease entity in the Western world. Unfortunately, despite the clear need for novel therapies for insulin resistance, our understanding of its pathogenesis and mechanisms remains incomplete.Apelin is a peptide hormone recently identified as an endogenous ligand (37) for the G i protein-coupled, angiotensin receptor-like receptor APJ (26, 31). The human preproapelin gene, located on chromosome Xq25-26.1, encodes a 77-amino acid preproprotein (20) that is cleaved to active forms that are 36, 17, 13, and 12 residues in length (37). Of these, the 36-amino acid isoform is the most widely expressed, although the shorter isoforms are more potent and more abundant in the circulation (38). Apelin has gained significant attention in recent years because it has been found to possess numerous di...

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miR-24 limits aortic vascular inflammation and murine abdominal aneurysm development

Maegdefessel

et al. 2014

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Identification and treatment of abdominal aortic aneurysm (AAA) remain among the most prominent challenges in vascular medicine. MicroRNAs (miRNAs) are crucial regulators of cardiovascular pathology and represent intriguing targets to limit AAA expansion. Here we show, by using two established murine models of AAA disease along with human aortic tissue and plasma analysis, that miR-24 is a key regulator of vascular inflammation and AAA pathology. In vivo and in vitro studies reveal chitinase 3-like 1 (Chi3l1) to be a major target and effector under the control of miR-24, regulating cytokine synthesis in macrophages as well as their survival, promoting aortic smooth muscle cell migration and cytokine production, and stimulating adhesion molecule expression in vascular endothelial cells. We further show that modulation of miR-24 alters AAA progression in animal models, and that miR-24 and CHI3L1 represent novel plasma biomarkers of AAA disease progression in humans.

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H19 Induces Abdominal Aortic Aneurysm Development and Progression

et al. 2018

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Apelin Decreases Lipolysis via Gq, Gi, and AMPK-Dependent Mechanisms

et al. 2011

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The release of free fatty acids (FFAs) from adipocytes (i.e. lipolysis) is increased in obesity and is a contributory factor to the development of insulin resistance. A recently identified adipokine, apelin, is up-regulated in states of obesity. Although apelin is secreted by adipocytes, its functions in them remain largely unknown. To determine whether apelin affects lipolysis, FFA, glycerol, and leptin levels, as well as abdominal adiposity, were measured at baseline and after reintroduction of exogenous apelin in apelin-null mice. To examine apelin's effects in vitro, isoproterenol-induced FFA/glycerol release, and hormone-sensitive lipase (HSL) and acetyl CoA carboxylase phosphorylation were investigated in 3T3-L1 cells and isolated wild-type adipocytes. Serum FFA, glycerol, and leptin concentrations, as well as abdominal adiposity, were significantly increased in apelin-null vs. wild-type mice; these changes were ameliorated in response to exogenous apelin. Apelin also reduced isoproterenol-induced FFA release in adipocytes isolated from wild-type but not APJ-null mice. In 3T3-L1 cells and isolated adipocytes, apelin attenuated isoproterenol-induced FFA/glycerol release. Apelin's inhibition was reversed by pertussis toxin, the G(q) inhibitor glycoprotein antagonist 2A, and the AMP-activated protein kinase inhibitors compound C and dorsomorphin. Apelin increased HSL phosphorylation at Ser-565 and also abrogated isoproterenol-induced HSL phosphorylation at Ser-563. Notably, apelin increased acetyl CoA carboxylase phosphorylation, suggesting AMPK activation. In conclusion, apelin negatively regulates lipolysis. Its actions may be mediated by pathways involving G(q), G(i), and AMP-activated protein kinase.

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Local MicroRNA Modulation Using a Novel Anti-miR-21–Eluting Stent Effectively Prevents Experimental In-Stent Restenosis

Wang¹,

Deuse

Stubbendorff

et al. 2015

ATVB

116

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Objective Despite advances in stent technology for vascular interventions, in-stent restenosis (ISR) due to myointimal hyperplasia (MH) remains a major complication. Approach and Results We investigated the regulatory role of microRNAs in MH/ISR, utilizing a humanized animal model in which balloon-injured human internal mammary arteries (IMAs) with or without stenting were transplanted into RNU rats, followed by microRNA profiling. miR-21 was the only significantly up-regulated candidate. In addition, miR-21 expression was increased in human tissue samples from patients with ISR compared to coronary artery disease specimen. We systemically repressed miR-21 via intravenous FAM-tagged-LNA-anti-miR-21 (anti-21) in our humanized MH-model. As expected, suppression of vascular miR-21 correlated dose-dependently with reduced luminal obliteration. Further, anti-21 did not impede re-endothelialization. However, systemic anti-miR-21 had substantial off-target effects, lowering miR-21 expression in liver, heart, lung, and kidney with concomitant increased serum creatinine levels. We therefore assessed the feasibility of local miR-21 suppression using anti-21-coated stents. Compared to bare metal stents, anti-21-coated stents effectively reduced ISR, while no significant off-target effects could be observed. Conclusion This is the first study to demonstrate the efficacy of an anti-miR-coated stent for the reduction of ISR.

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Hong Jin

Apelin is necessary for the maintenance of insulin sensitivity

miR-24 limits aortic vascular inflammation and murine abdominal aneurysm development

H19 Induces Abdominal Aortic Aneurysm Development and Progression

Apelin Decreases Lipolysis via Gq, Gi, and AMPK-Dependent Mechanisms

Local MicroRNA Modulation Using a Novel Anti-miR-21–Eluting Stent Effectively Prevents Experimental In-Stent Restenosis

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