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Monday, July 8, 2019

Cardiovascular Pharmacology

In-Hospital Initiation of Sacubitril/Valsartan: A New PARADIGM for Acute Decompensated Heart Failure?
imageNo abstract available

Bioactive Lipids as Mediators of the Beneficial Actions of Statins
imageNo abstract available

Translational Implications for Targeting Ischemia-Induced Cardiac Inflammation by Ticagrelor: One Fits All or Dose Matters?
imageNo abstract available

Ticagrelor Reduces Ischemia-Reperfusion Injury Through the NF-κB–Dependent Pathway in Rats
imageAbstract: We recently showed that ticagrelor reduced myocardial ischemia-reperfusion injury (IRI) and downregulated galectin-3 in the ischemic myocardium. This study tested the hypothesis that ticagrelor could reduce IRI through the NF-κB pathway. Rats were randomly divided into sham-operated group, placebo group (gastric administration of saline after IRI), ticagrelor group (gastric administration of ticagrelor after left anterior descending artery ligation), dextran sodium sulfate (DSS) group (DSS was added to drinking water 7 days before IRI), and DSS + ticagrelor group (DSS was added to drinking water 7 days before IRI and gastric administration of ticagrelor after left anterior descending artery ligation). Ticagrelor significantly reduced the infarct size and plasma cTnI at 3 and 7 days after IRI, significantly downregulated protein and mRNA expressions of NF-κB and galectin-3, and mRNA expressions of IL-6 and TNF-α in the ischemic area at 24 hours, 3 and 7 days after IRI. Ticagrelor also significantly decreased plasma high-sensitivity C-reactive protein and NT-proBNP levels at 24 hours and 3 days after IRI. Furthermore, pretreatment with DSS blocked the beneficial effects of ticagrelor. Our study indicates that the cardioprotective effect of ticagrelor might be partly mediated by inhibiting the NF-κB pathway in this rat model of IRI.

Melatonin-Mediated Pak2 Activation Reduces Cardiomyocyte Death Through Suppressing Hypoxia Reoxygenation Injury–Induced Endoplasmic Reticulum Stress
imageAbstract: Cardiac reperfusion injury has been found to be associated with endoplasmic reticulum (ER) stress. Recently, p21-activated kinase 2 (Pak2) has been identified as a primary mediator of ER stress in chronic myocardial injury. Melatonin, a biological clock–related hormone, has been demonstrated to attenuate heart reperfusion burden by modulating ER stress and mitochondrial function. The aim of our study was to explore whether reperfusion-induced ER stress is modulated by melatonin through Pak2. Hypoxia reoxygenation (HR) was used in vitro to mimic reperfusion injury in cardiomyocytes. ER stress, oxidative stress, calcium overload, and cell death were measured through Western blotting, enzyme-linked immunosorbent assay, quantitative polymerase chain reaction, and immunofluorescence with the assistance of siRNA transfection and pathway blocker treatment. The results of our study demonstrated that HR decreased the levels of Pak2 in cardiomyocytes in vitro, and inactivation of Pak2 was associated with ER stress, oxidative stress, calcium overload, caspase-12 activation, and cardiomyocytes apoptosis in vitro. Interestingly, melatonin treatment attenuated HR-mediated ER stress, redox imbalance, calcium overload, and caspase-12–related cardiomyocytes apoptosis, and these protective effects were dependent on Pak2 upregulation. Knockdown of Pak2 abolished the beneficial actions exerted by melatonin on HR-treated cardiomyocytes in vitro. Finally, we found that melatonin reversed Pak2 expression by activating the AMPK pathway and blockade of the AMPK pathway suppressed Pak2 upregulation and cardiomyocytes survival induced by melatonin in the presence of HR stress. Overall, our study reports that the AMPK-Pak2 axis, a novel signaling pathway modulated by melatonin, sends prosurvival signals for cardiomyocytes reperfusion injury through attenuation of ER stress in vitro.

Cinnamaldehyde Ameliorates High-Glucose–Induced Oxidative Stress and Cardiomyocyte Injury Through Transient Receptor Potential Ankyrin 1
imageAbstract: Oxidative stress plays a critical role in diabetic cardiomyopathy. Transient receptor potential ankyrin subtype 1 (TRPA1) has antioxidative property. In this study, we tested whether activation of TRPA1 with cinnamaldehyde protects against high-glucose–induced cardiomyocyte injury. Cinnamaldehyde remarkably decreased high-glucose–induced mitochondrial superoxide overproduction, upregulation of nitrotyrosine, P22phox, and P47phox, and apoptosis in cultured H9C2 cardiomyocytes (P < 0.01), which were abolished by a TRPA1 antagonist HC030031 (P < 0.01). Nrf2 and its induced genes heme oxygenase-1 (HO-1), glutathione peroxidase-1 (GPx-1), and quinone oxidoreductase-1 (NQO-1) were slightly increased by high glucose (P < 0.01) and further upregulated by cinnamaldehyde (P < 0.05 or P < 0.01). Feeding with cinnamaldehyde (0.02%)-containing diet for 12 weeks significantly decreased cardiac nitrotyrosine levels (P < 0.01), fibrosis, and cardiomyocyte hypertrophy (P < 0.05), while increased expression of antioxidative enzymes (HO-1, GPx-1, NQO-1, and catalase) (P < 0.01) in the myocardial tissue of db/db diabetic mice. These results suggest that cinnamaldehyde protects against high-glucose–induced oxidative damage of cardiomyocytes likely through the TRPA1/Nrf2 pathway.

Low-Dose Adrenaline Reduces Blood Pressure Acutely in Anesthetized Pigs Through a β2-Adrenergic Pathway
imageAbstract: Adrenaline (epinephrine) is one of the prime messengers of the fight-or-flight response, favoring the activation of β-adrenergic receptors. Although general vasoconstriction to nonessential tissues is imperative, the vasodilatory effect of β-adrenergic receptor activation contends with this. We aimed to determine the dose-dependent effects of adrenaline on hemodynamics and to test whether adrenaline could lower blood pressure (BP) through a β2-adrenergic pathway. Nineteen Danish landrace pigs were used to pharmacologically probe the hemodynamic effect of adrenaline. Pigs were anesthetized, intubated, and electrocardiogram, systolic BP (SBP), diastolic BP (DBP), and left ventricular pressure (LVP) were monitored continuously. First, we tested the dose-dependent effects of adrenaline (0.01–10 µg/kg). Second, we determined the response to adrenaline (0.3 µg/kg) after atropine, prazosin, and propranolol pretreatment. Finally, we tested the hemodynamic effect of salbutamol in a subset of pigs. All doses of adrenaline increased heart rate, while BP showed a biphasic response: At low doses, adrenaline decreased SBP from 118 ± 3 to 106 ± 4 mm Hg (n = 15; P < 0.05) and DBP from 86 ± 3 to 71 ± 3 (n = 15; P < 0.05), while at high doses, SBP and DBP increased. LVP showed a similar pattern, with a tendency of decreased pressure at low doses, and an increased pressure at high doses (P < 0.05). Pretreatment with autonomic blockers revealed that the increase in BP was due to α-adrenergic activity, while the decrease was due to β-adrenergic activity. In confirmation, β-adrenergic activation through salbutamol showed a similar decrease in SBP, DBP, and LVP. We conclude that adrenaline dose-dependently increases heart rate, while producing a biphasic response in BP with a decrease at low doses and an increase at high doses in an anesthetized, large-animal model.

Vascular Protection and Decongestion Without Renin–Angiotensin–Aldosterone System Stimulation Mediated by a Novel Dual-Acting Vasopressin V1a/V2 Receptor Antagonist
imageAbstract: Increased plasma vasopressin levels have been shown to be associated with the progression of congestive heart failure. Vasopressin mediates water retention by renal tubular V2 receptor activation as well as vasoconstriction, cardiac hypertrophy, and fibrosis through V1a receptor activation. Therefore, we developed a novel, dual-acting vasopressin receptor antagonist, BAY 1753011, with almost identical Ki-values of 0.5 nM at the human V1a receptor and 0.6 nM at the human V2 receptor as determined in radioactive binding assays. Renal V2 antagonism by BAY 1753011 was compared with the loop diuretic furosemide in acute diuresis experiments in conscious rats. Similar diuretic efficacy was found with 300-mg/kg furosemide (maximal diuretic response) and 0.1-mg/kg BAY 1753011. Furosemide dose-dependently induced plasma renin and angiotensin I levels, while an equiefficient diuretic BAY 1753011 dose did not activate the renin–angiotensin system. BAY 1753011 dose-dependently decreased the vasopressin-induced expression of the profibrotic/hypertrophic marker plasminogen activator inhibitor-1 and osteopontin in rat cardiomyocytes, while the selective V2 antagonist satavaptan was without any effect. The combined vascular V1a-mediated and renal V2-mediated properties as well as the antihypertrophic/antifibrotic activity enable BAY 1753011 to become a viable treatment option for oral chronic treatment of congestive heart failure.

Physcion 8-O-β-Glucopyranoside Alleviates Oxidized Low-Density Lipoprotein-Induced Human Umbilical Vein Endothelial Cell Injury by Inducing Autophagy Through AMPK/SIRT1 Signaling
imageAim: Vascular endothelial cell dysfunction plays a crucial role in the initiation and development of atherosclerosis. Physcion 8-O-β-glucopyranoside (PG), an anthraquinone extracted from Polygonum cuspidatum, has a number of pharmacological functions. The aim of this study was to elucidate the protective effects of PG against oxidized low-density lipoprotein (ox-LDL) in VECs. Methods and Materials: Human umbilical vein endothelial cells (HUVECs) were used as the in vitro model. Cell viability and apoptosis were, respectively, assessed by CCK-8 assay and Annexin-V/PI staining. Formation of autophagosomes was visualized by acridine orange staining, and the autophagy flux was tracked after infecting the cells with the mRFP-GFP-LC3 adenovirus. The expression levels of various apoptosis and autophagy-associated marker proteins were detected by Western blotting. Results: Pretreatment with PG protected the HUVECs from ox-LDL–induced apoptosis. In addition, PG promoted autophagy in HUVECs, which was responsible for its antiapoptotic effects. Finally, activation of AMPK/SIRT1 signaling was upstream of PG-induced autophagy. Conclusions: PG has potential pharmacological effects against oxidative damage–induced HUVEC injury through inducing AMPK/SIRT1-mediated autophagy.

miR-3188 (rs7247237-C>T) Single-Nucleotide Polymorphism Is Associated With the Incidence of Vascular Complications in Chinese Patients With Type 2 Diabetes
imageAbstract: miR-3188, one of the earliest discovered microRNAs, is involved in regulating the mTOR-p-PI3K/AKT pathway, thus affecting the progression of diabetic complications. In this study, we observed that the miR-3188 (rs7247237-C>T) polymorphism not only affected the production of nitric oxide (NO) production in endothelial cells, but also significantly associated with the incidence of vascular complications in Chinese patients with type 2 diabetes. Mechanistic analyses indicate that miR-3188 (rs7247237-T) polymorphism inhibited its own expression and upregulated the expression of gstm1 and trib3, which impairs NO production in human endothelial cells through inactivating AKT/eNOS signal transduction pathway. In addition, our clinical retrospective study indicated that, compared with patients with the CC genotype (n = 351), patients with rs7247237 TT + CT genotypes (n = 580) exhibited an increased risk of major vascular events during intensive glucose control treatment (hazard ratio = 1.560; 95% CI: 1.055–2.307, P = 0.025). Simultaneously, the risk of major vascular events was marginally decreased in patients with the CC genotype during intensive glucose control treatment compared with standard treatment (hazard ratio = 0.666; 95% CI: 0.433–1.016, P = 0.053). Our findings indicate that the miR-3188 (rs7247237-C>T) polymorphism is associated with the incidence of vascular complications in Chinese patients with type 2 diabetes, likely due to its remarkable effect on miR-3188 expression.

Alexandros Sfakianakis
Anapafseos 5 . Agios Nikolaos
Crete.Greece.72100
2841026182
6948891480

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