Nanostructured Lipid Carriers Deliver Resveratrol, Restoring Attenuated Dilation in Small Coronary Arteries, via the AMPK Pathway

Nanostructured lipid carriers (NLCs) are an emerging drug delivery platform for improved drug stability and the bioavailability of antihypertensive drugs and vasoprotective nutraceutical compounds, such as resveratrol (RV). The objective of this study was to ascertain NLCs’ potential to deliver RV and restore attenuated dilator function, using an ex vivo model of acute hypertension. Trimyristin–triolein NLCs were synthesized and loaded with RV. The uptake of RV-NLCs by human coronary artery endothelial cells (HCAECs) maintained their viability and reduced both mitochondrial and cytosolic superoxide levels. Acute pressure elevation in isolated coronary arteries significantly attenuated endothelial-dependent dilator responses, which were reversed following incubation in RV-NLCs, superoxide dismutase or apocynin (p < 0.0001). RV-NLCs demonstrated a five-fold increase in potency in comparison to RV solution. At elevated pressure, in the presence of RV-NLCs, incubation with Nω-nitro-l-arginine (L-NNA) or indomethacin resulted in a significant reduction in the restored dilator component (p < 0.0001), whereas apamin and TRAM-34 had no overall effect. Incubation with the adenosine monophosphate-activated protein kinase (AMPK) inhibitor dorsomorphin significantly attenuated dilator responses (p < 0.001), whereas the SIRT-1 inhibitor EX-527 had no effect. RV-NLCs improved the impaired endothelial-dependent dilation of small coronary arteries, following acute pressure elevation, via NO and downstream COX elements, mediated by AMPK. We suggest that RV-NLCs are an effective delivery modality for improved potency and sustained drug release into the vasculature. Our findings have important implications for the future design and implementation of antihypertensive treatment strategies.

733 Evaluation of pulmonary pressures in patients underwent to MitraClip

Mitral regurgitation (MR) is the second most frequent valve heart disease in Europe and its underlying mechanism primary-organic (due to disease of the mitral leaflets), or secondary-functional (where valve leaflets and chordae are structurally normal and MR results from alterations in left ventricle and left atrium geometry), determines the therapeutic approach. Transcatheter Edge-to-Edge Repair (TEER) with MitraClip implantation is a minimal-invasive treatment that according to 2021 ESC Guidelines should be considered (class indication IIa) in selected symptomatic patients with severe MR despite optimal medical therapy, not eligible for surgery and fulfilling COAPT trial inclusion criteria, suggesting an increased chance of responding to treatment. Optimal valve morphology features for TEER are central pathology (second scallop), no leaflet calcifications, mitral valve area &gt;4 cm2, mobile length of posterior leaftel &gt;10 mm, coaptation depth &lt;11mm, normal leaflet strength and mobility, flail width &lt;15 mm, flail gap &lt;10 mm. TEER may be considered (class IIb) only in selected cases when the COAPT criteria are not fulfilled with the aim of improving symptoms and quality of life. MR occurs during systole, that at normal heart rates represents 30–50% of the cardiac cycle. As such, marked left atrial (LA) pressure elevation is present only transiently, representing less of a drive to development of secondary pulmonary hypertension compared to chronic LA pressure elevation seen in severe mitral stenosis. Anyway, in patients with severe MR echocardiography often reveals elevated systolic pulmonary artery pressure (PAPs) and MitraClip implantation usually is associated with a slight increase of the trans-mitral gradient with possible repercussions on pulmonary pressures. To better describe the effect of MitraClip implantation on pulmonary pressures and clinical outcomes we did a retrospective study enrolling in the period 2012–2021 25 patients with severe mitral regurgitation treated with TEER. We aimed to evaluate the clinical outcomes (symptoms, signs of heart failure, NYHA functional class) and the pulmonary pressures assessed by an echocardiographic examination before and after the intervention. At 6-month follow-up all patients with repaired mitral regurgitation showed an improvement in the NYHA class (from IV to II) and no need for re-hospitalization. We observed a trend in the reduction of the mean sistolic pulmonary arterial pressure of 2.68 mmHg ± 15 mmHg (P 0.39, 95% C.I. −9.03 to 3.67) with an unchanged left ventricle ejection fraction. Moreover, the echocardiographic exam showed a normalization of the S and D waves pattern in the pulmonary veins at the PW Doppler evaluation. We can assume that the clinical improvement and the reduction of dyspnoea in these patients underwent TEER is related to a reduction of pressures in the pulmonary circulation regardless of the ejection fraction. This finding could be used as a tool that the cardiologist has to evaluate in the echocardiography lab to reveal a new mitral valve disfunction. Considering the small sample, a greater number of patients will be enrolled to highlight the statistical significance.

Abstract P242: The Role Of Kappa Opioid Receptors In The Development Of Hypertension And Kidney Injury In Sprague-Dawley Rats

The extensive use of opioid-based pain management strongly correlates with poor cardiovascular and cardiorenal outcomes. Our recent studies suggest that treatment with kappa opioid receptor (KOR) agonist BRL 52537 leads to the progression of chronic kidney disease (CKD) and aggravation of salt-sensitive hypertension. We hypothesize that stimulation of KORs leads to blood pressure elevation, albuminuria, and kidney damage in healthy Sprague-Dawley (SD) rats. To characterize the effect of the KOR agonist BRL 52537 on the development of blood pressure and kidney function in vivo , SD rats were treated with a daily i.v. bolus infusion of BRL 52537 or a corresponding vehicle. To test the contribution of KOR stimulation on calcium homeostasis in podocytes, BRL 52537 was used on freshly isolated glomeruli from SD rats. Single-channel analysis was applied to assess the effect of KORs stimulation on TRPC6 channel activity in the human immortalized podocytes. Chronic treatment with BRL 52537 leads to increased mean arterial pressure (88±1 vs 101±4 mmHg, vehicle vs treated, p<0.05), podocyte basal calcium (90±12 vs 216±16 a.u., vehicle vs treated, p<0.05), and GFB impairment in SD rats which is reflected by a transient increase in albumin excretion (Alb/cre ratio 0.35±0.1 vs 0.72±0.2, vehicle vs treated, p<0.05). Cumulative probability distribution analysis of the glomerular injury score revealed a rightward shift toward a high glomerular injury score in the group treated with BRL 52537 (p<0.05). Angiotensin II level was higher in a BRL-treated group (156±17 vs 232±59 pmol, vehicle vs treated, p=0.065); however, it did not reach a statistical difference. Acute application of BRL 52537 resulted in sustained calcium response (0.23±0.01 a.u., Fluo4/FuraRed, maximum calcium response) in freshly isolated glomeruli from SD rats. Furthermore, patch-clamp experiments in human immortalized podocytes (cell-attached configuration) revealed that BRL 52537 activated TRPC6 channels. Taken together, these data support the hypothesis that administration of opioids in SD rats leads to activation of the KOR/TRPC6 pathway, which in turn led to glomerular filtration barrier impairment, increased glomerular damage, and blood pressure elevation.

Abstract MP31: A20 In Renal Tubular Cells Protects Against Hypertension

The ubiquitin-editing protein A20 suppresses NF-κB signaling, which contributes to hypertension and kidney inflammation. However, whether A20 generated directly in the kidney tubule regulates blood pressure requires elucidation. To examine the role of tubular A20 in hypertension, we bred A20 flox/flox mice with the Pax8-rtTA and Tet-On lines to generate inducible renal epithelial cell A20 knockout mice (A20 iKKO). Mice with all 3 transgenes were used as the A20 iKKO group, while mice lacking the Pax8-rtTA or Tet-On transgene acted as wild-type (WT) controls. Prior to experiments, all mice were given 2mg/ml of doxycycline in the drinking water for 2 weeks to ablate A20 in renal tubular cells. By qPCR, mRNA levels for A20 were selectively reduced by 63% in A20 iKKO kidneys vs WT controls. Baseline blood pressures were similar in the groups. During 3 weeks of chronic angiotensin (Ang) II infusion (500ng/kg/min), A20 iKKO mice exhibited higher mean arterial pressures measured by telemetry compared to WTs (155±2 vs. 143±4 mmHg; p =0.024). As a result, the A20 iKKOs had worse cardiac hypertrophy than the WTs after AngII (7.10±0.17 vs. 6.27±0.16 mg heart/g body weight; p <0.005.). In addition, mRNA levels for TNF-α were markedly increased (1.54±0.21 vs. 1.0±0.1 arbitrary units; p <0.05) in A20 iKKO kidneys compared to WTs, whereas the genes encoding IL-1β and IFNγ were similarly expressed in the groups. In the 3 rd week of AngII, levels of sodium-hydrogen exchanger 3 (NHE3) protein (1.50±0.10 vs. 1.0±0.1; p <0.0005) and NF-κB p50 subunit mRNA (1.30±0.14 vs. 1.0±0.06; p <0.05) were increased in A20 iKKO kidneys compared to WTs. Treating both WTs and A20 iKKOs with the TNF-α inhibitor (R7050, 12mg/body weight) every other day during the 1 st week of AngII infusion yielded similar levels of blood pressure elevation (141.57±4.54 vs. 140.35±5.60 mmHg; p =0.87). These data suggest that tubular A20 limits sodium reabsorption and blood pressure elevation by inhibiting NF-κB/ TNF-dependent NHE3 induction in the kidney.