Jane Lise Samuel

Increased neuronal nitric oxide synthase-derived NO production in the failing human heart

Experimental data suggest that nitric oxide (NO) generated from neuronal NO synthase (nNOS) modulates the myocardial inotropic state. To assess the contribution of NO, derived from endothelial and neuronal isoforms, to the pathophysiology of congestive heart failure in human beings, we compared expression, localisation, and specific activity of NOS isoforms in myocardium from patients with dilated cardiomyopathy with those in controls who had died from head trauma or intracranial bleeds. Diseased hearts had a significant increase in nNOS mRNA and protein expression, and activity associated with the translocation of nNOS to the sarcolemma through interactions with caveolin 3. Enhanced nNOS activity counteracted a decrease in eNOS expression and activity. Our results provide evidence of increased nNOS-derived NO in the failing human heart. Such altered regulation may be important in the pathophysiology of cardiac dysfunction in human congestive heart failure.

Endothelial Dysfunction and Collagen Accumulation Two Independent Factors for Restenosis and Constrictive Remodeling After Experimental Angioplasty

BACKGROUND Constrictive remodeling plays a prominent role in restenosis after balloon angioplasty, but its regulation remains unclear. Because endothelial dysfunction and changes in extracellular matrix have been reported after angioplasty, this study was designed to simultaneously evaluate endothelial function and collagen and elastin changes after restenosis and arterial remodeling. METHODS AND RESULTS Atherosclerosis was induced in femoral arteries of 22 New Zealand White rabbits by air-desiccation and a high-cholesterol diet. One month later, angioplasty was performed. Histomorphometry and in vitro assessment of endothelial function were performed 4 weeks after angioplasty. Restenosis correlated with constrictive remodeling (r=0.60, P=0.01) but not with neointimal growth (r=-0.06, P=0.79). Restenosis correlated with an impaired relaxation to acetylcholine (ACh; r=0.61, P=0.02) but not with the response to the endothelium-independent vasodilator sodium nitroprusside (r=-0.25, P=0.40). Restenosis correlated positively with collagen accumulation (r=0.69, P=0.004) and inversely with elastin density (r=-0.48, P=0.05). Relaxations to ACh were significantly more decreased in arteries with constrictive remodeling than in those with enlargement remodeling (3.7+/-7.9% versus 35.5+/-15.0%, P=0.04). Neointimal collagen density was significantly higher in arteries with constrictive remodeling than in those with enlargement remodeling (34.5+/-4.5% versus 18.2+/-4.7%, P=0.03). Endothelial function and collagen and elastin density were independent predictors of restenosis in the study. CONCLUSIONS These results demonstrate that the severity of restenosis after angioplasty correlated with both defective endothelium-dependent relaxation and increased collagen density.

Coronary microvasculature alteration in hypertensive rats. Effect of treatment with a diuretic and an ACE inhibitor

The development of hypertension is accompanied by rarefaction of arterioles and capillaries in both animal models and humans. Although many studies have examined the effects of antihypertensive therapies on hemodynamics, cardiac hypertrophy, and large vessel structure, the question of whether changes in microvascular density induced by hypertension can be restored by pharmacologic treatment has yet to be answered. We report a series of experiments performed in rats with renovascular hypertension induced by unilateral nephrectomy and renal artery stenosis (Goldblatt one-kidney, one-clip model). Animals were treated for 4 weeks, after renal artery clipping, either with an angiotensin converting enzyme inhibitor (perindopril [PER], 0.76 mg/kg/day), or with an indol derivative diuretic with specific vascular properties (indapamide [IDP], 0.24 mg/kg/day) or with the combination of both drugs at the same doses as during monotherapy. Coronary microvessel densities (arterioles and capillaries) were evaluated by double immunolabeling in nonserial cryostat sections of the left ventricular inner myocardium. After 4 weeks of hypertension (mean arterial pressure, 174+/-11 v 124+/-5 mm Hg in normotensive (NT) controls, P < .01), cardiac hypertrophy (+59%, P < .001) was associated with a significant increase in myocardial arteriolar density (+27%, P < .01), and a decrease in capillary density (-12%, P < .05). Treatment with PER prevented the increase in arterial pressure, heart weight, and arteriolar density, but did not significantly affect the low coronary capillary density in comparison with that measured in untreated hypertensive (HT) rats. Treatment with IDP preserved normal capillary myocardial density but did not significantly lower the blood pressure (BP) (169+/-9 mm Hg) and only slightly reduced the cardiac ventricular hypertrophy: - 14% v untreated HT (P < .05) and +37% v NT (P < .01). In the same way, IDP normalized the left ventricular capillary density in spontaneously HT rats (+18% v untreated rats, P < .01). The combination of both drugs, PER and IDP, at the same low doses as during monotherapy, resulted in normal levels of arterial pressure and complete normalization of cardiac hypertrophy and arteriolar and capillary myocardial densities. In conclusion, the results observed after PER suggest that blockade of the renin-angiotensin system could inhibit large coronary vessel growth but minimally affects the capillary density despite complete normalization of BP. Indapamide could have beneficial effect on myocardial capillary density. The combination of IDP and PER has additional effects and prevents the increase in BP and cardiac weight, and reverses microvascular rarefaction, specifically arteriolar and capillary densities.

GENOMICS IN CARDIAC METABOLISM

Cell biology is in transition from reductionism to a more integrated science. Large-scale analysis of genome structure, gene expression, and metabolites are new technologies available for studying cardiac metabolism in diseases known to modify cardiac function. These technologies have several limitations and this review aims both to assess and take a critical look at some important results obtained in genomics restricted to molecular genetics, transcriptomics and metabolomics of cardiac metabolism in pathophysiological processes known to alter myocardial function. Therefore, our goal was to delineate new signalling pathways and new areas of research from the vast amount of data already published on genomics as applied to cardiac metabolism in diseases such as coronary heart disease, heart failure, and ischaemic reperfusion.

Soluble CD146 Is a Novel Marker of Systemic Congestion in Heart Failure Patients: An Experimental Mechanistic and Transcardiac Clinical Study.

BACKGROUND Soluble CD146 (sCD146), is an endothelial marker with similar diagnostic power as natriuretic peptides in decompensated heart failure (HF). While natriuretic peptides are released by the failing heart, sCD146 may be released by veins in response to stretch induced by systemic congestion in HF. This study investigated the source, effects of vascular stress on release and prognostic properties of sCD146 in HF. METHODS In a peripheral venous stress study, plasma concentrations of sCD146 and N-terminal probrain natriuretic-peptide (NT-proBNP) were measured in 44 HF patients at baseline and after 90 min of unilateral forearm venous congestion. In addition, sCD146 and NT-proBNP were measured in peripheral vein (PV) and coronary sinus (CS) blood samples of 137 HF patients and the transcardiac gradient was calculated. Those patients were followed for major adverse cardiovascular events (MACE) during 2 years. RESULTS The induction of venous stress was associated with a pronounced increase in circulating concentrations of sCD146 in the congested arm (+60 μg/L) compared to the control arm (+16 μg/L, P = 0.025), while no difference in NT-proBNP concentrations was seen. In contrast to positive transcardiac gradient for NT-proBNP, median sCD146 concentrations were lower in CS than in PV (396 vs 434, P < 0.001), indicating a predominantly extracardiac source of sCD146. Finally, increased PV concentrations of sCD146 were associated with higher risk of MACE at 2 years. CONCLUSIONS Soluble CD146 is released from the peripheral vasculature in response to venous stretch and may reflect systemic congestion in chronic HF patients.

Morphometric Measurement of Subendocardial Vessel Dimensions in Systolic and Diastolic Arrested Rat Heart

After maximal vasodilation and KCl or BaCl2 heart arrest (groups D and S, respectively), vessel wall fibronectin was labelled in the in situ frozen myocardium of ten Wistar rats. Capillary and venular dimensions and densities were measured in transverse sections of the inner third of the left ventricular free wall for both groups. The measured capillary diameters and density were, respectively, 6.86 ± 1.73 μm and 1434 ± 233/mm2 in group D, and 4.97 ± 1.12 μm and 1316 ± 400/mm2 in group S. The venular cross- sectional areas were 181 ± 27 μm2 in group S and 415 ± 65 μm2 in group D, while the respective venular densities were 15.4 ± 3.5/mm2 and 17.1 ± 2.9/mm2. These morphometric measurements correspond to an intramyocardial blood volume of 6.0 ml/100 g of left ventricle (LV) in group D and 2.9 ml/100g LV in group S. These results suggest: that (1) even in the group with BaCl2 arrest, there are very few subendocardial capillaries smaller than the critical value for red cell passage, and (2) the systolic-diastolic changes in intramyocardial blood volume may form a significant part of the total vasodilated intramyocardial blood volume.

0307 : QSOX1 has a protective role in the myocardium face to acute stress

Introduction QSOX1 was identified as a plasma biomarker of acute heart failure (AHF). QSOX1 being a sulfhydryl oxidase, our aim was to decipher the role of QSOX1 in the heart face to an AHF event. Methods AHF was provoked by IP injections of Isoproterenol (ISO, 300mg/kg/12h) for 2 days in mice (C57Bl/6 J) whereas control (C) received NaCl 9‰. Mice were killed at day 3, after echocardiography. QSOX1 KO (C57Bl/6 J) mice were generated using a QSOX1tm1a embryonic stem cell clone (KOMP). The KO construct contains a promoter-less lacZ gene under the control of the QSOX1 regulatory sequences. The mRNA levels were analyzed by RT-qPCR. The cellular level of oxidative stress was detected by using DHE. Fibrosis was analysed by Sirius red and collagen mRNA. Results At baseline QSOX1-/- adult mice did not display any cardiac or vascular phenotype. After ISO, lacZ expression dramatically increased in QSOX1+/- hearts with the strongest β-galactosidase staining in the atria. In mice receiving ISO, a pulmonary congestion, BNP (x2 p Conclusion We provided evidence that the absence of QSOX1 leads to a more serious cardiac dysfunction in response to acute cardiac stress by ISO than in WT counterparts. Hence, our data indicated that QSOX1 protects the heart in response to acute stress.