Your search keyword '"Laurent Loufrani"' showing total 19 results

1. Membrane estrogen receptor alpha (ERα) participates in flow-mediated dilation in a ligand-independent manner

Author

Julie Favre, Emilie Vessieres, Anne-Laure Guihot, Coralyne Proux, Linda Grimaud, Jordan Rivron, Manuela CL Garcia, Léa Réthoré, Rana Zahreddine, Morgane Davezac, Chanaelle Fébrissy, Marine Adlanmerini, Laurent Loufrani, Vincent Procaccio, Jean-Michel Foidart, Gilles Flouriot, Françoise Lenfant, Coralie Fontaine, Jean-François Arnal, and Daniel Henrion

Subjects

endothelium, shear stress, estrogen receptors, blood flow, resistance arteries, Medicine, Science, Biology (General), QH301-705.5

Abstract

Estrogen receptor alpha (ERα) activation by estrogens prevents atheroma through its nuclear action, whereas plasma membrane-located ERα accelerates endothelial healing. The genetic deficiency of ERα was associated with a reduction in flow-mediated dilation (FMD) in one man. Here, we evaluated ex vivo the role of ERα on FMD of resistance arteries. FMD, but not agonist (acetylcholine, insulin)-mediated dilation, was reduced in male and female mice lacking ERα (Esr1-/- mice) compared to wild-type mice and was not dependent on the presence of estrogens. In C451A-ERα mice lacking membrane ERα, not in mice lacking AF2-dependent nuclear ERα actions, FMD was reduced, and restored by antioxidant treatments. Compared to wild-type mice, isolated perfused kidneys of C451A-ERα mice revealed a decreased flow-mediated nitrate production and an increased H2O2 production. Thus, endothelial membrane ERα promotes NO bioavailability through inhibition of oxidative stress and thereby participates in FMD in a ligand-independent manner.

Published

2021

2. Do storage solutions protect endothelial function of arterialized vein graft in an experimental rat model?

Author

Olivier Fouquet, Jean-David Blossier, Simon Dang Van, Pauline Robert, Agnès Barbelivien, Frédéric Pinaud, Patrice Binuani, Maroua Eid, Daniel Henrion, Christophe Baufreton, and Laurent Loufrani

Subjects

Coronary artery bypass grafting, Venous graft, Storage solutions, Vascular reactivity, Surgery, RD1-811, Anesthesiology, RD78.3-87.3

Abstract

Abstract Background This study aims to compare the effects of storage solutions commonly used in coronary artery bypass grafting on the vascular reactivity in vein graft interposed in arterial position in syngeneic rats. Methods Twenty-seven male Lewis rats were sacrified to sample a vein graft implanted 6 weeks ago into abdominal aorta position. The vein grafts were inferior venae cavae initially pretreated with heparinized saline solution (HS) or autologous heparinized blood (AHB) or our referent solution, GALA. The endothelial functionality, the in situ Reactive Oxygen Species (ROS) levels and the histological characteristics were conducted from segments of arterialized vein graft. Results At 6 weeks, graft thrombosis occurred respectively in 22% of AHB group, 62.5% in the HS group and 82.5% in the GALA group. In each group, significative intimal hyperplasia was observed. After 6 weeks, an endothelium-remodeling layer associated with an increase of wall thickness was observed in each group. Endothelium-dependent tone was reduced in the vein graft regardless of the group. No difference was observed concerning the ROS in vein graft between the different groups. In distal aortic sections, ROS levels were increased in HS and GALA groups. Conclusions Storage solutions used in this experimental model of vein graft implanted in arterial position cause graft injury and a complete disappearance of vascular reactivity. GALA solution did not reduce intimal risk hyperplasia when the vein graft was exposed to arterial flow in a rat model.

Published

2020

3. Nuclear Activation Function 2 Estrogen Receptor α Attenuates Arterial and Renal Alterations Due to Aging and Hypertension in Female Mice

Author

Emmanuel Guivarc'h, Julie Favre, Anne‐Laure Guihot, Emilie Vessières, Linda Grimaud, Coralyne Proux, Jordan Rivron, Agnès Barbelivien, Céline Fassot, Marie Briet, Françoise Lenfant, Coralie Fontaine, Laurent Loufrani, Jean‐François Arnal, and Daniel Henrion

Subjects

aging, endothelium, estrogen, hypertension, kidney, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background The cardiovascular protective effects of estrogens in premenopausal women depend mainly on estrogen receptor α (ERα). ERα activates nuclear gene transcription regulation and membrane‐initiated signaling. The latter plays a key role in estrogen‐dependent activation of endothelial NO synthase. The goal of the present work was to determine the respective roles of the 2 ERα activities in endothelial function and cardiac and kidney damage in young and old female mice with hypertension, which is a major risk factor in postmenopausal women. Methods and Results Five‐ and 18‐month‐old female mice lacking either ERα (ERα−/−), the nuclear activating function AF2 of ERα (AF2°), or membrane‐located ERα (C451A) were treated with angiotensin II (0.5 mg/kg per day) for 1 month. Systolic blood pressure, left ventricle weight, vascular reactivity, and kidney function were then assessed. Angiotensin II increased systolic blood pressure, ventricle weight, and vascular contractility in ERα−/− and AF2° mice more than in wild‐type and C451A mice, independent of age. In both the aorta and mesenteric resistance arteries, angiotensin II and aging reduced endothelium‐dependent relaxation in all groups, but this effect was more pronounced in ERα−/− and AF2° than in the wild‐type and C451A mice. Kidney inflammation and oxidative stress, as well as blood urea and creatinine levels, were also more pronounced in old hypertensive ERα−/− and AF2° than in old hypertensive wild‐type and C451A mice. Conclusions The nuclear ERα‐AF2 dependent function attenuates angiotensin II–dependent hypertension and protects target organs in aging mice, whereas membrane ERα signaling does not seem to play a role.

Published

2020

4. Altered Mitochondrial Opa1-Related Fusion in Mouse Promotes Endothelial Cell Dysfunction and Atherosclerosis

Author

Ahmad Chehaitly, Anne-Laure Guihot, Coralyne Proux, Linda Grimaud, Jade Aurrière, Benoit Legouriellec, Jordan Rivron, Emilie Vessieres, Clément Tétaud, Antonio Zorzano, Vincent Procaccio, Françoise Joubaud, Pascal Reynier, Guy Lenaers, Laurent Loufrani, and Daniel Henrion

Subjects

mitochondrial fusion, blood flow, shear stress, arteries, endothelial cell, atherosclerosis, Therapeutics. Pharmacology, RM1-950

Abstract

Flow (shear stress)-mediated dilation (FMD) of resistance arteries is a rapid endothelial response involved in tissue perfusion. FMD is reduced early in cardiovascular diseases, generating a major risk factor for atherosclerosis. As alteration of mitochondrial fusion reduces endothelial cells’ (ECs) sprouting and angiogenesis, we investigated its role in ECs responses to flow. Opa1 silencing reduced ECs (HUVECs) migration and flow-mediated elongation. In isolated perfused resistance arteries, FMD was reduced in Opa1+/− mice, a model of the human disease due to Opa1 haplo-insufficiency, and in mice with an EC specific Opa1 knock-out (EC-Opa1). Reducing mitochondrial oxidative stress restored FMD in EC-Opa1 mice. In isolated perfused kidneys from EC-Opa1 mice, flow induced a greater pressure, less ATP, and more H2O2 production, compared to control mice. Opa1 expression and mitochondrial length were reduced in ECs submitted in vitro to disturbed flow and in vivo in the atheroprone zone of the mouse aortic cross. Aortic lipid deposition was greater in Ldlr−/--Opa1+/- and in Ldlr−/--EC-Opa1 mice than in control mice fed with a high-fat diet. In conclusion, we found that reduction in mitochondrial fusion in mouse ECs altered the dilator response to shear stress due to excessive superoxide production and induced greater atherosclerosis development.

Published

2022

5. Author’s reply (in reference to letter to editor proposed by Etem Caliskan, Catherine J. Pachuk, Louis P. Perrault, Maximilian Y Emmert and entitled: preservation solutions to improve graft patency: The devil is in the detail)

Author

Olivier Fouquet, Jean-David Blossier, Simon Dang Van, Pauline Robert, Agnès Barbelivien, Frédéric Pinaud, Patrice Binuani, Maroua Eid, Daniel Henrion, Laurent Loufrani, and Christophe Baufreton

Subjects

Venous graft, Graft patency, Preservation solutions, Surgery, RD1-811, Anesthesiology, RD78.3-87.3

Abstract

Abstract Not applicable.

Published

2021

6. Cardiopulmonary bypass and internal thoracic artery: Can roller or centrifugal pumps change vascular reactivity of the graft? The IPITA study: A randomized controlled clinical trial.

Author

Olivier Fouquet, Simon Dang Van, Anna Baudry, Philippe Meisnerowski, Pauline Robert, Frédéric Pinaud, Patrice Binuani, Jean-Marie Chrétien, Daniel Henrion, Christophe Baufreton, and Laurent Loufrani

Subjects

Medicine, Science

Abstract

BackgroundCardiopulmonary bypass (CPB) induces a systemic inflammatory response (SIRS) and affects the organ vascular bed. Experimentally, the lack of pulsatility alters myogenic tone of resistance arteries and increases the parietal inflammatory response. The purpose of this study was to compare the vascular reactivity of the internal thoracic arteries (ITAs) due to the inflammatory response between patients undergoing coronary artery bypass grafting (CABG) under CPB with a roller pump or with a centrifugal pump.MethodsEighty elective male patients undergoing CABG were selected using one or two internal thoracic arteries under CPB with a roller pump (RP group) or centrifugal pump (CFP group). ITA samples were collected before starting CPB (Time 1) and before the last coronary anastomosis during aortic cross clamping (Time 2). The primary endpoint was the endothelium-dependent relaxation of ITAs investigated using wire-myography. The secondary endpoint was the parietal inflammatory response of arteries defined by the measurements of superoxide levels, leukocytes and lymphocytes rate and gene expression of inflammatory proteins using. Terminal complement complex activation (SC5b-9) and neutrophil activation (elastase) analysis were performed on arterial blood at the same times.ResultsExposure time of ITAs to the pump flow was respectively 43.3 minutes in the RP group and 45.7 minutes in the CFP group. Acetylcholine-dependent relaxation was conserved in the two groups whatever the time. Gene expression of C3 and C4a in the artery wall decreased from Time 1 to Time 2. No oxidative stress was observed in the graft. There was no difference between the groups concerning the leukocytes and lymphocytes rate. SC5b-9 and elastase increased between Time 1 and Time 2.ConclusionEndothelium-dependent relaxation of the internal thoracic arteries was preserved during CPB whatever the type of pump used. The inflammatory response observed in the blood was not found in the graft wall within this time frame.Trial registrationName of trial study protocol: IPITA Registration number (ClinicalTrials.gov): NCT04168853.

Published

2020

7. Predominant Role of Nuclear Versus Membrane Estrogen Receptor α in Arterial Protection: Implications for Estrogen Receptor α Modulation in Cardiovascular Prevention/Safety

Author

Emmanuel Guivarc'h, Mélissa Buscato, Anne‐Laure Guihot, Julie Favre, Emilie Vessières, Linda Grimaud, Jamal Wakim, Nada‐Joe Melhem, Rana Zahreddine, Marine Adlanmerini, Laurent Loufrani, Claude Knauf, John A. Katzenellenbogen, Benita S. Katzenellenbogen, Jean‐Michel Foidart, Pierre Gourdy, Françoise Lenfant, Jean‐François Arnal, Daniel Henrion, and Coralie Fontaine

Subjects

arteriolar remodeling, atherosclerosis, estrogen, hypertension, nuclear receptor, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Background Although estrogen receptor α (ERα) acts primarily as a transcription factor, it can also elicit membrane‐initiated steroid signaling. Pharmacological tools and transgenic mouse models previously highlighted the key role of ERα membrane‐initiated steroid signaling in 2 actions of estrogens in the endothelium: increase in NO production and acceleration of reendothelialization. Methods and Results Using mice with ERα mutated at cysteine 451 (ERaC451A), recognized as the key palmitoylation site required for ERα plasma membrane location, and mice with disruption of nuclear actions because of inactivation of activation function 2 (ERaAF20 = ERaAF2°), we sought to fully characterize the respective roles of nuclear versus membrane‐initiated steroid signaling in the arterial protection conferred by ERα. ERaC451A mice were fully responsive to estrogens to prevent atheroma and angiotensin II–induced hypertension as well as to allow flow‐mediated arteriolar remodeling. By contrast, ERαAF20 mice were unresponsive to estrogens for these beneficial vascular effects. Accordingly, selective activation of nuclear ERα with estetrol was able to prevent hypertension and to restore flow‐mediated arteriolar remodeling. Conclusions Altogether, these results reveal an unexpected prominent role of nuclear ERα in the vasculoprotective action of estrogens with major implications in medicine, particularly for selective nuclear ERα agonist, such as estetrol, which is currently under development as a new oral contraceptive and for hormone replacement therapy in menopausal women.

Published

2018

8. In Utero Exposure to Maternal Diabetes Is Associated With Early Abnormal Vascular Structure in Offspring

Author

Abdallah Dib, Cyrielle Payen, Jennifer Bourreau, Mathilde Munier, Linda Grimaud, Ziad Fajloun, Laurent Loufrani, Daniel Henrion, and Céline Fassot

Subjects

maternal diabetes, fetal programming, vascular structure, remodeling, blood flow, blood pressure, Physiology, QP1-981

Abstract

Aim/hypothesis:In utero exposure to maternal diabetes increases the risk of developing hypertension and cardiovascular disorders during adulthood. We have previously shown that this is associated with changes in vascular tone in favor of a vasoconstrictor profile, which is involved in the development of hypertension. This excessive constrictor tone has also a strong impact on vascular structure. Our objective was to study the impact of in utero exposure to maternal diabetes on vascular structure and remodeling induced by chronic changes in hemodynamic parameters.Methods and Results: We used an animal model of rats exposed in utero to maternal hyperglycemia (DMO), which developed hypertension at 6 months of age. At a pre-hypertensive stage (3 months of age), we observed deep structural modifications of the vascular wall without any hemodynamic perturbations. Indeed, in basal conditions, resistance arteries of DMO rats are smaller than those of control mother offspring (CMO) rats; in addition, large arteries like thoracic aorta of DMO rats have an increase of smooth muscle cell attachments to elastic lamellae. In an isolated perfused kidney, we also observed a leftward shift of the flow/pressure relationship, suggesting a rise in renal peripheral vascular resistance in DMO compared to CMO rats. In this context, we studied vascular remodeling in response to reduced blood flow by in vivo mesenteric arteries ligation. In DMO rats, inward remodeling induced by a chronic reduction in blood flow (1 or 3 weeks after ligation) did not occur by contrast to CMO rats in which arterial diameter decreased from 428 ± 17 μm to 331 ± 20 μm (at 125 mmHg, p = 0.001). In these animals, the transglutaminase 2 (TG2) pathway, essential for inward remodeling development in case of flow perturbations, was not activated in low-flow (LF) mesenteric arteries. Finally, in old hypertensive DMO rats (18 months of age), we were not able to detect a pressure-induced remodeling in thoracic aorta.Conclusions: Our results demonstrate for the first time that in utero exposure to maternal diabetes induces deep changes in the vascular structure. Indeed, the early narrowing of the microvasculature and the structural modifications of conductance arteries could be a pre-emptive adaptation to fetal programming of hypertension.

Published

2018

9. Hydroxychloroquine partially prevents endothelial dysfunction induced by anti-beta-2-GPI antibodies in an in vivo mouse model of antiphospholipid syndrome.

Author

Geoffrey Urbanski, Antoine Caillon, Caroline Poli, Gilles Kauffenstein, Marc-Antoine Begorre, Laurent Loufrani, Daniel Henrion, and Cristina Belizna

Subjects

Medicine, Science

Abstract

BACKGROUND:Antiphospholipid syndrome is associated with endothelial dysfunction, which leads to thrombosis and early atheroma. Given that hydroxychloroquine has anti-thrombotic properties in lupus, we hypothesized that it could reduce endothelial dysfunction in an animal model of antiphospholipid syndrome. We evaluated the effect of hydroxychloroquine in preventing endothelial dysfunction in a mouse model of antiphospholipid syndrome. METHODS:Antiphospholipid syndrome was induced by an injection of monoclonal anti-beta-2-GPI antibodies. Vascular reactivity was evaluated in mesenteric resistance arteries isolated from mice 3 weeks (APL3W) after receiving a single injection of anti-beta-2-GPI antibodies and after 3 weeks of daily oral hydroxychloroquine treatment (HCQ3W) compared to control mice (CT3W). We evaluated endothelial dysfunction by measuring acetylcholine-mediated vasodilation. A pharmacological approach was used to evaluate NO synthase uncoupling (tetrahydrobiopterin) and the generation of reactive oxygen species (Tempol). RESULTS:Impaired acetylcholine-mediated dilation was evidenced in mice 3 weeks after anti-beta-2-GPI antibodies injection compared to CT3W, by reduced maximal dilation (p

Published

2018

10. The endothelial αENaC contributes to vascular endothelial function in vivo.

Author

Antoine Tarjus, Martina Maase, Pia Jeggle, Ernesto Martinez-Martinez, Céline Fassot, Laurent Loufrani, Daniel Henrion, Pernille B L Hansen, Kristina Kusche-Vihrog, and Frederic Jaisser

Subjects

Medicine, Science

Abstract

The Epithelial Sodium Channel (ENaC) is a key player in renal sodium homeostasis. The expression of α β γ ENaC subunits has also been described in the endothelium and vascular smooth muscle, suggesting a role in vascular function. We recently demonstrated that endothelial ENaC is involved in aldosterone-modulated endothelial stiffness. Here we explore the functional role of the endothelial αENaC subunit in vascular function in vivo. Compared to littermates, mice with conditional αENaC subunit gene inactivation in the endothelium only (endo-αENaC Knock Out mice) had no difference in their physiological parameters such as systolic blood pressure or heart rate. Acute and long-term renal Na+ handlings were not affected, indicating that endothelial αENaC subunit is not involved in renal sodium balance. Pharmacological inhibition of ENaC with benzamil blunted acetylcholine-induced nitric oxide production in mesenteric arteries from wild type mice but not in endo-αENaC KO mice, suggesting a critical role of endothelial ENaC in agonist-induced nitric oxide production. In endo-αENaC KO mice, compensatory mechanisms occurred and steady state vascular function was not altered except for flow-mediated dilation. Our data suggest that endothelial αENaC contributes to vascular endothelial function in vivo.

Published

2017

11. Resveratrol Improved Flow-Mediated Outward Arterial Remodeling in Ovariectomized Rats with Hypertrophic Effect at High Dose.

Author

Marie Petit, Anne-Laure Guihot, Linda Grimaud, Emilie Vessieres, Bertrand Toutain, Marie-Claude Menet, Valérie Nivet-Antoine, Jean-François Arnal, Laurent Loufrani, Vincent Procaccio, and Daniel Henrion

Subjects

Medicine, Science

Abstract

OBJECTIVES:Chronic increases in blood flow in resistance arteries induce outward remodeling associated with increased wall thickness and endothelium-mediated dilatation. This remodeling is essential for collateral arteries growth following occlusion of a large artery. As estrogens have a major role in this remodeling, we hypothesized that resveratrol, described as possessing phytoestrogen properties, could improve remodeling in ovariectomized rats. METHODS:Blood flow was increased in vivo in mesenteric arteries after ligation of adjacent arteries in 3-month old ovariectomized rats treated with resveratrol (5 or 37.5 mg/kg per day: RESV5 or RESV37.5) or vehicle. After 2 weeks arterial structure and function were measured in vitro in high flow (HF) and normal flow (NF) arteries isolated from each rat. RESULTS:Arterial diameter was greater in HF than in NF arteries in ovariectomized rats treated with RESV5 or RESV37.5, not in vehicle-treated rats. In mice lacking estrogen receptor alpha diameter was equivalent in HF and NF arteries whereas in mice treated with RESV5 diameter was greater in HF than in NF vessels. A compensatory increase in wall thickness and a greater phenylephrine-mediated contraction were observed in HF arteries. This was more pronounced in HF arteries from RESV37.5-treated rats. ERK1/2 phosphorylation, involved in hypertrophy and contraction, were higher in RESV37.5-treated rats than in RESV5- and vehicle-treated rats. Endothelium-dependent relaxation was greater in HF than in NF arteries in RESV5-treated rats only. In HF arteries from RESV37.5-treated rats relaxation was increased by superoxide reduction and markers of oxidative stress (p67phox, GP91phox) were higher than in the 2 other groups. CONCLUSION:Resveratrol improved flow-mediated outward remodeling in ovariectomized rats thus providing a potential therapeutic tool in menopause-associated ischemic disorders. This effect seems independent of the estrogen receptor alpha. Nevertheless, caution should be taken with high doses inducing excessive contractility and hypertrophy in association with oxidative stress in HF arteries.

Published

2016

12. Long Lasting Microvascular Tone Alteration in Rat Offspring Exposed In Utero to Maternal Hyperglycaemia.

Author

Emilie Vessières, Abdallah Dib, Jennifer Bourreau, Eric Lelièvre, Marc-Antoine Custaud, Martine Lelièvre-Pégorier, Laurent Loufrani, Daniel Henrion, and Céline Fassot

Subjects

Medicine, Science

Abstract

Epidemiologic studies have demonstrated that cardiovascular risk is not only determined by conventional risk factors in adulthood, but also by early life events which may reprogram vascular function. To evaluate the effect of maternal diabetes on fetal programming of vascular tone in offspring and its evolution during adulthood, we investigated vascular reactivity of third order mesenteric arteries from diabetic mother offspring (DMO) and control mother offspring (CMO) aged 3 and 18 months. In arteries isolated from DMO the relaxation induced by prostacyclin analogues was reduced in both 3- and 18-month old animals although endothelium (acetylcholine)-mediated relaxation was reduced in 18-month old DMO only. Endothelium-independent (sodium nitroprusside) relaxation was not affected. Pressure-induced myogenic tone, which controls local blood flow, was reduced in 18-month old CMO compared to 3-month old CMO. Interestingly, myogenic tone was maintained at a high level in 18-month old DMO even though agonist-induced vasoconstriction was not altered. These perturbations, in 18-months old DMO rats, were associated with an increased pMLC/MLC, pPKA/PKA ratio and an activated RhoA protein. Thus, we highlighted perturbations in the reactivity of resistance mesenteric arteries in DMO, at as early as 3 months of age, followed by the maintenance of high myogenic tone in older rats. These modifications are in favour of excessive vasoconstrictor tone. These results evidenced a fetal programming of vascular functions of resistance arteries in adult rats exposed in utero to maternal diabetes, which could explain a re-setting of vascular functions and, at least in part, the occurrence of hypertension later in life.

Published

2016

13. Increase in Cardiac Ischemia-Reperfusion Injuries in Opa1+/- Mouse Model.

Author

Sophie Le Page, Marjorie Niro, Jérémy Fauconnier, Laura Cellier, Sophie Tamareille, Abdallah Gharib, Arnaud Chevrollier, Laurent Loufrani, Céline Grenier, Rima Kamel, Emmanuelle Sarzi, Alain Lacampagne, Michel Ovize, Daniel Henrion, Pascal Reynier, Guy Lenaers, Delphine Mirebeau-Prunier, and Fabrice Prunier

Subjects

Medicine, Science

Abstract

Recent data suggests the involvement of mitochondrial dynamics in cardiac ischemia/reperfusion (I/R) injuries. Whilst excessive mitochondrial fission has been described as detrimental, the role of fusion proteins in this context remains uncertain.To investigate whether Opa1 (protein involved in mitochondrial inner-membrane fusion) deficiency affects I/R injuries.We examined mice exhibiting Opa1delTTAG mutations (Opa1+/-), showing 70% Opa1 protein expression in the myocardium as compared to their wild-type (WT) littermates. Cardiac left-ventricular systolic function assessed by means of echocardiography was observed to be similar in 3-month-old WT and Opa1+/- mice. After subjection to I/R, infarct size was significantly greater in Opa1+/- than in WTs both in vivo (43.2±4.1% vs. 28.4±3.5%, respectively; p

Published

2016

14. Time-Related Alteration in Flow- (Shear Stress-) Mediated Remodeling in Resistance Arteries from Spontaneously Hypertensive Rats

Author

Odile Dumont, Gilles Kauffenstein, Anne-Laure Guihot, Nathalie C. Guérineau, Pierre Abraham, Laurent Loufrani, and Daniel Henrion

Subjects

Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Hypertension is a major risk factor for cardiovascular disorders. As flow-mediated outward remodeling has a key role in postischemic revascularization, we investigated this remodeling in mesenteric resistance arteries of normotensive (WKY) and spontaneously hypertensive rats (SHRs) aged 3 to 9 months. Sequential ligation of mesenteric resistance arteries allowed modifying blood flow in vivo, thus exposing arteries to low, normal, or high flow. After 1, 3, 8, or 24 weeks, arteries were isolated for in vitro study. High flow (HF) induced outward hypertrophic remodeling in WKY rats after 1 week and persisted until 24 weeks without change in wall to lumen ratio. In SHRs, diameter increase was delayed, occurring only after 3 weeks. Nevertheless, it was reduced at 8 weeks and no longer significant after 24 weeks. In parallel, media cross-section area increased more with time in SHRs than in WKY rats and this was associated with increased contractility and oxidative stress with decreased NO-dependent relaxation. Low flow induced progressive inward remodeling until 24 weeks in both strains with excessive hypertrophy in SHRs. Thus, a chronic increase in flow induced transitory diameter expansion and long-lasting hypertrophy in SHRs. This could contribute to the higher susceptibility of hypertensive subjects to ischemic diseases.

Published

2014

15. COX-2-derived prostanoids and oxidative stress additionally reduce endothelium-mediated relaxation in old type 2 diabetic rats.

Author

Emilie Vessières, Anne-Laure Guihot, Bertrand Toutain, Maud Maquigneau, Céline Fassot, Laurent Loufrani, and Daniel Henrion

Subjects

Medicine, Science

Abstract

Endothelial dysfunction in resistance arteries alters end organ perfusion in type 2 diabetes. Superoxides and cyclooxygenase-2 (COX-2) derivatives have been shown separately to alter endothelium-mediated relaxation in aging and diabetes but their role in the alteration of vascular tone in old diabetic subjects is not clear, especially in resistance arteries. Consequently, we investigated the role of superoxide and COX-2-derivatives on endothelium-dependent relaxation in 3 and 12 month-old Zucker diabetic fatty (ZDF) and lean (LZ) rats. Mesenteric resistance arteries were isolated and vascular tone was investigated using wire-myography. Endothelium (acetylcholine)-dependent relaxation was lower in ZDF than in LZ rats (60 versus 84% maximal relaxation in young rats and 41 versus 69% in old rats). Blocking NO production with L-NAME was less efficient in old than in young rats. L-NAME had no effect in old ZDF rats although eNOS expression level in old ZDF rats was similar to that in old LZ rats. Superoxide level and NADPH-oxidase subunits (p67phox and gp91phox) expression level were greater in ZDF than in LZ rats and were further increased by aging in ZDF rats. In young ZDF rats reducing superoxide level with tempol restored acetylcholine-dependent relaxation to the level of LZ rats. In old ZDF rats tempol improved acetylcholine-dependent relaxation without increasing it to the level of LZ rats. COX-2 (immunolabelling and Western-blot) was present in arteries of ZDF rats and absent in LZ rats. In old ZDF rats arterial COX-2 level was higher than in young ZDF rats. COX-2 blockade with NS398 restored in part acetylcholine-dependent relaxation in arteries of old ZDF rats and the combination of tempol and NS398 fully restored relaxation in control (LZ rats) level. Accordingly, superoxide production and COX-2 derivatives together reduced endothelium-dependent relaxation in old ZDF rats whereas superoxides alone attenuated relaxation in young ZDF or old LZ rats.

Published

2013

16. Cyclooxygenase-2 inhibition restored endothelium-mediated relaxation in old obese Zucker rat mesenteric arteries

Author

Emilie Vessieres, Eric J Belin De Chantemèle, Bertrand Toutain, Anne-Laure Guihot, Alain Jardel, Laurent Loufrani, and Daniel Henrion

Subjects

Aging, metabolic syndrome, Resistance arteries, COX2, enothelium, Physiology, QP1-981

Abstract

Metabolic syndrome is associated with reduced endothelial vasodilator function. It is also associated with the induction of cyclooxygenase-2 (COX2), which produces vasoactive prostanoids. The frequency of metabolic syndrome increases with age and aging per se is a risk factor associated with reduced endothelium-mediated relaxation. Nevertheless, the combined effect of aging and metabolic syndrome on the endothelium is less known. We hypothesized that COX2 derived prostanoids may affect endothelium function in metabolic syndrome associated with aging. We used obese Zucker rats, a model of metabolic syndrome. First order mesenteric arteries were isolated from 4 and 12 month-old rats and acetylcholine (endothelium)-dependent relaxation determined using wire-myography.Endothelium-mediated relaxation, impaired in young Zucker rats (89 vs 77% maximal relaxation; lean vs. Zucker), was further reduced in old Zucker rats (72 vs 51%, lean vs. Zucker). The effect of the NO-synthesis inhibitor L-NAME on the relaxation was reduced in both young and old Zucker rats without change in eNOS expression level. COX inhibition (indomethacin) improved acetylcholine-mediated relaxation in old obese rats only, suggesting involvement of vasoconstrictor prostanoids. In addition, COX2 inhibition (NS398) and TxA2/PGH2 receptor blockade (SQ29548) both improved relaxation in old Zucker rat arteries. Old Zucker rats had the highest TxB2 (TxA2 metabolite) blood level associated with increased COX2 immunostaining. Chronic COX2 blockade (Celecoxib, 3 weeks) restored endothelium-dependent relaxation in old Zucker rats to the level observed in old lean rats. Thus the combination of aging and metabolic syndrome further impairs endothelium-dependent relaxation by inducing an excessive production of COX2-derived vasoconstrictor(s); possibly TxA2.

Published

2010

17. Role of the cytoskeleton in flow (shear stress)-induced dilation and remodeling in resistance arteries.

Author

Laurent Loufrani and Daniel Henrion

Published

2008

18. Vasodilator treatment with hydralazine increases blood flow in mdx mice resistance arteries without vascular wall remodelling or endothelium function improvement.

Author

Laurent Loufrani

Published

2005

19. Type 2 diabetes severely impairs structural and functional adaptation of rat resistance arteries to chronic changes in blood flow.

Author

Eric J. Belin de Chantemèle, Emilie Vessières, Anne-Laure Guihot, Bertrand Toutain, Maud Maquignau, Laurent Loufrani, and Daniel Henrion

Subjects

DIABETES complications, VASCULAR resistance, BLOOD flow, ENDOTHELIUM, LABORATORY rats, MESENTERIC artery, NITRIC-oxide synthases, CHRONIC disease treatment

Abstract

: Aims Endothelial dysfunction in resistance arteries (RAs) leads to end-organ damage in type 2 diabetes. Remodelling of RAs in response to chronic increases in blood flow depends on the integrity of the endothelium. Since type 2 diabetes impairs endothelial sensitivity to flow and increases oxidative stress, we hypothesized that flow-induced remodelling in RAs would be impaired in diabetes. Thus, we studied the structural and functional adaptation of RAs from Zucker diabetic fatty (ZDF) and lean Zucker (LZ) rats to chronic changes in flow. : Methods and results Mesenteric RAs were alternatively ligated so that one artery was submitted to high flow (HF) and compared with normal-flow (NF) arteries located at distance. After 3 weeks, arteries were studied in vitro (n = 10 rats per group). Arterial diameter (468 vs. 394 ± 8 µm) and endothelial (acetylcholine)-dependent dilation (91 ± 8 vs. 75 ± 6% dilation) were higher in HF than in NF arteries in LZ rats. In ZDF rats, diameter (396 ± 9 vs. 440 ± 17 µm) and acetylcholine-mediated dilation (42 ± 8 vs. 75 ± 7%) were lower in HF than in NF arteries. Nevertheless, endothelial NO synthase and NADP(H) oxidase subunits (gp91, p67) expression level and superoxide production (dihydroethidium staining) were higher in HF than in NF arteries in both strains, suggesting an efficient flow-sensing process in ZDF rats. In ZDF rats, basal oxidative stress was higher compared with LZ rats: dihydroethidium staining was higher in NF and HF arteries from ZDF rats, and acetylcholine-mediated dilation was improved by an acute antioxidant (tempol) in NF and HF arteries from ZDF rats. Thus, superoxide overproduction in ZDF rats impaired NO-dependent dilation and HF remodelling. Indeed, a chronic treatment with tempol increased HF artery diameter and endothelium-dependent dilation in ZDF rats. : Conclusion In type 2 diabetic rats, a chronic increase in blood flow failed to induce outward remodelling and to improve endothelium-dependent dilation, mainly because of superoxide overproduction. [ABSTRACT FROM AUTHOR]

Published

2009