Your search keyword '"Catherine Thollon"' showing total 22 results

1. New insights in the contribution of voltage-gated Na(v) channels to rat aorta contraction.

Author

Aurélie Fort, Magali Cordaillat, Catherine Thollon, Guillermo Salazar, Ilana Mechaly, Nicole Villeneuve, Jean-Paul Vilaine, Sylvain Richard, and Anne Virsolvy

Subjects

Medicine, Science

Abstract

BACKGROUND: Despite increasing evidence for the presence of voltage-gated Na(+) channels (Na(v)) isoforms and measurements of Na(v) channel currents with the patch-clamp technique in arterial myocytes, no information is available to date as to whether or not Na(v) channels play a functional role in arteries. The aim of the present work was to look for a physiological role of Na(v) channels in the control of rat aortic contraction. METHODOLOGY/PRINCIPAL FINDINGS: Na(v) channels were detected in the aortic media by Western blot analysis and double immunofluorescence labeling for Na(v) channels and smooth muscle alpha-actin using specific antibodies. In parallel, using real time RT-PCR, we identified three Na(v) transcripts: Na(v)1.2, Na(v)1.3, and Na(v)1.5. Only the Na(v)1.2 isoform was found in the intact media and in freshly isolated myocytes excluding contamination by other cell types. Using the specific Na(v) channel agonist veratridine and antagonist tetrodotoxin (TTX), we unmasked a contribution of these channels in the response to the depolarizing agent KCl on rat aortic isometric tension recorded from endothelium-denuded aortic rings. Experimental conditions excluded a contribution of Na(v) channels from the perivascular sympathetic nerve terminals. Addition of low concentrations of KCl (2-10 mM), which induced moderate membrane depolarization (e.g., from -55.9+/-1.4 mV to -45.9+/-1.2 mV at 10 mmol/L as measured with microelectrodes), triggered a contraction potentiated by veratridine (100 microM) and blocked by TTX (1 microM). KB-R7943, an inhibitor of the reverse mode of the Na(+)/Ca(2+) exchanger, mimicked the effect of TTX and had no additive effect in presence of TTX. CONCLUSIONS/SIGNIFICANCE: These results define a new role for Na(v) channels in arterial physiology, and suggest that the TTX-sensitive Na(v)1.2 isoform, together with the Na(+)/Ca(2+) exchanger, contributes to the contractile response of aortic myocytes at physiological range of membrane depolarization.

Published

2009

2. Effects of azumolene on arrhythmia substrate in a model of recurrent long-duration ventricular fibrillation

Author

Praloy Chakraborty, Stéphane Massé, Mohammed Ali Azam, Catherine Thollon, Ahmed Niri, Patrick F.H. Lai, Muriel Bouly, Sheila Riazi, and Kumaraswamy Nanthakumar

Subjects

Ventricular Fibrillation, Imidazoles, Biophysics, Action Potentials, Animals, Arrhythmias, Cardiac, Calcium, Rabbits, Cell Biology, Anti-Arrhythmia Agents, Oxazoles, Molecular Biology, Biochemistry

Abstract

Proarrhythmic risk of conventional anti-arrhythmic agents is linked to unintended modulation of membrane voltage dynamics. We have demonstrated that the anti-fibrillatory effect of azumolene is mediated via stabilization of the hyperphosphorylated ryanodine receptor (RyR2), leading to attenuation of diastolic calcium leak. However, the concomitant effects on membrane voltage dynamics have not been evaluated yet.After baseline optical mapping, Langendorff-perfused rabbit hearts treated with azumolene, or vehicle, were subjected to global ischemia-reperfusion (I/R) followed by two episodes of long-duration ventricular fibrillation (LDVF). Simultaneous dual epicardial calcium transient (CaT) and voltage dynamics were studied optically.Pre-treatment with azumolene was associated with higher CaT amplitude alternans ratios (0.94 ± 0.02 vs. 0.78 ± 0.03 in control hearts, at 6 Hz; p = 0.005; and action potential amplitude alternans ratio (0.95 ± 0.02 vs. 0.78 ± 0.04 at 6.0 Hz; p = 0.02), and reduction of action potential duration (APDIn a model of ischemic recurrent LDVF, treatment with azumolene led to reduction of cardiac alternans, i.e., calcium and voltage alternans. Unlike conventional anti-arrhythmic agents, reduction of action potential upstroke rise time and preservation of action potential duration following azumolene treatment may reduce the proarrhythmia risk.

Published

2022

3. Use-dependent inhibition of hHCN4 by ivabradine and relationship with reduction in pacemaker activity

Author

Francis Cogé, Pascale Chomarat, Guillaumin Jp, Stephane Bedut, Brunel-Jacquemin C, Jean-Louis Peglion, Piffard L, Nicole Villeneuve, Catherine Thollon, Jean A. Boutin, and Jean-Paul Vilaine

Subjects

Pharmacology, medicine.medical_specialty, biology, Chemistry, medicine.medical_treatment, Antiarrhythmic agent, Potassium channel, Electrophysiology, Endocrinology, Internal medicine, medicine, Extracellular, HCN channel, biology.protein, Patch clamp, Ivabradine, Ion channel, medicine.drug

Abstract

Background and purpose: Ivabradine, a specific and use-dependent If inhibitor, exerts anti-ischaemic activity purely by reducing heart rate. The aim of this work was to characterize its effect on the predominant HCN channel isoform expressed in human sino-atrial nodes (hSAN), to determine its kinetics in HCN channels from multicellular preparations and rate-dependency of its action. Experimental approach: RT-PCR analysis of the four HCN channel isoforms was carried out on RNAs from hSAN. Patch-clamp and intracellular recordings were obtained from CHO cells stably expressing hHCN4 and isolated SAN, respectively. Beating rate of rat isolated atria was followed using a transducer. Key results: hHCN4 mRNAs were predominant in hSAN. Ivabradine induced a time-dependent inhibition of hHCN4 with an IC50 of 0.5 μM. In rabbit SAN, ivabradine progressively reduced the frequency of action potentials: by 10% after 3 h at 0.1 μM, by 14% after 2 h at 0.3 μM and by 17% after 1.5 h at 1 μM. After 3h, ivabradine reduced the beating rate of rat right atria with an IC30 of 0.2 μM. The onset of action of ivabradine was use-dependent rather than time-dependent with slower effects than caesium, an extracellular If blocker. Ivabradine 3 μM decreased the frequency of action potentials in SAN from guinea-pig, rabbit and pig by 33%, 21% and 15% at 40 min, respectively. Conclusions and implications: The use-dependent inhibition of hHCN4 current by ivabradine probably contributes to its slow developing effect in isolated SAN and right atria and to its increased effectiveness in species with rapid SAN activity. British Journal of Pharmacology (2007) 150, 37–46. doi:10.1038/sj.bjp.0706940

Published

2007

4. Consequences of reduced production of NO on vascular reactivity of porcine coronary arteries after angioplasty: importance of EDHF

Author

Marie Pierre Fournet-Bourguignon, Catherine Thollon, Paul M. Vanhoutte, Delphine Saboureau, Vilaine Jean-Paul, Hélène Reure, and Ludovic Lesage

Subjects

Pharmacology, medicine.medical_specialty, Endothelium-derived hyperpolarizing factor, Endothelium, business.industry, Depolarization, Vasodilation, Anatomy, Iberiotoxin, medicine.anatomical_structure, Endocrinology, Muscle relaxation, Internal medicine, Circulatory system, cardiovascular system, medicine, Sodium nitroprusside, business, medicine.drug

Abstract

The consequences of the reduced production of nitric oxide (NO) by cells from regenerated endothelium were investigated by measuring membrane potential of smooth muscle cells (SMCs), isometric tension and cyclic nucleotides content in porcine coronary arteries with intimal thickening, four weeks following angioplasty. Under basal conditions, SMCs of coronary arteries with regenerated endothelium were depolarized by 10 mV. This depolarization was associated with 82% decreased level of cGMP without alteration in cAMP. Sodium nitroprusside (SNP, 1 μM) repolarized SMCs of the previously denuded coronary arteries. This repolarization was abolished by 1H-[1,2,4]-oxadiazolo[4,3-a]quinoxalin-1-one (ODQ, 10 μM) and not suppressed by glibenclamide (10 μM), iberiotoxin (IbTX, 100 nM) and the combination of charybdotoxin (ChTX, 40 nM) plus apamin (100 nM). Four-aminopyridine (4-AP, 1-5 mM) generated spontaneous rhythmic activities only in coronary arteries with regenerated endothelium which were abolished by SNP. Nevertheless, 4-AP did not suppress the repolarization induced by SNP. In vascular segments with regenerated endothelium, contracted with prostaglandin F2α (PGF2α), relaxation to bradykinin (BK, 30 nM) was unaltered despite a reduced production of cGMP (−70%). Indomethacin (10 μM) plus Nω-nitro-L-arginine (L-NA, 30 μM) reduced relaxation (−12% and −35% for native and regenerated endothelium, respectively) but did not abolish it. The hyperpolarizations induced by BK were not altered by the presence of indomethacin and L-NA and were unchanged in segments with regenerated endothelium. These data are consistent with a contribution of impairment in NO production to the depolarization of SMCs. Nevertheless, EDHF responses to BK are sufficient to maintain a normal relaxation after angioplasty. British Journal of Pharmacology (2002) 136, 1153–1161. doi:10.1038/sj.bjp.0704828

Published

2002

5. Role of gap junctions and EETs in endothelium-dependent hyperpolarization of porcine coronary artery

Author

Paul M. Vanhoutte, M J Gardener, Jean-Paul Vilaine, Catherine Thollon, Arthur H. Weston, Gillian Edwards, and Michel Félétou

Subjects

Pharmacology, medicine.medical_specialty, Endothelium-derived hyperpolarizing factor, Charybdotoxin, business.industry, Bradykinin, Anatomy, Iberiotoxin, Hyperpolarization (biology), Epoxyeicosatrienoic acid, Apamin, Ouabain, chemistry.chemical_compound, Endocrinology, chemistry, Internal medicine, cardiovascular system, medicine, business, medicine.drug

Abstract

1. The effects of endothelium-derived hyperpolarizing factor (EDHF: elicited using substance P or bradykinin) were compared with those of 11,12-EET in pig coronary artery. Smooth muscle cells were usually impaled with microelectrodes through the adventitial surface. 2. Substance P (100 nM) and 11,12-EET (11,12-epoxyeicosatrienoic acid; 3 microM) hyperpolarized endothelial cells in intact arteries. These actions were unaffected by 100 nM iberiotoxin but were abolished by charybdotoxin plus apamin (each 100 nM). 3. Substance P (100 nM) and bradykinin (30 nM) hyperpolarized intact artery smooth muscle; Substance P had no effect after endothelium removal. 11,12-EET hyperpolarized de-endothelialized vessels by 12.6+/-0.3 mV, an effect abolished by 100 nM iberiotoxin. 4. 11,12-EET hyperpolarized intact arteries by 18.6+/-0.8 mV, an action reduced by iberiotoxin, which was ineffective against substance P. Hyperpolarizations to 11, 12-EET and substance P were partially inhibited by 100 nM charybdotoxin and abolished by further addition of 100 nM apamin. 5. 30 microM barium plus 500 nM ouabain depolarized intact artery smooth muscle but responses to substance P and bradykinin were unchanged. 500 microM gap 27 markedly reduced hyperpolarizations to substance P and bradykinin which were abolished in the additional presence of barium plus ouabain. 6. Substance P-induced hyperpolarizations of smooth muscle cells immediately below the internal elastic lamina were unaffected by gap 27, even in the presence of barium plus ouabain. 7. In pig coronary artery, 11,12-EET is not EDHF. Smooth muscle hyperpolarizations attributed to 'EDHF' are initiated by endothelial cell hyperpolarization involving charybdotoxin- (but not iberiotoxin) and apamin-sensitive K(+) channels. This may spread electrotonically via myoendothelial gap junctions but the involvement of an unknown endothelial factor cannot be excluded.

Published

2000

6. Role of gap junctions in the responses to EDHF in rat and guinea-pig small arteries

Author

Michel Félétou, M J Gardener, Catherine Thollon, Gerald E. Edwards, Arthur H. Weston, and Paul M. Vanhoutte

Subjects

Pharmacology, medicine.medical_specialty, Endothelium, business.industry, Carbenoxolone, Gap junction, Depolarization, Hyperpolarization (biology), medicine.anatomical_structure, Endocrinology, Internal medicine, medicine, Myocyte, business, Mesenteric arteries, Phenylephrine, medicine.drug

Abstract

1. In guinea-pig internal carotid arteries with an intact endothelium, acetylcholine (10 microM) and levcromakalim (10 microM) each hyperpolarized the smooth muscle whereas a 5 mM elevation of extracellular K(+) was without effect. 2. Incubation of the carotid artery with the gap junction inhibitors carbenoxolone (100 microM) or gap 27 (500 microM) essentially abolished the hyperpolarization to acetylcholine but it was without effect on that to levcromakalim. Carbenoxolone had no effect on the acetylcholine-induced endothelial cell hyperpolarization but inhibited the smooth muscle hyperpolarization induced by the endothelial cell K(+) channel opener, 1-ethyl-2-benzimidazolinone (600 microM). 3. In rat hepatic and mesenteric arteries with endothelium, carbenoxolone (100 or 500 microM) depolarized the smooth muscle but did not modify hyperpolarizations induced by KCl or levcromakalim. In the mesenteric (but not the hepatic) artery, the acetylcholine-induced hyperpolarization was inhibited by carbenoxolone. 4. Phenylephrine (1 microM) depolarized the smooth muscle cells of intact hepatic and mesenteric arteries, an effect enhanced by carbenoxolone. Gap 27 did not have a depolarizing action. In the presence of phenylephrine, acetylcholine-induced hyperpolarization of both hepatic and mesenteric artery myocytes was partially inhibited by each of the gap junction inhibitors. 5. Collectively, the data suggest that gap junctions play some role in the EDHF (endothelium-derived hyperpolarizing factor) response in rat hepatic and mesenteric arteries. However, in the guinea-pig internal carotid artery, electrotonic propagation of endothelial cell hyperpolarizations via gap junctions may be the sole mechanism underlying the response previously attributed to EDHF.

Published

1999

7. Potassium ions and endothelium-derived hyperpolarizing factor in guinea-pig carotid and porcine coronary arteries

Author

Catherine Thollon, Michel Félétou, Paul M. Vanhoutte, Jean-Paul Vilaine, Jacques Duhault, and Jean-François Quignard

Subjects

Pharmacology, medicine.medical_specialty, Endothelium-derived hyperpolarizing factor, Vascular smooth muscle, Inward-rectifier potassium ion channel, Potassium, chemistry.chemical_element, Hyperpolarization (biology), Ouabain, Potassium channel, Endocrinology, chemistry, Internal medicine, cardiovascular system, medicine, Na+/K+-ATPase, medicine.drug

Abstract

Experiments were designed to determine in two arteries (the guinea-pig carotid and the porcine coronary arteries) whether or not the endothelium-derived hyperpolarizing factor (EDHF) can be identified as potassium ions, and to determine whether or not the inwardly rectifying potassium current and the Na+/K+ pump are involved in the hyperpolarization mediated by EDHF. The membrane potential of vascular smooth muscle cells was recorded with intracellular microelectrodes in the presence of Nω-L-nitro-arginine (L-NA) and indomethacin. In vascular smooth muscle cells of guinea-pig carotid and porcine coronary arteries, acetylcholine and bradykinin induced endothelium-dependent hyperpolarizations (−18±1 mV, n=39 and −19±1 mV, n=7, respectively). The hyperpolarizations were not affected significantly by ouabain (1 μM), barium chloride (up to 100 μM) or the combination of ouabain plus barium. In both arteries, increasing extracellular potassium concentration by 5 or 10 mM induced either depolarization or in a very few cases small hyperpolarizations which never exceeded 2 mV. In isolated smooth muscle cells of the guinea-pig carotid artery, patch-clamp experiments shows that only 20% of the vascular smooth muscle cells expressed inwardly rectifying potassium channels. The current density recorded was low (0.5±0.1 pA pF−1, n=8). These results indicate that, in two different vascular preparations, barium sensitive-inwardly rectifying potassium conductance and the ouabain sensitive-Na+/K+ pump are not involved in the EDHF-mediated hyperpolarization. Furthermore, potassium did not mimic the effect of EDHF pointing out that potassium and EDHF are not the same entity in those arteries. British Journal of Pharmacology (1999) 127, 27–34; doi:10.1038/sj.bjp.0702493

Published

1999

8. Alteration of Endothelium-Dependent Hyperpolarizations in Porcine Coronary Arteries With Regenerated Endothelium

Author

Jean P. Bidouard, Vilaine Jean-Paul, Paul M. Vanhoutte, Catherine Thollon, Christine Cambarrat, Nicole Villeneuve, and Isabelle Delescluse

Subjects

Male, Serotonin, Endothelium-derived hyperpolarizing factor, medicine.medical_specialty, Endothelium, Swine, Physiology, Bradykinin, Membrane Potentials, chemistry.chemical_compound, Internal medicine, Animals, Regeneration, Medicine, biology, business.industry, Endothelium-derived relaxing factor, Arteries, Coronary Vessels, Electrophysiology, Nitric oxide synthase, Coronary arteries, medicine.anatomical_structure, Endocrinology, chemistry, Circulatory system, cardiovascular system, biology.protein, Cardiology, Female, Endothelium, Vascular, Cardiology and Cardiovascular Medicine, business, Blood vessel

Abstract

Abstract —The present study was designed to test the ability of regenerated endothelium to evoke endothelium-dependent hyperpolarizations. Hyperpolarizations induced by serotonin and bradykinin were compared in isolated porcine coronary arteries with native or regenerated endothelium, 4 weeks after balloon endothelial denudation. The experiments were performed in the presence of inhibitors of nitric oxide synthase ( N ω -nitro- l -arginine) and cyclooxygenase (indomethacin). The transmembrane potential was measured using conventional glass microelectrodes. Smooth muscle cells from coronary arteries with regenerated endothelium were depolarized in comparison with control coronary arteries from the same hearts. Spontaneous membrane potential oscillations of small amplitude or spikes were observed in some of these arteries but never in arteries with native endothelium. In coronary arteries from control pigs, both serotonin and bradykinin induced concentration-dependent hyperpolarizations. In the presence of ketanserin, 10 μmol/L serotonin induced a transient hyperpolarization in control coronary arteries. Four weeks after balloon denudation, the response to serotonin was normal in arteries with native endothelium, but the hyperpolarization was significantly lower in coronary arteries with regenerated endothelium. In control arteries, the endothelium-dependent hyperpolarization obtained with bradykinin (30 nmol/L) was reproducible. Four weeks after balloon denudation, comparable hyperpolarizations were obtained in coronary arteries with native endothelium. By contrast, in arteries with regenerated endothelium, the hyperpolarization to bradykinin became voltage-dependent. In the most depolarized cells, the hyperpolarization to bradykinin was augmented. The changes in resting membrane potential and the alteration in endothelium-dependent hyperpolarizations observed in the coronary arteries with regenerated endothelium may contribute to the reduced response to serotonin and the unchanged relaxation to bradykinin described previously.

Published

1999

9. Cannabinoid CB1 receptor and endothelium-dependent hyperpolarization in guinea-pig carotid, rat mesenteric and porcine coronary arteries

Author

Paul M. Vanhoutte, Jean-Paul Vilaine, Jacques Duhault, Thierry Chataigneau, Michel Félétou, Catherine Thollon, and Nicole Villeneuve

Subjects

Pharmacology, Membrane potential, medicine.medical_specialty, Vascular smooth muscle, Chemistry, Depolarization, Hyperpolarization (biology), Apamin, chemistry.chemical_compound, Endocrinology, medicine.anatomical_structure, Internal medicine, medicine, Cannabinoid receptor antagonist, Mesenteric arteries, Acetylcholine, medicine.drug

Abstract

1. The purpose of these experiments was to determine whether or not the endothelium-dependent hyperpolarizations of the vascular smooth muscle cells (observed in the presence of inhibitors of nitric oxide synthase and cyclo-oxygenase) can be attributed to the production of an endogenous cannabinoid. 2. Membrane potential was recorded in the guinea-pig carotid, rat mesenteric and porcine coronary arteries by intracellular microelectrodes. 3. In the rat mesenteric artery, the cannabinoid receptor antagonist, SR 141716 (1 microM), did not modify either the resting membrane potential of smooth muscle cells or the endothelium-dependent hyperpolarization induced by acetylcholine (1 microM) (17.3 +/- 1.8 mV, n = 4 and 17.8 +/- 2.6 mV, n = 4, in control and presence of SR 141716, respectively). Anandamide (30 microM) induced a hyperpolarization of the smooth muscle cells (12.6 +/- 1.4 mV, n = 13 and 2.0 +/- 3.0 mV, n = 6 in vessels with and without endothelium, respectively) which could not be repeated in the same tissue, whereas acetylcholine was still able to hyperpolarize the preparation. The hyperpolarization induced by anandamide was not significantly influenced by SR 141716 (1 microM). HU-210 (30 microM), a synthetic CB1 receptor agonist, and palmitoylethanolamide (30 microM), a CB2 receptor agonist, did not influence the membrane potential of the vascular smooth muscle cells. 4. In the rat mesenteric artery, the endothelium-dependent hyperpolarization induced by acetylcholine (1 microM) (19.0 +/- 1.7 mV, n = 6) was not altered by glibenclamide (1 microM; 17.7 +/- 2.3 mV, n = 3). However, the combination of charybdotoxin (0.1 microM) plus apamin (0.5 microM) abolished the acetylcholine-induced hyperpolarization and under these conditions, acetylcholine evoked a depolarization (7.7 +/- 2.7 mV, n = 3). The hyperpolarization induced by anandamide (30 microM) (12.6 +/- 1.4 mV, n = 13) was significantly inhibited by glibenclamide (4.0 +/- 0.4 mV, n = 4) but not significantly affected by the combination of charybdotoxin plus apamin (17.3 +/- 2.3 mV, n = 4). 5. In the guinea-pig carotid artery, acetylcholine (1 microM) evoked endothelium-dependent hyperpolarization (18.8 +/- 0.7 mV, n = 15). SR 141716 (10 nM to 10 microM), caused a direct, concentration-dependent hyperpolarization (up to 10 mV at 10 microM) and a significant inhibition of the acetylcholine-induced hyperpolarization. Anandamide (0.1 to 3 microM) did not influence the membrane potential. At a concentration of 30 microM, the cannabinoid agonist induced a non-reproducible hyperpolarization (5.6 +/- 1.3 mV, n = 10) with a slow onset. SR 141716 (1 microM) did not affect the hyperpolarization induced by 30 microM anandamide (5.3 +/- 1.5 mV, n = 3). 6. In the porcine coronary artery, anandamide up to 30 microM did not hyperpolarize or relax the smooth muscle cells. The endothelium-dependent hyperpolarization and relaxation induced by bradykinin were not influenced by SR 141716 (1 microM). 7. These results indicate that the endothelium-dependent hyperpolarizations, observed in the guinea-pig carotid, rat mesenteric and porcine coronary arteries, are not related to the activation of cannabinoid CB1 receptors.

Published

1998

10. REDUCED NO BIOAVAILABILITY, OXIDATIVE STRESS AND ALTERATION OF CALCIUM HOMEOSTASIS IN VASCULAR ENDOTHELIUM FROM DIABETIC MICE

Author

MP Bourguignon, S Banquet, I Lapret, Catherine Thollon, A Garry, Jean-Paul Vilaine, E Royere, S Simonet, Nicole Villeneuve, C Crespo, and W Gosgnach

Subjects

Calcium metabolism, medicine.medical_specialty, Chemistry, Diabetic mouse, medicine.disease_cause, Biochemistry, Vascular endothelium, No bioavailability, Endocrinology, Internal medicine, Genetics, medicine, Molecular Biology, Oxidative stress, Biotechnology

Published

2013

11. KEY ROLE OF TRPC3 CHANNELS IN CALCIUM HOMEOSTASIS ALTERATION RELATED TO NO DEFICIENCY IN AGED PORCINE ENDOTHELIAL CELLS

Author

Catherine Thollon, MP Bourguignon, E Royere, Nicole Villeneuve, Jean-Paul Vilaine, S Banquet, A Garry, and W Gosgnach

Subjects

Calcium metabolism, TRPC3, Chemistry, Genetics, Key (cryptography), Molecular Biology, Biochemistry, Biotechnology, Cell biology

Published

2013

12. Monohydroperoxidized fatty acids but not 4-hydroxynonenal induced acute cardiac cell damage

Author

Jean-Paul Vilaine, Catherine Thollon, Frédéric Robin, Christine Cambarrat, Jean-Pierre Iliou, Christine Jacquemin, and Nicole Villeneuve

Subjects

Leukotrienes, Lipid Peroxides, Photochemistry, Oxidative phosphorylation, medicine.disease_cause, Biochemistry, 4-Hydroxynonenal, Lipid peroxidation, chemistry.chemical_compound, Physiology (medical), Lactate dehydrogenase, medicine, Animals, Rats, Wistar, Fragmentation (cell biology), Cells, Cultured, chemistry.chemical_classification, Aldehydes, Reactive oxygen species, Arachidonic Acid, Chemistry, Fatty Acids, alpha-Linolenic Acid, Heart, Hydrogen Peroxide, Papillary Muscles, Atrial Function, Myocardial Contraction, Biomechanical Phenomena, Rats, Electrophysiology, Arachidonic acid, Lipid Peroxidation, Oxidative stress

Abstract

Unsaturated fatty acids constitutive of cardiac membranal lipid matrix are one of the primary targets for reactive oxygen species generated during ischemia-reperfusion cycle. Lipid peroxidation is a cascade of intricate reactions involving the successive formations of fatty acids hydroperoxides and aldehydic compounds such as alkenals derived from the oxidative fragmentation of these hydroperoxides. The potential deleterious effects of different classes of lipid peroxidation products on cardiac cells were compared using three in vitro approaches: (i) cardiomyocyte integrity, (ii) electromechanical activity of papillary muscle, and (iii) atrial contractility. The following products of lipid peroxidation were tested: (i) photoperoxidized arachidonic acid pooling hydroperoxidized derivatives and aldehydic compounds, (ii) fatty acids hydroperoxides, and (iii) 4-hydroxynonenal, a characteristic alkenal derived from the oxidative fragmentation of hydroperoxidized n-6 fatty acids. Only fatty acids hydroperoxides induced drastic loss of cellular integrity and severe disturbances in electromechanical activity of cardiomyocytes. 4-hydroxynonenal induced only a slight leak of lactate dehydrogenase at high concentrations and did not modify the electromechanical behavior of cardiac preparations. Under our conditions, monohydroperoxidized fatty acids but not 4-hydroxynonenal induced acute cardiac cell damages. In conclusion, lipid hydroperoxides can be considered both as markers of oxidative injury and relay sources of oxidative stress.

Published

1995

13. Electrophysiological effects of S 16257, a novel sino-atrial node modulator, on rabbit and guinea-pig cardiac preparations: comparison with UL-FS 49

Author

Christine Cambarrat, Joel Vian, Peglion Jean-Louis, Catherine Thollon, Vilaine Jean-Paul, and Jean-François Prost

Subjects

Male, medicine.medical_specialty, Cardiotonic Agents, Sino-atrial node, Guinea Pigs, Action Potentials, In Vitro Techniques, Purkinje Fibers, Guinea pig, Heart Rate, Internal medicine, medicine, Animals, Repolarization, Ivabradine, Sinoatrial Node, Pharmacology, Chemistry, Direct effects, Cardiac Pacing, Artificial, Cardiovascular Agents, Heart, Benzazepines, Papillary Muscles, Diastolic depolarization, Electrophysiology, Endocrinology, Action potential duration, Rabbits, Intracellular, Research Article

Abstract

1. S 16257 is a new bradycardic agent. Its electropharmacological profile has been compared to that of the known bradycardic compound UL-FS 49 (Zatebradine). Intracellular recordings of action potentials (APs) were performed with conventional glass microelectrodes. 2. In the rabbit isolated sino-atrial node (SAN) tissue, S 16257 and UL-FS 49 (1 microM, 3 microM and 10 microM) were equipotent in slowing spontaneous APs firing predominantly by decreasing the rate of diastolic depolarization (at 3 microM, -23.8 +/- 3.9% and -27.9 +/- 2.6%, respectively). For the two compounds a maximal effect was obtained at 3 microM. In these preparations, action potential duration at 50% of total repolarization (APD50) was more affected by UL-FS 49 than S 16257 at any concentration tested (at 3 microM, +8.9 +/- 2.9% and +29.1 +/- 3.7% for S 16257 and UL-FS 49, respectively; Por = 0.01). 3. To estimate the direct effects on AP duration, driven cardiac preparations were exposed to these agents. In guinea-pig papillary muscles, paced at a frequency of 1 Hz, increasing concentrations of S 16257 or UL-FS 49 (0.1 to 10 microM, 30 min exposure for each concentration) slightly prolonged AP repolarization. This prolongation was more marked for UL-FS 49 (at 1 microM, +6.1 +/- 0.6% and +11.2 +/- 1.3% elevation of APD50, for S 16257 and UL-FS 49, respectively). 4. Application of UL-FS 49 (3 microM) to rabbit Purkinje fibres, triggered at a frequency of 0.25 Hz, induced a marked prolongation of APD50 and APD90 (+149.4 +/- 51.2% and +86.0 +/- 15.4%, respectively). S 16257 (3 MicroM) induced only a weak prolongation of AP (+ 14.1 +/- 5.0% and + 14.8 +/- 3.3% for APD50 and APD90, respectively) significantly smaller than in the case of UL-FS 49.5. These results show that S 16257 slows the rate of spontaneous AP firing in isolated SAN mainly by a reduction of the diastolic depolarization of the cells, which suggests an inhibition of the pace-maker current (If). S 16257 and UL-FS 49 are equipotent in their bradycardic effect but S 16257 is more specific as it induces less increase in myocardial repolarization time.

Published

1994

14. I(f) inhibition in cardiovascular diseases

Author

Catherine, Thollon and Jean-Paul, Vilaine

Subjects

Heart Failure, Clinical Trials as Topic, Adrenergic beta-Antagonists, Guinea Pigs, Cyclic Nucleotide-Gated Cation Channels, Coronary Artery Disease, Drugs, Investigational, Benzazepines, Calcium Channel Blockers, Mice, Dogs, Heart Rate, Models, Animal, Animals, Humans, Ivabradine, Rabbits, Sinoatrial Node

Abstract

Heart rate (HR) is determined by the pacemaker activity of cells from the sinoatrial node (SAN), located in the right atria. Spontaneous electrical activity of SAN cells results from a diastolic depolarization (DD). Despite controversy in the exact contribution of funny current (I(f)) in pacemaking, it is a major contributor of DD. I(f) is an inward Na(+)/K(+) current, activated upon hyperpolarization and directly modulated by cyclic adenosine monophosphate. The f-proteins are hyperpolarization-activated cyclic nucleotide-gated channels, HCN4 being the main isoform of SAN. Ivabradine (IVA) decreases DD and inhibits I(f) in a use-dependent manner. Under normal conditions IVA selectively reduces HR and limits exercise-induced tachycardia, in animals and young volunteers. Reduction in HR with IVA both decreases myocardial oxygen consumption and increases its supply due to prolongation of diastolic perfusion time. In animal models and in human with coronary artery disease (CAD), IVA has anti-anginal and anti-ischemic efficacy, equipotent to classical treatments, β-blockers, or calcium channel blockers. As expected from its selectivity for I(f), the drug is safe and well tolerated with minor visual side effects. As a consequence, IVA is the first inhibitor of I(f) approved for the treatment of stable angina. Available clinical data indicate that IVA could improve the management of stable angina in all patients including those treated with β-blockers. As chronic elevation of resting HR is an independent predictor of mortality, pure HR reduction by inhibition of I(f) could, beyond the control of anti-anginal symptoms, improve the prognosis of CAD and heart failure; this therapeutic potential is currently under evaluation with IVA.

Published

2010

15. If Inhibition in Cardiovascular Diseases

Author

Catherine Thollon and Jean-Paul Vilaine

Subjects

Tachycardia, medicine.medical_specialty, Sinoatrial node, business.industry, Diastolic depolarization, Hyperpolarization (biology), medicine.disease, Coronary artery disease, medicine.anatomical_structure, Internal medicine, Heart failure, Heart rate, medicine, Cardiology, sense organs, medicine.symptom, business, Ivabradine, medicine.drug

Abstract

Heart rate (HR) is determined by the pacemaker activity of cells from the sinoatrial node (SAN), located in the right atria. Spontaneous electrical activity of SAN cells results from a diastolic depolarization (DD). Despite controversy in the exact contribution of funny current (I(f)) in pacemaking, it is a major contributor of DD. I(f) is an inward Na(+)/K(+) current, activated upon hyperpolarization and directly modulated by cyclic adenosine monophosphate. The f-proteins are hyperpolarization-activated cyclic nucleotide-gated channels, HCN4 being the main isoform of SAN. Ivabradine (IVA) decreases DD and inhibits I(f) in a use-dependent manner. Under normal conditions IVA selectively reduces HR and limits exercise-induced tachycardia, in animals and young volunteers. Reduction in HR with IVA both decreases myocardial oxygen consumption and increases its supply due to prolongation of diastolic perfusion time. In animal models and in human with coronary artery disease (CAD), IVA has anti-anginal and anti-ischemic efficacy, equipotent to classical treatments, β-blockers, or calcium channel blockers. As expected from its selectivity for I(f), the drug is safe and well tolerated with minor visual side effects. As a consequence, IVA is the first inhibitor of I(f) approved for the treatment of stable angina. Available clinical data indicate that IVA could improve the management of stable angina in all patients including those treated with β-blockers. As chronic elevation of resting HR is an independent predictor of mortality, pure HR reduction by inhibition of I(f) could, beyond the control of anti-anginal symptoms, improve the prognosis of CAD and heart failure; this therapeutic potential is currently under evaluation with IVA.

Published

2010

16. Status of the endothelium-derived hyperpolarizing factor pathway in coronary arteries after heterotopic heart transplantation

Author

Paul M. Vanhoutte, Catherine Thollon, Jean-Paul Vilaine, Marie-Claude Aubin, Nicole Villeneuve, Olivier Malo, and Louis P. Perrault

Subjects

Pulmonary and Respiratory Medicine, Graft Rejection, Male, Endothelium-derived hyperpolarizing factor, medicine.medical_specialty, Transplantation, Heterotopic, Endothelium, Swine, medicine.medical_treatment, Action Potentials, Severity of Illness Index, chemistry.chemical_compound, Internal medicine, medicine, Animals, Endothelial dysfunction, Heart transplantation, Transplantation, business.industry, Hyperpolarization (biology), medicine.disease, Coronary Vessels, Coronary arteries, Vasodilation, Disease Models, Animal, medicine.anatomical_structure, chemistry, Cardiology, Heart Transplantation, Surgery, Female, Endothelium, Vascular, Cardiology and Cardiovascular Medicine, business, Cromakalim

Abstract

Background After the first year of transplantation, the major limitation to long-term survival is the development of graft coronary vasculopathy, characterized by a pathologic activation of the endothelium with an attendant loss of its regulatory properties on homeostasis of the vascular wall. The present study was designed to evaluate the integrity of coronary vascular relaxations attributed to the endothelium-derived hyperpolarizing factor (EDHF) and to study hyperpolarization of smooth muscle cells after heterotopic heart transplantation. Methods Six weeks after heart transplantation in a porcine model, vascular reactivity studies of control, native and allograft epicardial coronary artery rings were performed in standard organ chamber experiments. Moreover, membrane potential measurements were made with intracellular microelectrodes in rings of native and allograft coronary arteries. Results There was a significant decrease in endothelium-dependent relaxations to 5-hydroxytryptamine (5-HT), high doses of bradykinin (BK) alone and BK plus N -ω-nitro- L -arginine ( L -NNA) in rings from allograft compared to native, whereas the variation was significantly increased in response to cromakalim, a K + -ATP channel opener. Electrical and mechanical recordings showed no alteration in the resting membrane potential of smooth muscle cells, depolarization during contraction to prostaglandin F 2α (PGF 2α ), or hyperpolarization in the presence of BK + L -NNA in rings of allograft vs native. Conclusions In this swine model of heart transplantation, part of the reduction in endothelium-dependent relaxations to BK may be attributed to an alteration in the activity of EDHF. This impairment of EDHF-mediated relaxations may compound the endothelial dysfunction preceding the development of coronary graft vasculopathy.

Published

2006

17. Consequences of reduced production of NO on vascular reactivity of porcine coronary arteries after angioplasty: importance of EDHF

Author

Catherine, Thollon, Marie Pierre, Fournet-Bourguignon, Delphine, Saboureau, Ludovic, Lesage, Hélène, Reure, Paul M, Vanhoutte, and Jean Paul, Vilaine

Subjects

Nitroprusside, Potassium Channels, Swine, Muscle Relaxation, Vasodilator Agents, In Vitro Techniques, Bradykinin, Dinoprost, Nitric Oxide, Coronary Vessels, Muscle, Smooth, Vascular, Membrane Potentials, Biological Factors, Isometric Contraction, Papers, cardiovascular system, Animals, Regeneration, Nitric Oxide Donors, Endothelium, Vascular, 4-Aminopyridine, Angioplasty, Balloon, Coronary, Cyclic GMP

Abstract

1 The consequences of the reduced production of nitric oxide (NO) by cells from regenerated endothelium were investigated by measuring membrane potential of smooth muscle cells (SMCs), isometric tension and cyclic nucleotides content in porcine coronary arteries with intimal thickening, four weeks following angioplasty. 2 Under basal conditions, SMCs of coronary arteries with regenerated endothelium were depolarized by 10 mV. This depolarization was associated with 82% decreased level of cGMP without alteration in cAMP. 3 Sodium nitroprusside (SNP, 1 micro M) repolarized SMCs of the previously denuded coronary arteries. This repolarization was abolished by 1H-[1,2,4]-oxadiazolo[4,3-a]quinoxalin-1-one (ODQ, 10 micro M) and not suppressed by glibenclamide (10 micro M), iberiotoxin (IbTX, 100 nM) and the combination of charybdotoxin (ChTX, 40 nM) plus apamin (100 nM). 4 Four-aminopyridine (4-AP, 1-5 mM) generated spontaneous rhythmic activities only in coronary arteries with regenerated endothelium which were abolished by SNP. Nevertheless, 4-AP did not suppress the repolarization induced by SNP. 5 In vascular segments with regenerated endothelium, contracted with prostaglandin F(2alpha) (PGF(2alpha)), relaxation to bradykinin (BK, 30 nM) was unaltered despite a reduced production of cGMP (-70%). Indomethacin (10 micro M) plus N(omega)-nitro-L-arginine (L-NA, 30 micro M) reduced relaxation (-12% and -35% for native and regenerated endothelium, respectively) but did not abolish it. 6 The hyperpolarizations induced by BK were not altered by the presence of indomethacin and L-NA and were unchanged in segments with regenerated endothelium. 7 These data are consistent with a contribution of impairment in NO production to the depolarization of SMCs. Nevertheless, EDHF responses to BK are sufficient to maintain a normal relaxation after angioplasty.

Published

2002

18. Stereospecific in vitro and in vivo effects of the new sinus node inhibitor (+)-S 16257

Author

Jean-Paul Vilaine, Joel Vian, Hélène Reure, Jean-Louis Peglion, Christine Cambarrat, Jean-Pierre Bidouard, Ludovic Lesage, Catherine Thollon, and Isabelle Delescluse

Subjects

Chronotropic, Male, medicine.medical_specialty, Cardiotonic Agents, Purkinje fibers, Swine, Guinea Pigs, Action Potentials, Purkinje Fibers, Electrocardiography, In vivo, Biological Clocks, Heart Rate, Internal medicine, Heart rate, medicine, Repolarization, Animals, Ivabradine, Sinoatrial Node, Pharmacology, Chemistry, Stereoisomerism, Diastolic depolarization, Benzazepines, Papillary Muscles, In vitro, medicine.anatomical_structure, Endocrinology, Rabbits, Enantiomer

Abstract

The effects of the two isomers, (+)-S 16257 and (-)-S 16260, of a new bradycardic agent, (+/-)-S 15544 (7,8-dimethoxy 3-[3-[[(4.5-dimethoxybenzocyclobutan-1-yl)methyl] methylamino]propyl]1,3,4,5-tetrahydro-2H-3-benzazepin-2-one), were compared in vitro and in vivo on cardiac spontaneous rate and repolarization time. In the isolated rabbit sino-atrial node, the three compounds (3 microM) were equi-effective to reduce the action potential firing rate. In anesthetized pigs, both isomers (0.03, 0.1, 0.3 and 1 mg kg(-1) i.v.) were equipotent to reduce heart rate. For all compounds, the negative chronotropic effect resulted from a reduction in the slope of diastolic depolarization of pacemaker cells. In sino-atrial node cells, (-)-S 16260 (3 microM) increased action potential duration while (+)-S 16257 had a smaller effect. In driven guinea-pig papillary muscles exposed to increasing concentrations of compounds (0.1 to 10 microM) a small prolongation of action potential duration was observed. This prolongation was more marked in rabbit Purkinje fibers stimulated at a low rate. In all cardiac preparations the highest prolongation was observed with (-)-S 16260. In vivo, (-)-S 16260 prolonged QTc at the two highest doses tested while (+)-S 16257 had no effect. In conclusion, resolution of (+/-)-S 15544 into its two enantiomers yielded compounds with the same bradycardic effects. Of the isomers, (+)-S 16257 has an increased specificity with minimal direct effect on action potential repolarization.

Published

1998

19. Nature of the cardiomyocyte injury induced by lipid hydroperoxides

Author

Christine Cambarrat, Jean Pierre Iliou, Vilaine Jean-Paul, Frédéric Robin, and Catherine Thollon

Subjects

medicine.medical_specialty, Leukotrienes, Lipid Peroxides, Free Radicals, Physiology, medicine.drug_class, Guinea Pigs, chemistry.chemical_element, 4,5-Dihydro-1-(3-(trifluoromethyl)phenyl)-1H-pyrazol-3-amine, Action Potentials, Calcium channel blocker, Calcium, medicine.disease_cause, Calcium in biology, Membrane Potentials, chemistry.chemical_compound, Necrosis, Piperidines, Physiology (medical), Internal medicine, medicine, Myocyte, Animals, Vasoconstrictor Agents, Benzothiazoles, Rats, Wistar, Cells, Cultured, Respiratory Burst, Dose-Response Relationship, Drug, L-Lactate Dehydrogenase, Chemistry, Ryanodine receptor, Ryanodine, Calcium channel, Myocardium, Free Radical Scavengers, Calcium Channel Blockers, Rats, Thiazoles, Endocrinology, Arachidonic acid, Amlodipine, Cardiology and Cardiovascular Medicine, Oxidative stress

Abstract

As a result of oxidative stress to membrane lipid matrix, the peroxidation of polyunsaturated fatty acids induced the transient formation of lipid hydroperoxides (ROOH). The aim of this study was to evaluate the damaging effects of ROOH on the cardiac cell and the link between the alterations observed and intracellular calcium overload.Necrosis of cultured rat cardiac cells was determined by measuring the release of lactate dehydrogenase (LDH). In guinea-pig papillary muscles, action potential (AP) and isometric tension were recorded with standard microelectrodes and a transducer, respectively. The reactive oxygen species (ROS) scavenging properties of tested compounds were determined using a cell-free model of lipid photoperoxidation.15(S)-HpETE (15(S)-hydroperoxyeicosatetraenoic acid), an arachidonic acid hydroperoxide, induced a concentration-dependent loss of cardiomyocytes membrane integrity. The release of LDH induced by 15(s)-HpETE (30 microM) was prevented by a ROS scavenger, BW755C (10 microM), but not by a sarcolemmal calcium channel blocker, Amlodipine (10 microM), or a calcium overload protective agent, R56865 (10 microM). Cardiomyocytes necrosis induced by calcium paradox was prevented by Amlodipine (10 microM) and R56865 (10 microM), but not by BW755C (10 microM). Superfusion of papillary muscles with 15(S)-HpETE (20 microM) induced a membrane depolarization and a marked reduction in the AP amplitude and duration. Concomitantly, a transient positive inotropic effect and a progressive rise in diastolic tension were observed. These alterations were maximal after 15 min and associated with delayed after-depolarizations (DADs) and after-contractions. Every alteration was inhibited by BW755C (10 microM) and R56865 (30 microM), but not by Amlodipine (1 microM). Ryanodine (1 microM), a blocker of sarcoplasmic reticulum calcium channel, only prevented the appearance of DADs and after-contractions. Only BW755C exhibited ROS scavenging properties.ROOH induced enzyme leakage and electromechanical alterations in cardiac cells. These effects of ROOH implicated oxidative mechanisms and resulted in an intracellular calcium overload.

Published

1995

20. Impact of hypercholesterolemia on endothelium function after myocardial ischemia–reperfusion in aged downsized model of pig with defective LDL receptor

Author

Jean-Paul Vilaine, Laurence Lucats, Marie-Pierre Bourguignon, Léa Guillaume, Christine Crespo, Isabelle Lapret, Catherine Thollon, Ludovic Lesage, Hélène Reure, Serge Simonet, Aurélie Helbert, Nicole Villeneuve, and Jean-Philippe Guillaumin

Subjects

Cancer Research, medicine.medical_specialty, Endothelium, Physiology, business.industry, Clinical Biochemistry, Familial hypercholesterolemia, medicine.disease, Biochemistry, Constriction, Coronary arteries, medicine.anatomical_structure, Internal medicine, cardiovascular system, medicine, Cardiology, Myocardial infarction, Endothelial dysfunction, medicine.symptom, business, Coronary atherosclerosis, Vasoconstriction

Abstract

The aim of this study was to evaluate the endothelium function after post-ischemic episodes in the context of hypercholesterolemia. A familial hypercholesterolemia downsized pig model (FBM) described as human-like coronary atherosclerosis was used. In FBM groups, plasma LDL-cholesterol was significantly increased by 3-fold, without changes of HDL-cholesterol and triglycerides. Myocardial ischemia (30 min)/reperfusion (3 h) was performed on female (28-month-old) control and hypercholesterolemic pigs by occlusion of the left anterior descending coronary artery. Regional myocardial blood flow (RMBF), assessed by microspheres, returned to baseline value after post-ischemic hyperemia in the normal group, conversely post-ischemic hyperemia was blunted and RMBF was 30% of its baseline value in the FBM group. At the end of the experiment, the heart was isolated and 300 μm-diameter coronary arteries were dissected and perfused at a constant pressure. Endothelial function of segments obtained from ischemic and non-ischemic zones were compared. Bradykinin-induced endothelium dependent dilations were not modified by hypercholesterolemia or/and ischemia–reperfusion. Conversely, flow-mediated dilations (FMD) measured in non-ischemic microvessels were decreased by 30% in the FBM compared to normocholesterolemic pigs. Moreover, after ischemia-reperfusion, FMD were slightly reduced in control animals while constriction replaced dilation in FBM pigs. This vasoconstriction is in perfect agreement with the default of reperfusion illustrated by low regional myocardial blood flow. This study shows that hypercholesterolemia as well as endothelial dysfunction actively participate to the so called “no-reflow phenomena” after acute myocardial infarction.

Published

2012

21. GTPCH Serine81 phosphorylation modulates GTPCH–GFRP complex formation and GTPCH activity in aged endothelial cells under static and shear stress conditions

Author

Willy Gosgnach, Jean-Paul Vilaine, Emilie Royere, Nathalie Carpentier, Cyril Briant, Nicole Villeneuve, Catherine Thollon, and Marie-Pierre Bourguignon

Subjects

Regulation of gene expression, chemistry.chemical_classification, Cancer Research, medicine.medical_specialty, Endothelium, Physiology, Clinical Biochemistry, Complex formation, Biology, medicine.disease, Biochemistry, medicine.anatomical_structure, Endocrinology, Enzyme, chemistry, Internal medicine, medicine, Phosphorylation, Endothelial dysfunction

Abstract

In dysfunctional endothelium, the decreased BH4 production is attributed to a reduced GTPCH activity although molecular mechanisms involved are not yet clearly elucidated. Phosphorylation at serine81 site (Ser81-P) and interaction with the feedback regulatory protein GFRP are two mechanisms that have been described to modulate GTPCH activity. In this study, we demonstrated in aged endothelial cells, a model of endothelial dysfunction as shown by the decreased NOS3 activity (−75%) and cGMP production (−50%), that BH4 production and GTPCH activity were decreased (42% and 54%, respectively). In parallel, the GTPCH–GFRP complex was increased (25%) while the ser81-P-GTPCH form was decreased (−80%) compared to native cells. This indicated that most of the GTPCH protein (74%) was associated with GFRP in aged endothelial cells while the phosphorylated form was never found to be linked with this regulatory protein. The role of GTPCH phosphorylation in the interaction of GTPCH and GFRP was further demonstrated when using sanguinarine, a PP2C inhibitor, which raised GTPCH phosphorylation by 58% and reduced complex formation by 18%. Under physiological shear stress (SS), which has already been shown to increase GTPCH activity, the phosphorylation of this enzyme first increased transiently (64%) and was then followed by a sustained dissociation of GTPCH–GFRP complex (−30%). These results suggest that GTPCH activity (in static conditions or under SS) first depends on its phosphorylation which then dissociates GTPCH–GFRP complex in dysfunctional endothelial cells.

Published

2012

22. Protective effect of S12340 on cardiac cells exposed to oxidative stress

Author

Albert Lenaers, Gilbert Regnier, Catherine Thollon, Frédéric Robin, Christine Cambarrat, Jean-Paul Vilaine, Claude Guillonneau, and Jean-Pierre Iliou

Subjects

Male, Xanthine Oxidase, Antioxidant, medicine.medical_treatment, Guinea Pigs, Myocardial Reperfusion Injury, Oxidative phosphorylation, Arachidonic Acids, Toxicology, medicine.disease_cause, Antioxidants, Lipid peroxidation, chemistry.chemical_compound, Necrosis, medicine, Animals, Spiro Compounds, Rats, Wistar, Xanthine oxidase, Cells, Cultured, Pharmacology, chemistry.chemical_classification, Reactive oxygen species, Chemistry, Papillary Muscles, medicine.disease, Pollution, Molecular biology, Rats, Probucol, Biochemistry, Hypoxanthines, Arachidonic acid, Lipid Peroxidation, Reperfusion injury, Oxidative stress

Abstract

Oxidative stress induced by reactive oxygen species is one aspect of the deleterious mechanisms involved in myocardial post-ischemic reperfusion injury. The antioxidant properties of the new molecule S12340 (8-[3-(3,5-diterbutyl-4-hydroxyphenyl-thio)propyl]-1-oxa-2- oxo-3,8-diazaspiro[4.5]decane) were evaluated using three successive in vitro approaches mimicking the cardiac cell damages induced by reactive oxygen species released into the reperfused myocardium. (i) The effects of S12340 on lipid peroxidation were evaluated using an original cell-free model of non-enzymatic peroxidation of 1.32 mM arachidonic acid induced by reactive oxygen species generated photochemically. S12340 (13.2 microM) inhibited by 29% the rate of oxidative fragmentation of monohydroperoxidized arachidonic acid into aldehydic products. (ii) S12340 (10 microM) inhibited by 96% and 58% the oxidative necrosis of cultured rat cardiomyocytes induced by xanthine oxidase (20 mU/ml) and monohydroperoxidized arachidonic acid (30 microM), respectively. (iii) Superfusion of guinea-pig papillary muscle with monohydroperoxidized arachidonic acid (20 microM) resulted in marked alterations of their electrophysiological and mechanical activities. These modifications, maximal 15-17 min after the addition of lipid hydroperoxide, were completely abolished by S12340 (30 microM).

Published

1993