Yves Tourneur
Universidade Federal de Pernambuco, Nutrição, Faculty Member
The aim of the authors' study was to provide an efficient computer automated method for real time determination of the passive properties of voltage clamped cells with the smallest possible stimulation amplitude. The method had to be... more
The aim of the authors' study was to provide an efficient computer automated method for real time determination of the passive properties of voltage clamped cells with the smallest possible stimulation amplitude. The method had to be able to determine a wide range of time constants. The authors applied the correlation technique with a binary noise generator. This technique provides
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To evaluate the capture of nanoparticles (quantum dots [QDs], fluorospheres) by nonbeating mouse cardiac cells (HL1-NB) cultured without or with 7-ketocholesterol (7KC) found at an increased level in the plasma of atherosclerotic patients... more
To evaluate the capture of nanoparticles (quantum dots [QDs], fluorospheres) by nonbeating mouse cardiac cells (HL1-NB) cultured without or with 7-ketocholesterol (7KC) found at an increased level in the plasma of atherosclerotic patients and to simultaneously analyze their cytotoxic, proinflammatory and oxidative properties. Flow cytometry (FCM), confocal laser scanning microscopy and subsequent factor analysis image processing were used to characterize the uptake of nanoparticles and to define their cytotoxicity, evaluated by enhanced permeability to SYTOX Green, release of lactate dehydrogenase (LDH) and morphologic nuclear changes determined with Hoechst 33342. Proinflammatory effects were estimated by enzyme linked immunoassay to quantify IL-8 and MCP-1 secretion. The overproduction of reactive oxygen species (ROS) was determined by FCM with hydroethidine. Whereas the nanoparticles had no cytotoxic or inflammatory effects, they could stimulate ROS production. QDs were not incor...
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Research Interests: Nutrition and Dietetics, British, Oxidative Stress, Animal Production, Antioxidants, and 11 moreHumans, Fatty acids, Reactive Oxygen Species, Time Factors, Food Sciences, Glutathione Transferase, Human Fibroblasts, Glutathione Reductase, Oxidation-Reduction, Docosahexaenoic Acid, and Glutamate Cysteine Ligase
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Research Interests:
(i) We studied the effects of a new cromakalim analogue, SR47063, in guinea-pig ventricular cells. The experiments were carried out in whole-cell patch clamp with internal and external solutions supposedly similar to the physiological... more
(i) We studied the effects of a new cromakalim analogue, SR47063, in guinea-pig ventricular cells. The experiments were carried out in whole-cell patch clamp with internal and external solutions supposedly similar to the physiological ones. (ii) SR47063 reversibly activated a time-independent current reversing near the potassium equilibrium potential, and a time-dependent current reversing at a more positive potential. Both currents were blocked by application of glibenclamide. (iii) The time-independent and the time-dependent currents were activating for the same concentration of agonist in every cell, this concentration being very different from cell to cell. (iv) The amplitude of the time-dependent current was shown to depend directly neither on agonist concentration nor on potential, but rather on the amplitude of the current flowing during the prepulse before the test pulse. (v) We conclude that SR47063 is a potent KATP channel opener acting at concentrations lower than one micromolar, and that the time-dependent current is likely due to accumulation and depletion of potassium in restricted areas of the cells.
Research Interests: Microbiology, Mathematics, Medical Microbiology, Membrane Biology, Cell separation, and 12 morePatch-clamp and imaging techniques, Animals, Potassium, Whole cell recording, Myocardium, Time Dependent, Guinea Pig, Potassium Channels, Patch Clamp, Biochemistry and cell biology, Adenosine Triphosphate, and Whole cell Patch-Clamp
Research Interests: Microbiology, Medical Microbiology, Membrane Biology, Calcium, Ion Channels, and 15 moreComputer Model, Animals, Calcium Channel, Potassium, Cadmium, Skeletal Muscle, Time Dependent, Barium, Ranidae, Guinea Pig, Action potential, Action Potentials, Voltage Clamp, Biochemistry and cell biology, and Calcium Channel Blocker
... In Fig. 2(B), the currents for negative voltage steps appear much larger, and time dependent as earlier9 Note the total A B: 5ms :L 9 IlnA \ 9 J, OOmV: -_ ~-~_~-- __-----__. - , C ImnA D 40 80 Emv = / ~ -1 ~2-to -2 c o -3 E i-4 ~.1... more
... In Fig. 2(B), the currents for negative voltage steps appear much larger, and time dependent as earlier9 Note the total A B: 5ms :L 9 IlnA \ 9 J, OOmV: -_ ~-~_~-- __-----__. - , C ImnA D 40 80 Emv = / ~ -1 ~2-to -2 c o -3 E i-4 ~.1 -4o -~0 EmV Fig. ...
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The aim of this work was to study, in vitro, cell colonization of two biomaterials currently used for bone and cartilage repair, this step being important to understand the function of engineered tissues. Current methods that use... more
The aim of this work was to study, in vitro, cell colonization of two biomaterials currently used for bone and cartilage repair, this step being important to understand the function of engineered tissues. Current methods that use histological approaches are not always suited to tissue-engineering analysis. We, therefore, set up a protocol to assess cell distribution, utilizing noninvasive confocal microscopy and fluorescent labels with a far red emission wavelength to optimize scaffold transparency and minimize light scattering. Hard (ceramic substitute) and soft (collagen sponge) biomaterials were seeded respectively, on one side of the scaffold, with human fibroblasts and bovine chondrocytes labelled with carbocyanine dyes (DiD and DiR). The mean penetration depth for DiR labelled fibroblasts and chondrocytes in the two scaffolds, around 270 m, was greater than for DiD (136-218 microm) labelled cells. These depths were independent of cell origin but were influenced by the nature of the scaffolds. Collagen sponge is transparent in contrast to ceramic substitutes where measurements could only be made in opened macropores. Besides the limits of the equipment, the limits of the supports were diffusion for collagen sponges and transmission for ceramic substitutes. Confocal microscopy techniques could thus be used to address the question of cell colonization of porous biomaterials in a noninvasive manner.
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Halothane protects the heart against the reperfusion injury observed after an ischemia. In ischemic or anoxic conditions, a large ATP-sensitive K(+) (K(ATP)) conductance is supposed to provide an endogenous protection to the myocardium.... more
Halothane protects the heart against the reperfusion injury observed after an ischemia. In ischemic or anoxic conditions, a large ATP-sensitive K(+) (K(ATP)) conductance is supposed to provide an endogenous protection to the myocardium. In this study, we tested the possibility that halothane acted by modulating this conductance. Isolated guinea-pig cardiomyocytes were successively studied in current clamp and in voltage-clamp conditions. Action potentials regulation by halothane was tested in control conditions and in situations where the K(ATP) channels were activated. In control conditions, halothane decreased action potential duration of myocytes but did not significantly alter the inward rectifying K(+) current. Conversely, halothane lengthened action potential of cells in which the K(ATP) conductance was activated, by inhibiting the K(ATP) current. In ischemic conditions, simultaneous shortening of long action potentials and lengthening of shortened ones would be expected to homogenize the absolute refractory period at the border between normoxic and anoxic zones. This effect, together with a decrease in calcium load, could protect the myocardium against re-entrant arrhythmias.
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The densities of skeletal muscle intramembrane charge movement and macroscopic L-type Ca(2+) current have been shown to increase during prenatal development. In the present work, the electrophysiological characteristics of L-type Ca(2+)... more
The densities of skeletal muscle intramembrane charge movement and macroscopic L-type Ca(2+) current have been shown to increase during prenatal development. In the present work, the electrophysiological characteristics of L-type Ca(2+) channels were analyzed over the embryonic period E14 to E19 using the whole-cell and cell-attached procedures. At the macroscopic level, the whole-cell L-type Ca(2+) conductance increased 100% between E14 and E19. This enhancement was accompanied by a small negative shift of the voltage dependence and a marked acceleration of the inactivation kinetics. At the single-channel level, the unitary conductance decreased significantly from 13.2 +/- 0.1 pS (n = 8) at E14 to 10.7 +/- 0.3 pS (n = 7) at E18 and the open probability was multiplied by 2. No significant change of the density of functional channels was observed during the same period. In contrast to the density of intramembrane charge movement, which, under the same conditions, has been shown to increase between 16 and 19 days, L-type Ca(2+) channels properties change mostly between 14 and 16 days. Taken together, these results suggest that the two functions of the dihydropyridine receptor are carried by two different proteins which could be differentially regulated by subunit composition and/or degree of phosphorylation.