JX Chen scite author profile

Background and purpose: The clinical use of arsenic trioxide (As 2 O 3 ), a potent antineoplastic agent, is limited by its severe cardiotoxic effects. QT interval prolongation and apoptosis have been implicated in the cardiotoxicity of As 2 O 3 . The present study was designed to evaluate the effects of resveratrol on As 2 O 3 -induced apoptosis and cardiac injury. Experimental approach: In a mouse model of As 2 O 3 -induced cardiomyopathy in vivo, QT intervals and plasma enzyme activities were measured; cardiac tissues were examined histologically and apoptosis assessed. In H9c2 cardiomyocyte cells, viability, apoptosis, generation of reactive oxygen species (ROS) and cellular calcium levels were measured. Key results: In the mouse model, resveratrol reduced As 2 O 3 -induced QT interval prolongation and cardiomyocyte injury (apoptosis, myofibrillar loss and vacuolization). In addition, increased lactate dehydrogenase activity and decreased activities of glutathione peroxidase, catalase and superoxide dismutase were observed in the plasma of As 2 O 3 -treated mice; these changes were prevented by pretreatment with resveratrol. In As 2 O 3 -treated H9c2 cardiomyocytes, resveratrol significantly increased cardiomyocyte viability and attenuated cell apoptosis as measured by acridine orange/ethidium bromide staining, TdT-mediated dUTP nick end labelling assay and caspase-3 activity. As 2 O 3 -induced generation of ROS and intracellular calcium mobilization in H9c2 cells was also suppressed by pretreatment with resveratrol. Conclusions and implications: Our results showed that resveratrol significantly attenuated As 2 O 3 -induced QT prolongation, structural abnormalities and oxidative damage in the heart. In H9c2 cardiomyocytes, resveratrol also decreased apoptosis, production of ROS and intracellular calcium mobilization induced by treatment with As 2 O 3 . These observations suggested that resveratrol has the potential to protect against cardiotoxicity in As 2 O 3 -exposed patients.

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Carrier diffusion in low-dimensional semiconductors: A comparison of quantum wells, disordered quantum wells, and quantum dots

Fiore

Rossetti

Alloing

et al. 2004

Phys. Rev. B

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International audienceWe present a comparative study of carrier diffusion in semiconductor heterostructures with different dimensionality [InGaAs quantum wells (QWs), InAs quantum dots (QDs), and disordered InGaNAs QWs (DQWs)]. In order to evaluate the diffusion length in the active region of device structures, we introduce a method based on the measurement of the current-voltage and light-current characteristics in light-emitting diodes where current is injected in an area <1 μm2. By analyzing the scaling behavior of devices with different sizes, we deduce the effective active area, and thus the diffusion length. A strong reduction in the diffusion length is observed going from QWs (Ld≈2.7 μm) to QDs (Ld<100 nm), DQWs being an intermediate case (Ldiff≈0–200 nm depending on the carrier density). These results show that lateral composition fluctuations, either intended or unintended, produce strong carrier localization and significantly affect the carrier profile in a device even at room temperatur

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Hypoxia and modification of the endothelium: implications for regulation of vascular homeostatic properties

Lawson

et al. 1995

Seminars in Cell Biology

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Comparison of radiative and structural properties of 1.3 μm InxGa(1−x)As quantum-dot laser structures grown by metalorganic chemical vapor deposition and molecular-beam epitaxy: Effect on the lasing properties

Passaseo

Vittorio

Todaro

et al. 2003

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Electrically injected InGaAs/GaAs quantum-dot microcavity light-emitting diode operating at 1.3 μm and grown by metalorganic chemical vapor deposition Appl. Phys. Lett. 84, 4155 (2004); 10.1063/1.1755411 Dependence of the emission wavelength on the internal electric field in quantum-dot laser structures grown by metal-organic chemical-vapor deposition Appl. Phys. Lett. 79, 1435 (2001); 10.1063/1.1400088 Room-temperature 1.3 μm emission from InAs quantum dots grown by metal organic chemical vapor deposition Structural and optical properties of 1.3 μ m wavelength tensile-strained InGaAsP multiquantum wells grown by metalorganic molecular beam epitaxy

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JX Chen

Simultaneous two-state lasing in quantum-dot lasers

Resveratrol protects against arsenic trioxide‐induced cardiotoxicity in vitro and in vivo

Carrier diffusion in low-dimensional semiconductors: A comparison of quantum wells, disordered quantum wells, and quantum dots

Hypoxia and modification of the endothelium: implications for regulation of vascular homeostatic properties

Comparison of radiative and structural properties of 1.3 μm InxGa(1−x)As quantum-dot laser structures grown by metalorganic chemical vapor deposition and molecular-beam epitaxy: Effect on the lasing properties

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