Eric Lancelot scite author profile

Glutathione peroxidase (GSHPx) is a critical intracellular enzyme involved in detoxification of hydrogen peroxide (H(2)O(2)) to water. In the present study we examined the susceptibility of mice with a disruption of the glutathione peroxidase gene to the neurotoxic effects of malonate, 3-nitropropionic acid (3-NP), and 1-methyl-4-phenyl-1,2,5,6-tetrahydropyridine (MPTP). Glutathione peroxidase knock-out mice showed no evidence of neuropathological or behavioral abnormalities at 2-3 months of age. Intrastriatal injections of malonate resulted in a significant twofold increase in lesion volume in homozygote GSHPx knock-out mice as compared to both heterozygote GSHPx knock-out and wild-type control mice. Malonate-induced increases in conversion of salicylate to 2,3- and 2, 5-dihydroxybenzoic acid, an index of hydroxyl radical generation, were greater in homozygote GSHPx knock-out mice as compared with both heterozygote GSHPx knock-out and wild-type control mice. Administration of MPTP resulted in significantly greater depletions of dopamine, 3,4-dihydroxybenzoic acid, and homovanillic acid in GSHPx knock-out mice than those seen in wild-type control mice. Striatal 3-nitrotyrosine (3-NT) concentrations after MPTP were significantly increased in GSHPx knock-out mice as compared with wild-type control mice. Systemic 3-NP administration resulted in significantly greater striatal damage and increases in 3-NT in GSHPx knock-out mice as compared to wild-type control mice. The present results indicate that a knock-out of GSHPx may be adequately compensated under nonstressed conditions, but that after administration of mitochondrial toxins GSHPx plays an important role in detoxifying increases in oxygen radicals.

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Effect of ultrasmall superparamagnetic iron oxide nanoparticles (Ferumoxtran-10) on human monocyte-macrophages in vitro

Müller

et al. 2007

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Peptidic Targeting of Phosphatidylserine for the MRI Detection of Apoptosis in Atherosclerotic Plaques

et al. 2009

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Molecular and cellular imaging of atherosclerosis has garnered more interest at the beginning of the 21st century, with aims to image in vivo biological properties of plaque lesions. Apoptosis seems an attractive target for the diagnosis of vulnerable atherosclerotic plaques prone to a thrombotic event. The aim of the present work was to screen for apoptosis peptide binders by phage display with the final purpose to detect apoptotic cells in atherosclerotic plaques by magnetic resonance imaging (MRI). A phosphatidylserine-specific peptide identified by phage display was thus used to design an MRI contrast agent (CA), which was evaluated as a potential in vivo reporter of apoptotic cells. A library of linear 6-mer random peptides was screened in vitro against immobilized phosphatidylserine. Phage DNA was isolated and sequenced, and the affinity of peptides for phosphatidylserine was evaluated by enzyme-linked immunosorbent assay. The phosphatidylserine-specific peptide and its scrambled homologue were attached to a linker and conjugated to DTPA-isothiocyanate. The products were purified by dialysis and by column chromatography and complexed with gadolinium chloride. After their evaluation using apoptotic cells and a mouse model of liver apoptosis, the phosphatidylserine-targeted CA was used to image atherosclerotic lesions on ApoE(-/-) transgenic mice. Apoptotic cells were detected on liver and aorta specimens by the immunostaining of phosphatidylserine and of active caspase-3. Sequencing of the phage genome highlighted nine different peptides. Their alignment with amino acid sequences of relevant proteins revealed a frequent homology with Ca2+ channels, reminiscent of the function of annexins. Alignment with molecules involved in apoptosis provides a direct correlation between peptide selection and utility. The in vivo MRI studies performed at 4.7 T provide proof of concept that apoptosis-related pathologies could be diagnosed by MRI with a low molecular weight paramagnetic agent. The new CA could have real potential in the diagnosis and therapy monitoring of atherosclerotic disease and of other apoptosis-associated pathologies, such as cancer, ischemia, chronic inflammation, autoimmune disorders, transplant rejection, neurodegenerative disorders, and diabetes mellitus. The phage display-derived peptide could also play a potential therapeutic role through anticoagulant activity by mimicking the role of annexin V, the endogenous ligand of phosphatidylserine.

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Evaluation of Matrix Metalloproteinases in Atherosclerosis Using a Novel Noninvasive Imaging Approach

Lancelot

Amirbekian

Brigger

et al. 2008

ATVB

144

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Objective-Despite great advances in our knowledge, atherosclerosis continues to kill more people than any other disease in the Western world. This is because our means of identifying truly vulnerable patients is limited. Prediction of atherosclerotic plaque rupture may be addressed by MRI of activated matrix metalloproteinases (MMPs), a family of enzymes that have been implicated in the vulnerability of plaques prone to rupture. This study evaluated the ability of the novel gadolinium-based MRI contrast agent P947 to target MMPs in atherosclerotic plaques. Methods and Results-The affinity of P947 toward activated MMPs was demonstrated in vitro. The affinity and specificity of P947 toward matrix metalloproteinase (MMP)-rich plaques was evaluated both in vivo using ApoE Ϫ/Ϫ mice and ex vivo in hyperlipidemic rabbits. Gadolinium content quantification and MRI showed a preferential accumulation of P947 in atherosclerotic lesions compared with the nontargeted reference compound, Gd-DOTA. The ex vivo assay on rabbit plaques revealed a higher uptake of P947. Moreover, using human carotid artery endarterectomy specimens, P947 facilitated discrimination between histologically defined MMP-rich and MMP-poor plaques. An in vivo MRI investigation in mice revealed that P947 greatly improved the ability to visualize and delineate atherosclerotic plaques. Conclusions-P947 may be a useful tool for the detection and characterization of the MMP-rich atherosclerotic plaques. (Arterioscler Thromb Vasc Biol. 2008;28:425-432)Key Words: atherosclerosis Ⅲ matrix metalloproteinases Ⅲ MRI Ⅲ atherosclerotic plaque Ⅲ molecular imaging M olecular imaging is a promising modality for assessment of atherosclerotic plaque composition. 1 It may enable the detection of biological markers whose expression is directly related to the pathophysiological status of the lesions. 2,3 Recently, MRI has been used to assess activated plaques by detecting human macrophages with ultra-small superparamagnetic particles of iron oxide (Sinerem®), 4 rabbit angiogenesis with AlphaVbeta3 targeting nanoparticles, 5 rabbit thrombosis with a fibrin-binding contrast agent (EP-1873), 6 and murine macrophages with scavenger receptortargeted immunomicelles. 7 Finally, apoptotic plaque macrophages were visualized with [99m Tc]-labeled annexin V in carotid arteries of symptomatic patients. 8 By applying high-resolution multi-contrast in vivo MRI, some features of vulnerability, such as cap rupture, large necrotic core, or intraplaque hemorrhage, have become detectable in human carotid arteries. 9 Molecular imaging may substantially improve the accuracy of MRI detection by selectively revealing specific markers of instability. One such marker is represented by matrix metalloproteinases (MMPs), which are overexpressed in prone-to-rupture atherosclerotic lesions as a consequence of inflammation. 10 MMPs promote plaque destabilization by degrading the fibrillar collagen of the fibrous cap and are overexpressed in the shoulder regions of human atherosclerotic plaques, the most ...

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Possible involvement of gadolinium chelates in the pathophysiology of nephrogenic systemic fibrosis: A critical review

et al. 2008

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Rapid-Clearance Iron Nanoparticles for Inflammation Imaging of Atherosclerotic Plaque: Initial Experience in Animal Model

Sigovan¹,

Boussel²,

Sulaiman³

et al. 2009

Radiology

100

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Physicochemical and Biological Evaluation of P792, a Rapid-Clearance Blood-Pool Agent for Magnetic Resonance Imaging

Port

Corot

Raynal

et al. 2001

Investigative Radiology

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Chapter 21 Glutamate toxicity in chronic neurodegenerative disease

Lancelot

Beal

1998

103

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Eric Lancelot

Mice Deficient in Cellular Glutathione Peroxidase Show Increased Vulnerability to Malonate, 3-Nitropropionic Acid, and 1-Methyl-4-Phenyl-1,2,5,6-Tetrahydropyridine

Effect of ultrasmall superparamagnetic iron oxide nanoparticles (Ferumoxtran-10) on human monocyte-macrophages in vitro

Peptidic Targeting of Phosphatidylserine for the MRI Detection of Apoptosis in Atherosclerotic Plaques

Evaluation of Matrix Metalloproteinases in Atherosclerosis Using a Novel Noninvasive Imaging Approach

Possible involvement of gadolinium chelates in the pathophysiology of nephrogenic systemic fibrosis: A critical review

Rapid-Clearance Iron Nanoparticles for Inflammation Imaging of Atherosclerotic Plaque: Initial Experience in Animal Model

Physicochemical and Biological Evaluation of P792, a Rapid-Clearance Blood-Pool Agent for Magnetic Resonance Imaging

Chapter 21 Glutamate toxicity in chronic neurodegenerative disease

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