Literature DB >> 18656425

SOD activity of carboxyfullerenes predicts their neuroprotective efficacy: a structure-activity study.

Sameh Saad Ali1, Joshua I Hardt, Laura L Dugan.   

Abstract

Superoxide radical anion is a biologically important oxidant that has been linked to tissue injury and inflammation in several diseases. Here we carried out a structure-activity study on six different carboxyfullerene superoxide dismutase (SOD) mimetics with distinct electronic and biophysical characteristics. Neurotoxicity via N-methyl-D-aspartate receptors, which involves intracellular superoxide, was used as a model to evaluate structure-activity relationships between reactivity toward superoxide and neuronal rescue by these drugs. A significant correlation between neuroprotection by carboxyfullerenes and their ki toward superoxide radical was observed. Computer-assisted molecular modeling demonstrated that the reactivity toward superoxide is sensitive to changes in dipole moment, which are dictated not only by the number of carboxyl groups but also by their distribution on the fullerene ball. These results indicate that the SOD activity of these cell-permeable compounds predicts neuroprotection, and establishes a structure-activity relationship to aid in future studies on the biology of superoxide across disciplines.

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Year:  2008        PMID: 18656425      PMCID: PMC2651828          DOI: 10.1016/j.nano.2008.05.003

Source DB:  PubMed          Journal:  Nanomedicine        ISSN: 1549-9634            Impact factor:   5.307


  37 in total

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6.  A biologically effective fullerene (C60) derivative with superoxide dismutase mimetic properties.

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Journal:  Free Radic Biol Med       Date:  2004-10-15       Impact factor: 7.376

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9.  NMDA-induced superoxide production and neurotoxicity in cultured rat hippocampal neurons: role of mitochondria.

Authors:  B Sengpiel; E Preis; J Krieglstein; J H Prehn
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Journal:  EMBO J       Date:  2003-06-16       Impact factor: 11.598
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  19 in total

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5.  Evaluation of the fullerene compound DF-1 as a radiation protector.

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Review 7.  Nanotechnology inspired tools for mitochondrial dysfunction related diseases.

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8.  Antioxidant carbon particles improve cerebrovascular dysfunction following traumatic brain injury.

Authors:  Brittany R Bitner; Daniela C Marcano; Jacob M Berlin; Roderic H Fabian; Leela Cherian; James C Culver; Mary E Dickinson; Claudia S Robertson; Robia G Pautler; Thomas A Kent; James M Tour
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9.  Critical Comparison of the Superoxide Dismutase-like Activity of Carbon Antioxidant Nanozymes by Direct Superoxide Consumption Kinetic Measurements.

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10.  AMPK dysregulation promotes diabetes-related reduction of superoxide and mitochondrial function.

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