Furthermore caffeine destabilizes the haeme-protein interactions within the haemoglobin molecule and triggers the production of superoxide and met-haemoglobin. However this damaging effect is almost balanced by the surprising scavenger action of the alkaloid with respect to the hydroxyl radical. These experimental findings are supported by in silica docking and molecular dynamics studies and by what we may call the "caspase silence"; in fact, there is no evidence of any caspase 3 activity enhancement; this is likely due to the promotion of positive metabolic conditions which result in an increase of the cellular reducing power. (C) 2011 Elsevier Masson SAS. All rights reserved.
Caffeine inhibits erythrocyte membrane derangement by antioxidant activity and by blocking caspase 3 activation
De Rosa Maria Cristina;Giardina Bruno;
2012
Abstract
Furthermore caffeine destabilizes the haeme-protein interactions within the haemoglobin molecule and triggers the production of superoxide and met-haemoglobin. However this damaging effect is almost balanced by the surprising scavenger action of the alkaloid with respect to the hydroxyl radical. These experimental findings are supported by in silica docking and molecular dynamics studies and by what we may call the "caspase silence"; in fact, there is no evidence of any caspase 3 activity enhancement; this is likely due to the promotion of positive metabolic conditions which result in an increase of the cellular reducing power. (C) 2011 Elsevier Masson SAS. All rights reserved.| File | Dimensione | Formato | |
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Descrizione: Caffeine inhibits erythrocyte membrane derangement by antioxidant activity and by blocking caspase 3 activation
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