Caffeine inhibits erythrocyte membrane derangement by antioxidant activity and by blocking caspase 3 activation |
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| Authors: | Tellone Ester Ficarra Silvana Russo Annamaria Bellocco Ersilia Barreca Davide Laganà Giuseppina Leuzzi Ugo Pirolli Davide De Rosa Maria Cristina Giardina Bruno Galtieri Antonio |
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| Affiliation: | Organic and Biological Chemistry Department, University of Messina, V. le Ferdinando Stagno d'Alcontres 31, 98166 Messina, Italy. etellone@unime.it |
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| Abstract: | The aim of this research was to investigate the effect of caffeine on band 3 (the anion exchanger protein), haemoglobin function, caspase 3 activation and glucose-6-phosphate metabolism during the oxygenation–deoxygenation cycle in human red blood cells. A particular attention has been given to the antioxidant activity by using in vitro antioxidant models. Caffeine crosses the erythrocyte membrane and interacts with the two extreme conformational states of haemoglobin (the T and the R-state within the framework of the simple two states allosteric model) with different binding affinities. By promoting the high affinity state (R-state), the caffeine–haemoglobin interaction does enhance the pentose phosphate pathway. This is of benefit for red blood cells since it leads to an increase of NADPH availability. Moreover, caffeine effect on band 3, mediated by haemoglobin, results in an extreme increase of the anion exchange, particularly in oxygenated erythrocytes. This enhances the transport of the endogenously produced CO2 thereby avoiding the production of dangerous secondary radicals (carbonate and nitrogen dioxide) which are harmful to the cellular membrane. |
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| Keywords: | Band 3 protein Caspase 3 Haemoglobin Metabolism Erythrocytes |
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