Rossana Morabito 1 , Alessia Remigante 2,3 , Angela Marino 2 Show Affiliations »
Abstract
BACKGROUND/AIMS: Magnesium, whose supplementation provides beneficial effects against oxidative stress-related conditions, has been here used to possibly protect Band 3 protein anion exchange capability and underlying signaling in an in vitro model of oxidative stress. METHODS: Whole blood samples pre-exposed to 10 mM MgCl2, were treated for 30 min with H2O2 (300 µM, 600 µM and 1 mM) chosen as oxidant molecule. In a separate protocol, NEM (0.5,1 and 2 mM), a phosphatase inhibitor and thiol-alkilant agent, has been also applied. The rate constant for SO4= uptake, accounting for Band 3 protein anion exchange capability, has been measured by a turbidimetric method, while intracellular reduced glutathione (GSH) levels and membrane -SH groups mostly belonging to Band 3 protein were spectrophotometrically quantified after reaction with DTNB (5,5'-dithiobis-(2-nitrobenzoic acid). Expression levels of Band 3 protein, phosporylated Tyrosine (P-Tyr) and tyrosine kinase (Syk) involved in signaling have been also measured. RESULTS: Our results show that Mg2+ prevented the reduction in the rate constant for SO4= uptake on H2O2-treated erythrocytes, not involving GSH levels and membrane -SH groups, unlike NEM, remaining both P-Tyr and Syk expression levels high. CONCLUSION: Hence, i) the measurement of the rate constant for SO4= uptake is a useful tool to evaluate Mg2+ protective effect; ii) the use of two different oxidant molecules shed light on Mg2+ effect which seems not to modulate phosphorylative pathways but would putatively stabilize membrane organization; iii) the use of Mg2+ in food supplementation can be reasonably supported to protect erythrocytes homeostasis in case of oxidative stress-related diseases. © Copyright by the Author(s). Published by Cell Physiol Biochem Press.
BACKGROUND/AIMS: Magnesium , whose supplementation provides beneficial effects against oxidative stress-related conditions, has been here used to possibly protect Band 3 protein anion exchange capability and underlying signaling in an in vitro model of oxidative stress. METHODS: Whole blood samples pre-exposed to 10 mM MgCl2 , were treated for 30 min with H2O2 (300 µM, 600 µM and 1 mM) chosen as oxidant molecule. In a separate protocol, NEM (0.5,1 and 2 mM), a phosphatase inhibitor and thiol-alkilant agent, has been also applied. The rate constant for SO4 = uptake, accounting for Band 3 protein anion exchange capability, has been measured by a turbidimetric method, while intracellular reduced glutathione (GSH ) levels and membrane -SH groups mostly belonging to Band 3 protein were spectrophotometrically quantified after reaction with DTNB (5,5'-dithiobis-(2-nitrobenzoic acid ). Expression levels of Band 3 protein, phosporylated Tyrosine (P-Tyr ) and tyrosine kinase (Syk ) involved in signaling have been also measured. RESULTS: Our results show that Mg2+ prevented the reduction in the rate constant for SO4 = uptake on H2O2 -treated erythrocytes, not involving GSH levels and membrane -SH groups, unlike NEM , remaining both P-Tyr and Syk expression levels high. CONCLUSION: Hence, i) the measurement of the rate constant for SO4 = uptake is a useful tool to evaluate Mg2+ protective effect; ii) the use of two different oxidant molecules shed light on Mg2+ effect which seems not to modulate phosphorylative pathways but would putatively stabilize membrane organization; iii) the use of Mg2+ in food supplementation can be reasonably supported to protect erythrocytes homeostasis in case of oxidative stress-related diseases. © Copyright by the Author(s). Published by Cell Physiol Biochem Press.
Entities: Chemical
Gene
Species
Keywords:
Band 3 protein; Hydrogen peroxide; Magnesium; N-ethylmaleimide; SO4= uptake
Mesh: See more »
Substances: See more »
Year: 2019
PMID: 31026392 DOI: 10.33594/000000091
Source DB: PubMed Journal: Cell Physiol Biochem ISSN: 1015-8987