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Evaluation of neuroprotective activity of digoxin and semisynthetic derivatives against partial chemical ischemia
Author(s) -
Souza Gonçalves Bruno,
Moura Valadares Jéssica M.,
Alves Silmara L. G.,
Silva Simone C.,
Rangel Luciana P.,
Cortes Vanessa F.,
Villar José A. F. P.,
Barbosa Leandro A.,
Lima Santos Hérica
Publication year - 2019
Publication title -
journal of cellular biochemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.028
H-Index - 165
eISSN - 1097-4644
pISSN - 0730-2312
DOI - 10.1002/jcb.28971
Subject(s) - chemistry , lipid peroxidation , sodium azide , glutathione , glutathione peroxidase , superoxide dismutase , pharmacology , biochemistry , thiobarbituric acid , antioxidant , reactive oxygen species , hydrogen peroxide , lipid peroxide , atpase , enzyme , medicine
Abstract Recently, cardiotonic steroids (CTS) have been shown to lead to the activation of Na,K‐ATPase at low concentrations in brain, promoting neuroprotection against ischemia. We report here the results of the use of digoxin and its semisynthetic derivatives BD‐14, BD‐15, and BD‐16 against partial chemical ischemic induction followed by reperfusion in murine neuroblastoma cells neuro‐2a (N2a). For chemical ischemic induction, sodium azide (5 mM) was used for 5 hours, and then reperfusion was induced for 24 hours. Na,K‐ATPase activity and protein levels were analyzed in membrane preparation of N2a cells pretreated with the compounds (150 nM), in the controls and in induced chemical ischemia. In the Na,K‐ATPase activity and protein levels assays, the steroids digoxin and BD‐15 demonstrated a capacity to modulate the activity of the enzyme directly, increasing its levels of expression and activity. Oxidative parameters, such as superoxide dismutase (SOD) activity, lipid peroxidation (thiobarbituric acid reactive substance), glutathione peroxidase (GPx), glutathione (GSH) levels, hydrogen peroxide content, and the amount of free radicals (reactive oxygen species) during induced chemical ischemia were also evaluated. Regarding the redox state, lipid peroxidation, hydrogen peroxide content, and GPx activity, we have observed an increase in the chemical ischemic group, and a reduction in the groups treated with CTS. SOD activity increased in all treated groups when compared to control and GSH levels decreased when treated with sodium azide and did not change with CTS treatments. Regarding the lipid profile, we saw a decrease in the content of phospholipids and cholesterol in the chemical ischemic group, and an increase in the groups treated with CTS. In conclusion, the compounds used in this study demonstrate promising results, since they appear to promote neuroprotection in cells exposed to chemical ischemia.