TC training significantly improved memory and the mental switching component of executive function in older adults with a-MCI, possibly via an upregulation of BDNF.
DMT1, LTCC, and TTCC played important roles for iron entry in the thalassemic heart under an iron-overloaded condition. Unlike LTCC blocker, TTCC blocker provided all benefits including attenuating iron deposit in both the heart and liver, reduced oxidative stress, and decreased mortality in iron-overloaded mice.
Our findings indicated that iron uptake mechanisms in cultured thalassemic cardiomyocytes are mainly mediated by TTCC, suggesting that TTCC is the important pathway for iron uptake in this cultured thalassemic cardiomyocyte model.
New Findings r What is the central question of this study?
Head-to-head comparison of the therapeutic efficacy among commercial iron chelators and a dual T-(TTCC) and L-type calcium channel (LTCC) blocker on cardiac function, mitochondrial function and the protein expression of cardiac iron transporters in thalassaemic mice in iron-overloaded conditions has not been assessed. r What is the main finding and its importance?The dual TTCC and LTCC blocker efonidipine could provide broad beneficial effects in the heart, liver, plasma and mitochondria in both wild-type and thalassaemic mice in iron-overloaded conditions. Its beneficial effects are of the same degree as the three commercial iron chelators currently used clinically. It is possible that efonidipine could be an alternative choice in patients unable to take iron chelators for the treatment of iron-overload conditions. Iron chelation therapy is a standard treatment in thalassaemia patients; however, its poor cardioprotective efficacy and serious side-effects are a cause for concern. Previous studies have shown that treatment with L-type calcium channel (LTCC) blockers or dual T-type calcium channel (TTCC) and LTCC blockers decreases cardiac iron and improves cardiac dysfunction in an iron-overloaded rodent model. Currently, the head-to-head comparison of therapeutic efficacy among commercial iron chelators, a dual TTCC and LTCC blocker and an LTCC blocker on cardiac function, mitochondrial function and the protein expression of cardiac iron transporters in thalassaemic mice in an iron-overloaded state has never been investigated. An iron-overloaded state was induced in β-thalassaemic and wild-type mice. Cardiac iron overload was induced to a greater extent than in a previous study by feeding the mice with an iron-enriched diet for 4 months. Then, an LTCC blocker (amlodipine) or a dual TTCC and LTCC blocker (efonidipine) or one of the commercial iron chelators (deferoxamine, deferasirox or deferiprone) was administered for 1 month with continuous iron feeding. All treatments reduced cardiac iron deposition and improved mitochondrial and cardiac dysfunction in both types of mice. Only efonidipine and the iron chelators reduced liver iron accumulation, liver malondialdehyde and plasma malondialdehyde in these mice. Although all pharmacological interventions reduced cardiac iron deposition, they did not alter the protein expression levels of
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