Sirinart Kumfu scite author profile

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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Obesity accelerates cognitive decline by aggravating mitochondrial dysfunction, insulin resistance and synaptic dysfunction under estrogen-deprived conditions

Pratchayasakul

Sa‐nguanmoo

Sivasinprasasn

et al. 2015

Hormones and Behavior

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The effects of iron overload on mitochondrial function, mitochondrial dynamics, and ferroptosis in cardiomyocytes

Sumneang

Siri‐Angkul

Kumfu

et al. 2020

Archives of Biochemistry and Biophysics

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Sirinart Kumfu

Granulocyte-colony stimulating factor attenuates mitochondrial dysfunction induced by oxidative stress in cardiac mitochondria

Tai Chi Improves Cognition and Plasma BDNF in Older Adults With Mild Cognitive Impairment: A Randomized Controlled Trial

T‐type calcium channel blockade improves survival and cardiovascular function in thalassemic mice

T-type calcium channel as a portal of iron uptake into cardiomyocytes of beta-thalassemic mice

Vagus nerve stimulation initiated late during ischemia, but not reperfusion, exerts cardioprotection via amelioration of cardiac mitochondrial dysfunction

Dual T‐type and L‐type calcium channel blocker exerts beneficial effects in attenuating cardiovascular dysfunction in iron‐overloaded thalassaemic mice

Obesity accelerates cognitive decline by aggravating mitochondrial dysfunction, insulin resistance and synaptic dysfunction under estrogen-deprived conditions

The effects of iron overload on mitochondrial function, mitochondrial dynamics, and ferroptosis in cardiomyocytes

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