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Mitochondrial Magnesium is the cationic rheostat for MCU-mediated mitochondrial Ca2+ uptake
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Abstract
Calcium (Ca2+) uptake by mitochondria is essential in regulating bioenergetics, cell death, and cytosolic Ca2+ transients. Mitochondrial Calcium Uniporter (MCU) mediates the mitochondrial Ca2+ uptake. MCU is a hetero-oligomeric complex with a pore-forming component and accessory proteins required for channel activity. Though MCU regulation by MICUs is unequivocally established, there needs to be more knowledge of whether divalent cations regulate MCU. Here we set out to understand the mitochondrial matrix Mg2+-dependent regulation of MCU activity. We showed Mrs2 as the authentic mammalian mitochondrial Mg2+ channel using the planar lipid bilayer recordings. Using a liver-specific Mrs2 KO mouse model, we showed that decreased matrix [Mg2+] is associated with increased MCU activity and matrix Ca2+ overload. The disruption of Mg2+-dependent MCU regulation significantly prompted mitochondrial permeability transition pore opening-mediated cell death during tissue IR injury. Our findings support a critical role for mMg2+ in regulating MCU activity and attenuating mCa2+ overload.
Title: Mitochondrial Magnesium is the cationic rheostat for MCU-mediated mitochondrial Ca2+ uptake
Description:
Abstract
Calcium (Ca2+) uptake by mitochondria is essential in regulating bioenergetics, cell death, and cytosolic Ca2+ transients.
Mitochondrial Calcium Uniporter (MCU) mediates the mitochondrial Ca2+ uptake.
MCU is a hetero-oligomeric complex with a pore-forming component and accessory proteins required for channel activity.
Though MCU regulation by MICUs is unequivocally established, there needs to be more knowledge of whether divalent cations regulate MCU.
Here we set out to understand the mitochondrial matrix Mg2+-dependent regulation of MCU activity.
We showed Mrs2 as the authentic mammalian mitochondrial Mg2+ channel using the planar lipid bilayer recordings.
Using a liver-specific Mrs2 KO mouse model, we showed that decreased matrix [Mg2+] is associated with increased MCU activity and matrix Ca2+ overload.
The disruption of Mg2+-dependent MCU regulation significantly prompted mitochondrial permeability transition pore opening-mediated cell death during tissue IR injury.
Our findings support a critical role for mMg2+ in regulating MCU activity and attenuating mCa2+ overload.
Related Results
Computational analysis of Ca2+ dynamics in isolated cardiac mitochondria predicts two distinct modes of Ca2+ uptake
Computational analysis of Ca2+ dynamics in isolated cardiac mitochondria predicts two distinct modes of Ca2+ uptake
Key points
Cytosolic, but not matrix, Mg2+ inhibits mitochondrial Ca2+ uptake through the Ca2+ uniporter (CU).
The majority of mitochondrial Ca2+ uptake under physiological levels ...
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ABSTRACT
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Abstract
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