4.8 Article

MICU1 occludes the mitochondrial calcium uniporter in divalent-free conditions

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NATL ACAD SCIENCES
DOI: 10.1073/pnas.2218999120

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mitochondrial calcium uniporter; MICU1; Na+; EMRE; mitoplast

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Mitochondrial Ca2+ uptake is regulated by the mtCU complex, which consists of MCU, EMRE, and MICU1/2/3 subunits. MICU1 has been proposed to physically block the mtCU pore and regulate Ca2+ flux at different cytoplasmic [Ca2+]. We studied the mtCU in divalent-free conditions and found that MICU1 restricts Na+ influx, but some mtCU channels appear to lack MICU1-dependent gating in cells with high endogenous MICU1 expression. The rearrangement of mtCU and loss of MICU1 during mitoplast preparation might have affected previous studies in divalent-free conditions.
Mitochondrial Ca2+ uptake is mediated by the mitochondrial uniporter complex (mtCU) that includes a tetramer of the pore-forming subunit, MCU, a scaffold protein, EMRE, and the EF-hand regulatory subunit, MICU1 either homodimerized or heterodimerized with MICU2/3. MICU1 has been proposed to regulate Ca2+ uptake via the mtCU by physically occluding the pore and preventing Ca2+ flux at resting cytoplasmic [Ca2+] (free calcium concentration) and to increase Ca2+ flux at high [Ca2+] due to cooperative activation of MICUs EF-hands. However, mtCU and MICU1 functioning when its EF-hands are unoccupied by Ca2+ is poorly studied due to technical limitations. To overcome this barrier, we have studied the mtCU in divalent-free conditions by assessing the Ru265-sensitive Na+ influx using fluorescence-based measurement of mitochondrial matrix [Na+] (free sodium concentration) rise and the ensuing depolarization and swelling. We show an increase in all these measures of Na+ uptake in MICU1KO cells as compared to wild-type (WT) and rescued MICU1KO HEK cells. However, mitochondria in WT cells and MICU1 stable-rescued cells still allowed some Ru265-sensitive Na+ influx that was prevented by MICU1 in excess upon acute overexpression. Thus, MICU1 restricts the cation flux across the mtCU in the absence of Ca2+, but even in cells with high endogenous MICU1 expression such as HEK, some mtCU seem to lack MICU1-dependent gating. We also show rearrangement of the mtCU and altered number of functional channels in MICU1KO and different rescues, and loss of MICU1 during mitoplast preparation, that together might have obscured the pore-blocking function of MICU1 in divalent-free conditions in previous studies.

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