Mitochondrial calcium uptake plays critical roles in regulating ATP
production, intracellular calcium signaling, and cell death. This uptake is
mediated by a highly selective calcium channel called th Show more
Mitochondrial calcium uptake plays critical roles in regulating ATP
production, intracellular calcium signaling, and cell death. This uptake is
mediated by a highly selective calcium channel called the mitochondrial calcium
uniporter. Here, we determined the structures of the pore-forming MCU proteins
by X-ray crystallography and single-particle cryo-electron microscopy. The
stoichiometry, overall architecture, and individual subunit structure differed
markedly from those in the recent nuclear magnetic resonance structure of the
Caenorhabditis elegans MCU. In our studies, we observed a dimer-of-dimer
architecture across species and chemical environments, which was corroborated by
biochemical experiments. Structural analyses and functional characterizations
uncovered the roles of critical residues in the pore. These results reveal a new
ion channel architecture, provide insights into calcium coordination,
selectivity, and conduction, and establish a structural framework for
understanding the mechanism of mitochondrial calcium uniporter function. Show less