TY - JOUR T1 - Evolutionary divergence reveals the molecular basis of EMRE dependence of the human MCU JF - Life Science Alliance JO - Life Sci. Alliance DO - 10.26508/lsa.202000718 VL - 3 IS - 10 SP - e202000718 AU - Melissa JS MacEwen AU - Andrew L Markhard AU - Mert Bozbeyoglu AU - Forrest Bradford AU - Olga Goldberger AU - Vamsi K Mootha AU - Yasemin Sancak Y1 - 2020/10/01 UR - https://www.life-science-alliance.org/content/3/10/e202000718.abstract N2 - The mitochondrial calcium uniporter (MCU) is a calcium-activated calcium channel critical for signaling and bioenergetics. MCU, the pore-forming subunit of the uniporter, contains two transmembrane domains and is found in all major eukaryotic taxa. In amoeba and fungi, MCU homologs are sufficient to form a functional calcium channel, whereas human MCU exhibits a strict requirement for the metazoan protein essential MCU regulator (EMRE) for conductance. Here, we exploit this evolutionary divergence to decipher the molecular basis of human MCU’s dependence on EMRE. By systematically generating chimeric proteins that consist of EMRE-independent Dictyostelium discoideum MCU and Homo sapiens MCU (HsMCU), we converged on a stretch of 10 amino acids in D. discoideum MCU that can be transplanted to HsMCU to render it EMRE independent. We call this region in human MCU the EMRE dependence domain (EDD). Crosslinking experiments show that EMRE directly interacts with HsMCU at its transmembrane domains as well as the EDD. Our results suggest that EMRE stabilizes the EDD of MCU, permitting both channel opening and calcium conductance, consistent with recently published structures of MCU-EMRE. ER -