Journal:IUCrJ:S2052252520001840
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| - | <StructureSection load='' size='450' side='right' scene='83/835837/Cv/2' caption=''> | + | α<StructureSection load='' size='450' side='right' scene='83/835837/Cv/2' caption=''> |
===Structure of the MICU1-MICU2 heterodimer provides insights into the gatekeeping threshold shift=== | ===Structure of the MICU1-MICU2 heterodimer provides insights into the gatekeeping threshold shift=== | ||
<big>Jongseo Park, Youngjin Lee, Taein Park, Jung Youn Kang, Sang A. Mun, Minwoo Jin, Jihyeong Yang and Soo Hyun Eom</big> <ref>doi 10.1107/S2052252520001840</ref> | <big>Jongseo Park, Youngjin Lee, Taein Park, Jung Youn Kang, Sang A. Mun, Minwoo Jin, Jihyeong Yang and Soo Hyun Eom</big> <ref>doi 10.1107/S2052252520001840</ref> | ||
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Mitochondrial calcium homeostasis plays essential roles in modulating various cellular functions, and tightly controlled by several Ca<sup>2+</sup> channels, especially mitochondrial calcium uniporter (MCU) complex. Open or close of MCU channel is regulated by mitochondrial calcium uptakes (MICU1, MICU2 and MICU3). MICUs have Ca<sup>2+</sup> binding EF-hand motifs, which form homo- or hetero-oligomers, and functions as gatekeepers in the Ca<sup>2+</sup>-free (apo) state and facilitators in the Ca2+-bound state. Blocking or activation of mitochondrial Ca<sup>2+</sup> (Ca<sup>2+</sup><sub>m</sub>) uptake by the MCU complex is affected by Ca<sup>2+</sup> binding to the MICUs participating in the MCU complex because a strong correlation between Ca<sup>2+</sup> binding affinity and the MCU Ca<sup>2+</sup> gatekeeping threshold for Ca<sup>2+</sup><sub>m</sub> uptake has been demonstrated. Generally, MICU1 and MICU2 assemble as a heterodimer in most tissues, but mechanism underlying the regulation of Ca2+ uptake by the heterodimer through MCU is unclear. | Mitochondrial calcium homeostasis plays essential roles in modulating various cellular functions, and tightly controlled by several Ca<sup>2+</sup> channels, especially mitochondrial calcium uniporter (MCU) complex. Open or close of MCU channel is regulated by mitochondrial calcium uptakes (MICU1, MICU2 and MICU3). MICUs have Ca<sup>2+</sup> binding EF-hand motifs, which form homo- or hetero-oligomers, and functions as gatekeepers in the Ca<sup>2+</sup>-free (apo) state and facilitators in the Ca2+-bound state. Blocking or activation of mitochondrial Ca<sup>2+</sup> (Ca<sup>2+</sup><sub>m</sub>) uptake by the MCU complex is affected by Ca<sup>2+</sup> binding to the MICUs participating in the MCU complex because a strong correlation between Ca<sup>2+</sup> binding affinity and the MCU Ca<sup>2+</sup> gatekeeping threshold for Ca<sup>2+</sup><sub>m</sub> uptake has been demonstrated. Generally, MICU1 and MICU2 assemble as a heterodimer in most tissues, but mechanism underlying the regulation of Ca2+ uptake by the heterodimer through MCU is unclear. | ||
| - | We presented the crystal structure of an <scene name='83/835837/Cv/1'>apo human MICU1-MICU2 heterodimer</scene>. The heterodimer had an asymmetric interface. Interestingly, the rigid interface 1 included a D231(MICU1)-R352(MICU2) salt bridge, and D231 is a highly conserved residue for Ca<sup>2+</sup> coordination in MICU1 EF-hand 1. Thus, MICU1 EF-hand 1 can bind calcium when the salt bridge dissociates. The tight interaction in apo state of MICU1-MICU2 might hinder the conformational changes required for the Ca<sup>2+</sup> binding, resulting in a lower Ca<sup>2+</sup> binding affinity in the MICU1-MICU2 heterodimer as compared to that of MICU1 homodimer. | + | We presented the crystal structure of an <scene name='83/835837/Cv/1'>apo human MICU1-MICU2 heterodimer</scene>. The heterodimer had an asymmetric interface. Interestingly, the rigid <scene name='83/835837/Cv/5'>interface 1</scene> included a <scene name='83/835837/Cv/6'>D231(MICU1)-R352(MICU2) salt bridge</scene>, and D231 is a highly conserved residue for Ca<sup>2+</sup> coordination in MICU1 EF-hand 1. Thus, MICU1 EF-hand 1 can bind calcium when the salt bridge dissociates. The tight interaction in apo state of MICU1-MICU2 might hinder the conformational changes required for the Ca<sup>2+</sup> binding, resulting in a lower Ca<sup>2+</sup> binding affinity in the MICU1-MICU2 heterodimer as compared to that of MICU1 homodimer. |
<b>References</b><br> | <b>References</b><br> | ||
Revision as of 15:36, 19 February 2020
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