Acta Biochimica et Biophysica Sinica (Apr 2023)
Novel Mg <sup>2+</sup> binding sites in the cytoplasmic domain of the MgtE Mg <sup>2+</sup> channels revealed by X-ray crystal structures
Abstract
MgtE is a Mg 2+-selective channel regulated by the intracellular Mg 2+ concentration. MgtE family proteins are highly conserved in all domains of life and contribute to cellular Mg 2+ homeostasis. In humans, mutations in the SLC41 proteins, the eukaryotic counterparts of the bacterial MgtE, are known to be associated with various diseases. The first MgtE structure from a thermophilic bacterium, Thermus thermophilus, revealed that MgtE forms a homodimer consisting of transmembrane and cytoplasmic domains with a plug helix connecting the two and that the cytoplasmic domain possesses multiple Mg 2+ binding sites. Structural and electrophysiological analyses revealed that the dissociation of Mg 2+ ions from the cytoplasmic domain induces structural changes in the cytoplasmic domain, leading to channel opening. Thus, previous works showed the importance of MgtE cytoplasmic Mg 2+ binding sites. Nevertheless, due to the limited structural information on MgtE from different species, the conservation and diversity of the cytoplasmic Mg 2+ binding site in MgtE family proteins remain unclear. Here, we report crystal structures of the Mg 2+-bound MgtE cytoplasmic domains from two different bacterial species, Chryseobacterium hispalense and Clostridiales bacterium, and identify multiple Mg 2+ binding sites, including ones that were not observed in the previous MgtE structure. These structures reveal the conservation and diversity of the cytoplasmic Mg 2+ binding site in the MgtE family proteins.
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