Abstract
Na+-coupled acid–base transporters play essential roles in human biology. Their dysfunction has been linked to cancer, heart, and brain disease. High-resolution structures of mammalian Na+-coupled acid–base transporters are not available. The sodium-bicarbonate cotransporter NBCe1 functions in multiple organs and its mutations cause blindness, abnormal growth and blood chemistry, migraines, and impaired cognitive function. Here, we have determined the structure of the membrane domain dimer of human NBCe1 at 3.9 Å resolution by cryo electron microscopy. Our atomic model and functional mutagenesis revealed the ion accessibility pathway and the ion coordination site, the latter containing residues involved in human disease-causing mutations. We identified a small number of residues within the ion coordination site whose modification transformed NBCe1 into an anion exchanger. Our data suggest that symporters and exchangers utilize comparable transport machinery and that subtle differences in their substrate-binding regions have very significant effects on their transport mode.
Highlights
Na+-coupled acid–base transporters play essential roles in human biology
We identified a small number of residues within the ion coordination site whose modification transformed NBCe1 into an anion exchanger
The reconstruction contains two NBCe1 monomers with identical structures and its side view resembles the iconic double-headed eagle with its body, wing, head and foot corresponding to the gate domain, the core domain, extracellular loop 3 (EL3) domain and the cytoplasmic region of each monomer, respectively (Fig. 1a, Supplementary Movie 1)
Summary
Na+-coupled acid–base transporters play essential roles in human biology. Their dysfunction has been linked to cancer, heart, and brain disease. Solute carrier (SLC) transporters within the amino-acid-polyamine-organocation (APC) protein superfamily regulate blood pressure, ion and metabolite homeostasis, acid–base chemistry, and play key roles in the maintenance of cell function and growth[1,2,3,4,5,6,7,8,9,10,11,12,13,14]. Despite or CO32−) with the importance or of these transporters in human biology and disease, high-resolution structures of Na+-coupled SLC4 and other eukaryotic Na+-coupled acid–base transporters do not exist. The 3.9 Å structure of NBCe1 provides a common framework for the Na+-coupled
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