Abstract
New milestones have been reached in the field of cation-Cl- cotransporters with the recently released cryo-electron microscopy (EM) structures of the Danio rerio (zebrafish) Na+-K+-2Cl- cotransporter (DrNKCC1) and the human K+-Cl- cotransporter (hKCC1). In this review we provide a brief timeline that identifies the multiple breakthroughs in the field of solute carrier 12 transporters that led to the structure resolution of two of its key members. While cation-Cl- cotransporters share the overall architecture of carriers belonging to the amino acid-polyamine-organocation (APC) superfamily and some of their substrate binding sites, several new insights are gained from the two individual structures. A first major feature relates to the largest extracellular domain between transmembrane domain (TMD) 5 and TMD6 of KCC1, which stabilizes the dimer and forms a cap that likely participates in extracellular gating. A second feature is the conservation of the K+ and Cl- binding sites in both structures and evidence of an unexpected second Cl- coordination site in the KCC1 structure. Structural data are discussed in the context of previously published studies that examined the basic and kinetics properties of these cotransport mechanisms. A third characteristic is the evidence of an extracellular gate formed by conserved salt bridges between charged residues located toward the end of TMD3 and TMD4 in both transporters and the existence of an additional neighboring bridge in the hKCC1 structure. A fourth feature of these newly solved structures relates to the multiple points of contacts between the monomer forming the cotransporter homodimer units. These involve the TMDs, the COOH-terminal domains, and the large extracellular loop for hKCC1.
Highlights
The discovery of the Naϩ-Kϩ-2ClϪ cotransporter (NKCC) and Kϩ-ClϪ cotransporter (KCC) as functional transport units came 40 years ago this year
Milestones were again crossed during these past few months with the determination of the cryo-electron microscopy (EM) structure of the zebrafish (Dano rerio) NKCC (DrNKCC) [7] and three cryo-EM structures of the human KCC [54]
It should be mentioned that an X-ray structure of the COOH-terminal tail of a bacterial cation-ClϪ cotransporter (CCC) was resolved and published in 2009 [76]
Summary
The discovery of the Naϩ-Kϩ-2ClϪ cotransporter (NKCC) and Kϩ-ClϪ cotransporter (KCC) as functional transport units came 40 years ago this year. In 2006, we demonstrated that SPAK autophosphorylation was diminished by 30% by 100 M NEM, 40% by 100 M diamide, and 70% by 0.03% H2O2 These observations, do not exclude the possibility that the Cys residues in the extracellular domain of the KCC may be sensitive to thiol-modifying reagents. An additional salt bridge (2.5 Å) exists in hKCC1 between Lys485 and Asp575 These residues are located in the extracellular loop between TM7 and TM8 and at the beginning of TM10. Naϩ-dependent glucose (SGLT) cotransporter of Vibrio parahaemolyticus (vSGLT) structures, the dimer is strengthened by hydrogen bonds between the carboxyl oxygen of Ser403 and the amine group of Lys405 of the corresponding monomer and additional hydrophobic interactions between extracellular domain residues of the two monomers [54]. SK, Kϩ binding site; SCl1, ClϪ binding site 1; SCl2, ClϪ binding site 2; SNa, Naϩ binding site
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