Structural basis for ion selectivity in TMEM175 K+ channels

The TMEM175 family constitutes recently discovered K⁺channels that are important for autophagosome turnover and lysosomal pH regulation and are associated with the early onset of Parkinson Disease. TMEM175 channels lack a P-loop selectivity filter, a hallmark of all known K⁺ channels, raising the question how selectivity is achieved. Here, we report the X-ray structure of a closed Bacterial TMEM175 channel in complex with a nanobody fusion-protein disclosing bound K⁺ ions. Our analysis revealed that a highly conserved layer of threonine residues in the pore conveys a basal K⁺ selectivity. An additional layer comprising two serines in human TMEM175 increases selectivity further and renders this channel sensitive to 4-aminopyridine and Zn²⁺. Our findings suggest that large hydrophobic side chains occlude the pore, forming a physical gate, and that channel opening by iris-like motions simultaneously relocates the gate and exposes the otherwise concealed selectivity filter to the pore lumen.

E. coli; human; ion channel; macrobody; molecular biophysics; nanobody; parkinson disease; potassium channel; selectivity filter; structural biology.