CryoEM structures of anion exchanger 1 capture multiple states of inward- and outward-facing conformations.

Anion exchanger 1 (AE1, band 3) is a major membrane protein of red blood cells and plays a key role in acid-base homeostasis, urine acidification, red blood cell shape regulation, and removal of carbon dioxide during respiration. Though structures of the transmembrane domain (TMD) of three SLC4 transporters, including AE1, have been resolved previously in their outward-facing (OF) state, no mammalian SLC4 structure has been reported in the inward-facing (IF) conformation. Here we present the cryoEM structures of full-length bovine AE1 with its TMD captured in both IF and OF conformations.

Cryo-EM structure of the sodium-driven chloride/bicarbonate exchanger NDCBE.

SLC4 transporters play significant roles in pH regulation and cellular sodium transport. The previously solved structures of the outward facing (OF) conformation for AE1 (SLC4A1) and NBCe1 (SLC4A4) transporters revealed an identical overall fold despite their different transport modes (chloride/bicarbonate exchange versus sodium-carbonate cotransport). However, the exact mechanism determining the different transport modes in the SLC4 family remains unknown.

SLC4A11 function: evidence for H(OH) and NH-H transport.

Whether SLC4A11 transports ammonia and its potential mode of ammonia transport (, NH, or NH-2H transport have been proposed) are controversial. In the absence of ammonia, whether SLC4A11 mediates significant conductive H(OH) transport is also controversial. The present study was performed to determine the mechanism of human SLC4A11 ammonia transport and whether the transporter mediates conductive H(OH) transport in the absence of ammonia.