Structural Basis of Prostaglandin Efflux by MRP4

Abstract

AbstractMRP4 is unique among the C family of ATP-binding cassette transporters for its role in translocating prostanoids, an important group of signaling molecules derived from unsaturated fatty acids. Using a reconstituted system, we report that a pair of prostaglandins (PGs) and the sulfonated-sterol DHEA-S preferentially enhance the ATPase activity of MRP4 over other previously proposed physiological substrates such as cyclic nucleotides or leukotrienes. We determined the cryo-EM structures of nanodisc embedded bovine MRP4 in (i) a nucleotide- and substrate-free state, (ii) in complex with PGE1, (iii) PGE2, and (iv) DHEA-S, and (v) a catalytically dead mutant E1202Q bound to ATP-Mg2+. The substrate-bound structures suggest unique features of the MRP4 binding site that distinguish its specificity for prostanoids from that of the related leukotriene transporter MRP1. The ATP-bound structure is in an outward-occluded conformation, revealing a novel state in the proposed alternate-access mechanism of MRP transport. Our study provides insights into the endogenous function of this versatile efflux transporter.