Litcius/Paper detail

Structural basis for inositol pyrophosphate gating of the phosphate channel XPR1

Yi Lu, Chen-Xi Yue, Li Zhang, Deqiang Yao, Ying Xia, Qing Zhang, Xinchen Zhang, Shaobai Li, Yafeng Shen, Cao Mi, Chang-Run Guo, An Qin, Jie Zhao, Lu Zhou, Ye Yu, Yu Cao

2024Science34 citationsDOI

Abstract

Precise regulation of intracellular phosphate (Pi) is critical for cellular function, with xenotropic and polytropic retrovirus receptor 1 (XPR1) serving as the sole Pi exporter in humans. The mechanism of Pi efflux, activated by inositol pyrophosphates (PP-IPs), has remained unclear. This study presents cryo-electron microscopy structures of XPR1 in multiple conformations, revealing a transmembrane pathway for Pi export and a dual-binding activation pattern for PP-IPs. A canonical binding site is located at the dimeric interface of Syg1/Pho81/XPR1 (SPX) domains, and a second site, biased toward PP-IPs, is found between the transmembrane and SPX domains. By integrating structural studies with electrophysiological analyses, we characterized XPR1 as an inositol phosphates (IPs)/PP-IPs-activated phosphate channel. The interplay among its transmembrane domains, SPX domains, and IPs/PP-IPs orchestrates the conformational transition between its closed and open states.

Topics & Concepts

InositolTransmembrane proteinPyrophosphateTransmembrane domainBiophysicsChemistryGatingBiochemistryIntracellularCell biologyReceptorBiologyEnzymeTrace Elements in HealthIron Metabolism and DisordersHemoglobinopathies and Related Disorders