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人转铁蛋白的结合如何在内涵体 pH 下启动转铁蛋白受体增强铁释放。

How the binding of human transferrin primes the transferrin receptor potentiating iron release at endosomal pH.

机构信息

Department of Biochemistry, University of Vermont, 89 Beaumont Avenue, Burlington, VT 05405, USA.

出版信息

Proc Natl Acad Sci U S A. 2011 Aug 9;108(32):13089-94. doi: 10.1073/pnas.1105786108. Epub 2011 Jul 25.

DOI:10.1073/pnas.1105786108
PMID:21788477
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3156180/
Abstract

Delivery of iron to cells requires binding of two iron-containing human transferrin (hTF) molecules to the specific homodimeric transferrin receptor (TFR) on the cell surface. Through receptor-mediated endocytosis involving lower pH, salt, and an unidentified chelator, iron is rapidly released from hTF within the endosome. The crystal structure of a monoferric N-lobe hTF/TFR complex (3.22-Å resolution) features two binding motifs in the N lobe and one in the C lobe of hTF. Binding of Fe(N)hTF induces global and site-specific conformational changes within the TFR ectodomain. Specifically, movements at the TFR dimer interface appear to prime the TFR to undergo pH-induced movements that alter the hTF/TFR interaction. Iron release from each lobe then occurs by distinctly different mechanisms: Binding of His349 to the TFR (strengthened by protonation at low pH) controls iron release from the C lobe, whereas displacement of one N-lobe binding motif, in concert with the action of the dilysine trigger, elicits iron release from the N lobe. One binding motif in each lobe remains attached to the same α-helix in the TFR throughout the endocytic cycle. Collectively, the structure elucidates how the TFR accelerates iron release from the C lobe, slows it from the N lobe, and stabilizes binding of apohTF for return to the cell surface. Importantly, this structure provides new targets for mutagenesis studies to further understand and define this system.

摘要

铁向细胞的输送需要两个含铁的人转铁蛋白 (hTF) 分子与细胞表面特定的同源二聚体转铁蛋白受体 (TFR) 结合。通过涉及较低 pH 值、盐和未鉴定螯合剂的受体介导的内吞作用,铁迅速从内体中的 hTF 中释放出来。单铁 N lobe hTF/TFR 复合物(分辨率为 3.22 Å)的晶体结构在 hTF 的 N lobe 中具有两个结合基序,在 C lobe 中具有一个结合基序。Fe(N)hTF 的结合诱导 TFR 外域的全局和特异性构象变化。具体而言,TFR 二聚体界面处的运动似乎使 TFR 为 pH 诱导的运动做好准备,从而改变 hTF/TFR 相互作用。然后,通过明显不同的机制从每个 lobe 释放铁:His349 与 TFR 的结合(在低 pH 值下通过质子化增强)控制 C lobe 中的铁释放,而一个 N lobe 结合基序的置换,与二赖氨酸触发的作用协调,引起 N lobe 中的铁释放。每个 lobe 中的一个结合基序在整个内吞循环中都附着在 TFR 的同一α螺旋上。总的来说,该结构阐明了 TFR 如何加速 C lobe 中的铁释放,减缓 N lobe 中的铁释放,并稳定 apo hTF 的结合以返回细胞表面。重要的是,该结构为诱变研究提供了新的靶点,以进一步了解和定义该系统。

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