Biochemical basis for an interaction between SNX27 and the flexible SNX1 N-terminus

Q1 Biochemistry, Genetics and Molecular Biology Advances in biological regulation Pub Date : 2022-01-01 DOI:10.1016/j.jbior.2021.100842
Mintu Chandra , Brett M. Collins , Lauren P. Jackson
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引用次数: 7

Abstract

Metazoans require the sorting nexin (SNX) protein, SNX27, to recycle hundreds of important transmembrane protein receptors from endosomes to the plasma membrane. Cargo recycling by SNX27 requires its interaction with retromer, a heterotrimer known to assemble on membranes with multiple sorting nexins, including SNX-BAR proteins and SNX3. SNX27 has also been functionally linked to SNX-BARs, but the molecular basis of this interaction has been unknown. We identify a direct biochemical interaction between the conserved and flexible SNX1/SNX2 N-terminus and full-length SNX27 using purified proteins in pulldown experiments. Sequence alignments indicate both SNX1 and SNX2 contain two short and conserved stretches of acidic residues bearing a DxF motif in their flexible N-terminal regions. Biochemical pulldown and mapping experiments reveal forty residues in the N-terminus of either SNX1 or SNX2 can mediate binding to SNX27. SNX27 truncation analysis demonstrates the SNX27 FERM domain binds the SNX1 N-terminus. Calorimetry experiments quantified binding between the SNX1 N-terminus and SNX27 in the low micromolar affinity range (KD ∼10 μM) and suggest the second DxF motif may play a more prominent role in binding. Mutation of either DxF sequence in SNX1 abrogates measurable binding to SNX27 in the calorimeter. Modelling from both predicted and experimentally determined structures suggests the SNX27 FERM domain could accommodate both DxF motifs simultaneously. Together, these data suggest SNX27 is directly linked to specific SNX-BAR proteins through binding acidic motifs in the SNX1 or SNX2 N-terminus.

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SNX27与灵活的SNX1 n端相互作用的生化基础
后生动物需要分类连接蛋白(SNX)蛋白SNX27将数百个重要的跨膜蛋白受体从核内体循环到质膜。SNX27的货物回收需要它与逆转录物相互作用,逆转录物是一种异源三聚体,已知在膜上组装有多种分选连接蛋白,包括SNX-BAR蛋白和SNX3。SNX27也与snx - bar在功能上有关联,但这种相互作用的分子基础尚不清楚。我们利用纯化蛋白在下拉实验中确定了保守和灵活的SNX1/SNX2 n端与全长SNX27之间的直接生化相互作用。序列比对表明,SNX1和SNX2都含有两个短而保守的酸性残基,在其柔性n端区域含有DxF基序。生化下拉和定位实验显示,SNX1或SNX2的n端有40个残基可以介导与SNX27的结合。SNX27截断分析表明,SNX27的FERM结构域与SNX1的n端结合。量热实验量化了SNX1 n端与SNX27在低微摩尔亲和力范围内(KD ~ 10 μM)的结合,表明第二个DxF基序可能在结合中发挥更突出的作用。在量热计中,SNX1中DxF序列的任何一个突变都将取消与SNX27的可测量结合。基于预测结构和实验确定结构的建模表明,SNX27 FERM结构域可以同时容纳两个DxF基序。总之,这些数据表明SNX27通过在SNX1或SNX2 n端结合酸性基序直接与特定的SNX-BAR蛋白相连。
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来源期刊
Advances in biological regulation
Advances in biological regulation Biochemistry, Genetics and Molecular Biology-Molecular Medicine
CiteScore
8.90
自引率
0.00%
发文量
41
审稿时长
17 days
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