College of Life Sciences, Beijing Normal University, Beijing, China.
National Institute of Biological Sciences, Beijing, China.
EMBO Rep. 2019 Apr;20(4). doi: 10.15252/embr.201846989. Epub 2019 Mar 11.
The conserved AAA-ATPase Msp1 is embedded in the outer mitochondrial membrane and removes mislocalized tail-anchored (TA) proteins upon dysfunction of the guided entry of tail-anchored (GET) pathway. It remains unclear how Msp1 recognizes its substrates. Here, we extensively characterize Msp1 and its substrates, including the mitochondrially targeted Pex15Δ30, and full-length Pex15, which mislocalizes to mitochondria upon dysfunction of Pex19 but not the GET pathway. Moreover, we identify two new substrates, Frt1 and Ysy6. Our results suggest that mislocalized TA proteins expose hydrophobic surfaces in the cytoplasm and are recognized by Msp1 through conserved hydrophobic residues. Introducing a hydrophobic patch into mitochondrial TA proteins transforms them into Msp1 substrates. In addition, Pex15Δ30 and Frt1 contain basic inter-membrane space (IMS) residues critical for their mitochondrial mistargeting. Remarkably, Msp1 recognizes this feature through the acidic D12 residue in its IMS domain. This dual-recognition mechanism involving interactions at the cytoplasmic and IMS domains of Msp1 and substrates greatly facilitates substrate recognition and is required by Msp1 to safeguard mitochondrial functions.
保守的 AAA-ATP 酶 Msp1 嵌入在外膜中,在引导进入尾部锚定(GET)途径功能障碍时,去除错误定位的尾部锚定(TA)蛋白。目前尚不清楚 Msp1 如何识别其底物。在这里,我们广泛研究了 Msp1 及其底物,包括靶向线粒体的 Pex15Δ30 和全长 Pex15,当 Pex19 但不是 GET 途径功能障碍时,它会错误定位到线粒体。此外,我们还鉴定了两个新的底物,Frt1 和 Ysy6。我们的结果表明,错误定位的 TA 蛋白在细胞质中暴露疏水面,Msp1 通过保守的疏水性残基识别它们。将疏水性斑块引入线粒体 TA 蛋白中,将其转化为 Msp1 底物。此外,Pex15Δ30 和 Frt1 含有对其线粒体错误靶向至关重要的基本内膜间隙(IMS)残基。值得注意的是,Msp1 通过其 IMS 结构域中的酸性 D12 残基识别此特征。这种涉及 Msp1 和底物的细胞质和 IMS 结构域相互作用的双重识别机制极大地促进了底物的识别,并且是 Msp1 保护线粒体功能所必需的。
