新型 IM 相关蛋白 Tim54 在布氏锥虫内部信号蛋白的线粒体导入中发挥作用。
Novel IM-associated protein Tim54 plays a role in the mitochondrial import of internal signal-containing proteins in Trypanosoma brucei.
机构信息
Microbiology, Immunology, and Physiology, Meharry Medical College, Nashville, TN, 37208, USA.
出版信息
Biol Cell. 2021 Jan;113(1):39-57. doi: 10.1111/boc.202000054. Epub 2020 Nov 9.
BACKGROUND
The translocase of the mitochondrial inner membrane (TIM) imports most of the nucleus-encoded proteins that are destined for the matrix, inner membrane (IM) and the intermembrane space (IMS). Trypanosoma brucei, the infectious agent for African trypanosomiasis, possesses a unique TIM complex consisting of several novel proteins in association with a relatively conserved protein TbTim17. Tandem affinity purification of the TbTim17 protein complex revealed TbTim54 as a potential component of this complex.
RESULTS
TbTim54, a trypanosome-specific IMS protein, is peripherally associated with the IM and is present in a protein complex slightly larger than the TbTim17 complex. TbTim54 knockdown (KD) reduced the import of TbTim17 and compromised the integrity of the TbTim17 complex. TbTim54 KD inhibited the in vitro mitochondrial import and assembly of the internal signal-containing mitochondrial carrier proteins MCP3, MCP5 and MCP11 to a greater extent than TbTim17 KD. Furthermore, TbTim54 KD, but not TbTim17 KD, significantly hampered the mitochondrial targeting of ectopically expressed MCP3 and MCP11. These observations along with our previous finding that the mitochondrial import of N-terminal signal-containing proteins like cytochrome oxidase subunit 4 and MRP2 was affected to a greater extent by TbTim17 KD than TbTim54 KD indicating a substrate-specificity of TbTim54 for internal-signal containing mitochondrial proteins. In other organisms, small Tim chaperones in the IMS are known to participate in the translocation of MCPs. We found that TbTim54 can directly interact with at least two of the six known small TbTim proteins, TbTim11 and TbTim13, as well as with the N-terminal domain of TbTim17.
CONCLUSION
TbTim54 interacts with TbTim17. It also plays a crucial role in the mitochondrial import and complex assembly of internal signal-containing IM proteins in T. brucei.
SIGNIFICANCE
We are the first to characterise TbTim54, a novel TbTim that is involved primarily in the mitochondrial import of MCPs and TbTim17 in T. brucei.
背景
线粒体内膜转位酶(TIM)将大多数核编码蛋白转运到基质、内膜(IM)和膜间空间(IMS)。布氏锥虫是非洲锥虫病的病原体,它拥有一种独特的 TIM 复合物,由几种与相对保守的蛋白 TbTim17 相关的新型蛋白组成。TbTim17 蛋白复合物的串联亲和纯化揭示了 TbTim54 是该复合物的潜在组成部分。
结果
TbTim54 是一种锥虫特异性的 IMS 蛋白,与 IM 外周相关,存在于稍大于 TbTim17 复合物的蛋白质复合物中。TbTim54 的敲低(KD)减少了 TbTim17 的导入,并损害了 TbTim17 复合物的完整性。与 TbTim17 KD 相比,TbTim54 KD 更严重地抑制了内部信号包含的线粒体载体蛋白 MCP3、MCP5 和 MCP11 的体外线粒体导入和组装。此外,与 TbTim17 KD 相比,TbTim54 KD 显著阻碍了异位表达的 MCP3 和 MCP11 的线粒体靶向。这些观察结果以及我们之前的发现表明,像细胞色素氧化酶亚基 4 和 MRP2 这样的 N 端信号包含蛋白的线粒体导入受到 TbTim17 KD 的影响比 TbTim54 KD 更大,这表明 TbTim54 对内部信号包含的线粒体蛋白具有底物特异性。在其他生物体中,IMS 中的小 Tim 伴侣蛋白已知参与 MCP 的易位。我们发现 TbTim54 可以直接与至少六个已知的小 TbTim 蛋白中的两个(TbTim11 和 TbTim13)以及 TbTim17 的 N 端结构域相互作用。
结论
TbTim54 与 TbTim17 相互作用。它在 T. brucei 中内部信号包含的 IM 蛋白的线粒体导入和复合物组装中也起着至关重要的作用。
意义
我们是第一个描述 TbTim54 的人,它是一种新型的 TbTim,主要参与 T. brucei 中 MCP 和 TbTim17 的线粒体导入。
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