Borissenko Ljudmila, Groll Michael
Ludwig Maximilian Universität München, Adolf Butenandt Institut, Abteilung für Physiologische Chemie, Butenandtstr.5, GebäudeB, 81377 Munich, Germany.
J Mol Biol. 2005 Mar 11;346(5):1207-19. doi: 10.1016/j.jmb.2004.12.056. Epub 2005 Jan 16.
Protein degradation is an essential and strictly controlled process with proteasome and functionally related proteases representing its central part. Tricorn protease (TRI) has been shown to act downstream of the proteasome, degrading produced peptides. Recently, a novel large prokaryotic aminopeptidase oligomeric complex, named TET, has been identified. This complex degrades peptides of different length in organisms where TRI is not present. We determined the crystal structure of TET from the thermophilic archaeon Pyrococcus horikoshii at 1.6 A resolution in native form and in complex with the inhibitor amastatin. We demonstrate that, beside the novel tetrahedral oligomerisation pattern, TET possesses a unique mechanism of substrate attraction and orientation. TET sequentially degrades peptides produced by the proteasome to single amino acids. Furthermore, we reconstituted in vitro the minimal protein degradation system from initial unfolding of labelled protein substrates, up to release of free amino acids. We propose that TET and TRI act as functional analogues in different organisms, with TET being more widely distributed. Thus, TET and TRI represent two evolutionarily diverged pathways of peptide degradation in prokaryotes.
蛋白质降解是一个至关重要且受到严格调控的过程,蛋白酶体及功能相关蛋白酶是其核心组成部分。已证明三角蛋白酶(TRI)在蛋白酶体下游发挥作用,降解产生的肽段。最近,一种新型的大型原核氨基肽酶寡聚复合物,名为TET,已被鉴定出来。在不存在TRI的生物体中,这种复合物可降解不同长度的肽段。我们以1.6埃的分辨率测定了嗜热古菌嗜热栖热菌的TET的天然形式及其与抑制剂抑氨肽酶结合的晶体结构。我们证明,除了新颖的四面体寡聚模式外,TET还具有独特的底物吸引和定向机制。TET将蛋白酶体产生的肽段依次降解为单个氨基酸。此外,我们在体外重建了从标记蛋白质底物的初始解折叠到游离氨基酸释放的最小蛋白质降解系统。我们提出,TET和TRI在不同生物体中作为功能类似物发挥作用,其中TET分布更广泛。因此,TET和TRI代表了原核生物中肽降解的两条进化上不同的途径。
