Jäger S, Groll M, Huber R, Wolf D H, Heinemeyer W
Institut für Biochemie der Universität Stuttgart, Pfaffenwaldring 55, Stuttgart, D-70569, Germany.
J Mol Biol. 1999 Aug 27;291(4):997-1013. doi: 10.1006/jmbi.1999.2995.
The 26 S proteasome is a large eukaryotic protease complex acting in ubiquitin-mediated degradation of abnormal and many short-lived, regulatory proteins. Its cylinder-shaped 20 S proteolytic core consists of two sets, each of seven different alpha and beta-type subunits arranged into two outer alpha-rings surrounding two inner beta-rings. The beta-rings form a central chamber with a total of six proteolytically active centers located in the beta1, beta2 and beta5 subunits. Activation of these subunits occurs during late assembly stages through intramolecular precursor autolysis removing propeptides attached to Thr1, which then serves as N-terminal nucleophile in substrate hydrolysis. This maturation entails intermolecular cleavage of propeptides residing in two of the non-active beta-type subunits, beta6 and beta7. In yeast, deletion of the beta5/Pre2 propeptide was shown to be lethal by preventing assembly of the core particle, while its expression as a separate entity restored growth. We investigated the role of the yeast beta1/Pre3, beta2/Pup1 and beta7/Pre4 propeptides by expressing the mature subunit moieties without propeptides as C-terminal fusions to ubiquitin. In all cases, viable strains could be generated. Deletion of the beta1/Pre3 and beta7/Pre4 propeptides did not affect cell growth, but deletion of the beta2/Pup1 propeptide led to poor growth, which was partially restored by co-expression of the free propeptide. Gain of proteolytic activity of beta1/Pre3 and beta2/Pup1 was abolished or drastically reduced, respectively, if their respective propeptides were not N-terminally bound. We detected N -alpha-acetylation at Thr1 of beta1/Pre3 as cause for its inactivation. Thus, one role for the propeptides of active beta-type subunits might be to protect the mature subunits catalytic Thr1 alpha-amino group from acetylation. The beta2/Pup1 propeptide was, in addition, required for efficient 20 S proteasome maturation, as revealed by the accumulation of beta7/Pre4 precursor and intermediate processing forms upon expression of mature beta2/Pup1. Finally, growth phenotypes resulting from expression of active site mutated beta-type subunits uncoupled from their propeptides allowed us to deduce the hierarchy of the importance of individual subunit activities for proteasomal function as follows: beta5/Pre2>>beta2/Pup1>/=beta1/Pre3.
26S蛋白酶体是一种大型真核蛋白酶复合体,参与泛素介导的异常蛋白以及许多短命调节蛋白的降解过程。其圆柱形的20S蛋白水解核心由两组组成,每组包含七个不同的α型和β型亚基,排列成围绕两个内部β环的两个外部α环。β环形成一个中央腔室,共有六个蛋白水解活性中心,位于β1、β2和β5亚基中。这些亚基的激活发生在组装后期,通过分子内前体自溶去除连接在Thr1上的前肽,然后Thr1在底物水解中作为N端亲核试剂。这种成熟需要位于两个非活性β型亚基β6和β7中的前肽进行分子间切割。在酵母中,β5/Pre2前肽的缺失通过阻止核心颗粒的组装而显示出致死性,而将其作为单独实体表达可恢复生长。我们通过将不含前肽的成熟亚基部分作为泛素的C端融合蛋白表达,研究了酵母β1/Pre3、β2/Pup1和β7/Pre4前肽的作用。在所有情况下,都可以产生可存活的菌株。β1/Pre3和β7/Pre4前肽的缺失不影响细胞生长,但β2/Pup1前肽的缺失导致生长不良,通过共表达游离前肽可部分恢复。如果β1/Pre3和β2/Pup1各自的前肽未在N端结合,则它们的蛋白水解活性分别被消除或大幅降低。我们检测到β1/Pre3的Thr1处存在N-α-乙酰化,这是其失活的原因。因此,活性β型亚基前肽的一个作用可能是保护成熟亚基催化性的Thr1α-氨基不被乙酰化。此外,如在表达成熟β2/Pup1时β7/Pre4前体和中间加工形式的积累所揭示的,β2/Pup1前肽对于20S蛋白酶体的有效成熟也是必需的。最后,由活性位点突变的β型亚基与其前肽分离表达所产生的生长表型,使我们能够推断出各个亚基活性对于蛋白酶体功能重要性的层次如下:β5/Pre2>>β2/Pup1>/=β1/Pre3。
