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Tripeptidylpeptidase II Structure and Assembly

三肽基肽酶 II 结构和组装

基本信息

批准号：
8036994
负责人：
Bing K. Jap
金额：
$ 32.32万
依托单位：
UNIVERSITY OF CALIF-LAWRENC BERKELEY LAB
依托单位国家：
美国
项目类别：
财政年份：
2008
资助国家：
美国
起止时间：
2008-03-01 至 2012-05-29
项目状态：
已结题

项目摘要

DESCRIPTION (provided by applicant): Cellular protein degradation is a regulated process involved in the control of a broad array of biological processes. The ubiquitin-proteasome cascade is the major system for proteolysis of cytosolic proteins in eukaryotic cells. Tripeptidyl peptidase II (TPP II), a 6 MDa subtilisin-like serine peptidase, cleaves proteasome products to produce MHC class I antigenic peptides and short peptides that can be used as substrates by other exo-peptidases. TPP II mediated endo-peptidolytic activity generates the human immunodeficiency virus (HIV) epitope, Nef. TPP II also appears to be a peptidase critical for cell survival in cases where proteasome activity is sub-optimal, such as has been observed in apoptosis-resistant tumor cells. The TPP II holo-complex is a spindle-shaped structure composed of two twisted strands, each containing 10 dimers; active sites are formed through the sequential association of dimers. As two dimers come into contact along a growing strand, one monomer from each dimer becomes activated. The long-range objective of this research proposal is to understand the molecular mechanism of TPP II mediated peptidolysis, complex assembly, and assembly-dependent activation. In support of achieving this objective we will determine, by x-ray crystallographic methods, the structure of the 600 kDa TPP II tetramer, which has been found to retain full enzymatic activity in two of its four subunits. A high-resolution structure of the tetramer will provide structural details of the two active and two inactive subunits which, in turn, will yield insight into the process of assembly-dependent activation. This work will also include the structure determination of the tetramer with inhibitors bound. We also propose to obtain a density map of the 6 MDa complex to a resolution better than 1.5 nm using single particle cryo-EM methods. We will use this higher resolution EM-based map and the atomic structure of the TPP II tetramer to construct a high-resolution model of the 6 MDa holo-complex. The structural information gained from the atomic model of the tetramers together with a high resolution model of the 6 MDa holo-complex will provide molecular level insight into TPP II substrate access and binding, the peptidolytic process, and the mechanisms involved in regulating assembly of the complex to the length consistently observed in vivo. This knowledge, in turn, may support the design of future therapeutic strategies for the treatment of certain cancers and HIV infection.

描述(由申请人提供)：细胞蛋白质降解是一个受调控的过程，涉及控制一系列广泛的生物过程。泛素-蛋白酶体级联系统是真核细胞胞浆蛋白降解的主要系统。三肽基肽酶II(TPP II)是一种6-丙二醛枯草杆菌素样丝氨酸肽酶，它能裂解蛋白酶体产物，产生MHC-I类抗原肽和可被其他外肽酶作为底物的短肽。TPP II介导的内肽酶活性产生人类免疫缺陷病毒(HIV)表位Nef。在蛋白酶体活性不佳的情况下，TPP II似乎也是一种对细胞存活至关重要的多肽酶，例如在耐凋亡的肿瘤细胞中观察到的情况。TPP II全息复合体是由两条缠绕的链组成的纺锤形结构，每条链含有10个二聚体；活性部位是通过二聚体的顺序缔合形成的。当两个二聚体沿着一条生长的链接触时，每个二聚体中的一个单体被激活。这项研究的长期目标是了解TPP II介导的肽解、复杂组装和组装依赖激活的分子机制。为了实现这一目标，我们将通过X射线结晶学方法确定600 kDa TPP II四聚体的结构，已发现它在其四个亚基中的两个亚基中保留了全酶活性。四聚体的高分辨率结构将提供两个活性亚基和两个非活性亚基的结构细节，这反过来将有助于深入了解依赖组装的激活过程。这项工作还将包括与抑制剂结合的四聚体的结构测定。我们还建议使用单粒子冷冻-EM方法获得分辨率优于1.5 nm的6-丙二醛络合物的密度图。我们将利用这一高分辨率的EM图和TPP II四聚体的原子结构来构建6 MDA全息络合物的高分辨率模型。从四聚体的原子模型获得的结构信息，以及6-丙二醛全息复合体的高分辨率模型，将提供分子水平的洞察，以了解TPP II底物的访问和结合、肽的分解过程，以及将复合体的组装调节到体内一致观察到的长度所涉及的机制。这些知识反过来可能会支持未来治疗某些癌症和艾滋病毒感染的治疗策略的设计。