PDZ结构域的结构特点及其识别特异性配体的机制

PDZ结构域作为介导蛋白质之间相互作用的重要结构域之一,参与到细胞内运输、离子通道、以及各种信号传导通路等多种生物学过程.PDZ结构域是由80~100个氨基酸组成的小的球状结构域,对某些多PDZ结构域蛋白来说,需要一前一后形成串联体才能正确折叠.另外,PDZ结构域相互之间也可以形成同源或异源二聚体.这些PDZ结构域的突出特点是能特异性地识别配体靶蛋白C末端短的氨基酸序列,但有些也能识别靶蛋白的内部β发夹结构.而一些支架蛋白的PDZ结构域与细胞膜上脂类的相互作用则增加了其与膜的亲和性.本文简要概括了PDZ结构域的结构特点及其对配体的各种特异性识别的机制,从而为研究各种PDZ蛋白的功能提供了结构基础.     

Identification of specificity and promiscuity of PDZ domain interactions through their dynamic behavior

PDZ domains (PDZs), the most common interaction domain proteins, play critical roles in many cellular processes. PDZs perform their job by binding specific protein partners. However, they are very promiscuous, binding to more than one protein, yet selective at the same time. We examined the binding related dynamics of various PDZs to have insight about their specificity and promiscuity. We used full atomic normal mode analysis and a modified coarse‐grained elastic network model to compute the binding related dynamics. In the latter model, we introduced specificity for each single parameter constant and included the solvation effect implicitly. The modified model, referred to as specific‐Gaussian Network Model (s‐GNM), highlights some interesting differences in the conformational changes of PDZs upon binding to Class I or Class II type peptides. By clustering the residue fluctuation profiles of PDZs, we have shown: (i) binding selectivities can be discriminated from their dynamics, and (ii) the dynamics of different structural regions play critical roles for Class I and Class II specificity. s‐GNM is further tested on a dual‐specific PDZ which showed only Class I specificity when a point mutation exists on the βA‐βB loop. We observe that the binding dynamics change consistently in the mutated and wild type structures. In addition, we found that the binding induced fluctuation profiles can be used to discriminate the binding selectivity of homolog structures. These results indicate that s‐GNM can be a powerful method to study the changes in binding selectivities for mutant or homolog PDZs. Proteins 2009. © 2009 Wiley‐Liss, Inc.     

Systematic Analysis of Bacterial Effector-Postsynaptic Density 95/Disc Large/Zonula Occludens-1 (PDZ) Domain Interactions Demonstrates Shigella OspE Protein Promotes Protein Kinase C Activation via PDLIM Proteins

Diseases caused by many Gram-negative bacterial pathogens depend on the activities of bacterial effector proteins that are delivered into eukaryotic cells via specialized secretion systems. Effector protein function largely depends on specific subcellular targeting and specific interactions with cellular ligands. PDZ domains are common domains that serve to provide specificity in protein-protein interactions in eukaryotic systems. We show that putative PDZ-binding motifs are significantly enriched among effector proteins delivered into mammalian cells by certain bacterial pathogens. We use PDZ domain microarrays to identify candidate interaction partners of the Shigella flexneri effector proteins OspE1 and OspE2, which contain putative PDZ-binding motifs. We demonstrate in vitro and in cells that OspE proteins interact with PDLIM7, a member of the PDLIM family of proteins, which contain a PDZ domain and one or more LIM domains, protein interaction domains that participate in a wide variety of functions, including activation of isoforms of protein kinase C (PKC). We demonstrate that activation of PKC during S. flexneri infection is attenuated in the absence of PDLIM7 or OspE proteins and that the OspE PDZ-binding motif is required for wild-type levels of PKC activation. These results are consistent with a model in which binding of OspE to PDLIM7 during infection regulates the activity of PKC isoforms that bind to the PDLIM7 LIM domain.     

Influence of the Cytoplasmic Domains of Aquaporin-4 on Water Conduction and Array Formation

Phosphorylation of Ser180 in cytoplasmic loop D has been shown to reduce the water permeability of aquaporin (AQP) 4, the predominant water channel in the brain. However, when the structure of the S180D mutant (AQP4M23S180D), which was generated to mimic phosphorylated Ser180, was determined to 2.8 Å resolution using electron diffraction patterns, it showed no significant differences from the structure of the wild-type channel. High-resolution density maps usually do not resolve protein regions that are only partially ordered, but these can sometimes be seen in lower-resolution density maps calculated from electron micrographs. We therefore used images of two-dimensional crystals and determined the structure of AQP4M23S180D at 10 Å resolution. The features of the 10-Å density map are consistent with those of the previously determined atomic model; in particular, there were no indications of any obstruction near the cytoplasmic pore entrance. In addition, water conductance measurements, both in vitro and in vivo, show the same water permeability for wild-type and mutant AQP4M23, suggesting that the S180D mutation neither reduces water conduction through a conformational change nor reduces water conduction by interacting with a protein that would obstruct the cytoplasmic channel entrance. Finally, the 10-Å map shows a cytoplasmic density in between four adjacent tetramers that most likely represents the association of four N termini. This finding supports the critical role of the N terminus of AQP4 in the stabilization of orthogonal arrays, as well as their interference through lipid modification of cysteine residues in the longer N-terminal isoform.     

Crystal Structure of USP7 Ubiquitin-like Domains with an ICP0 Peptide Reveals a Novel Mechanism Used by Viral and Cellular Proteins to Target USP7

Herpes simplex virus-1 immediate-early protein ICP0 activates viral genes during early stages of infection, affects cellular levels of multiple host proteins and is crucial for effective lytic infection. Being a RING-type E3 ligase prone to auto-ubiquitination, ICP0 relies on human deubiquitinating enzyme USP7 for protection against 26S proteasomal mediated degradation. USP7 is involved in apoptosis, epigenetics, cell proliferation and is targeted by several herpesviruses. Several USP7 partners, including ICP0, GMPS, and UHRF1, interact through its C-terminal domain (CTD), which contains five ubiquitin-like (Ubl) structures. Despite the fact that USP7 has emerged as a drug target for cancer therapy, structural details of USP7 regulation and the molecular mechanism of interaction at its CTD have remained elusive. Here, we mapped the binding site between an ICP0 peptide and USP7 and determined the crystal structure of the first three Ubl domains bound to the ICP0 peptide, which showed that ICP0 binds to a loop on Ubl2. Sequences similar to the USP7-binding site in ICP0 were identified in GMPS and UHRF1 and shown to bind USP7-CTD through Ubl2. In addition, co-immunoprecipitation assays in human cells comparing binding to USP7 with and without a Ubl2 mutation, confirmed the importance of the Ubl2 binding pocket for binding ICP0, GMPS and UHRF1. Therefore we have identified a novel mechanism of USP7 recognition that is used by both viral and cellular proteins. Our structural information was used to generate a model of near full-length USP7, showing the relative position of the ICP0/GMPS/UHRF1 binding pocket and the structural basis by which it could regulate enzymatic activity.     

水稻类Tubby蛋白质在叶片生长和白叶枯病抗性反应中的表达

类Tubby蛋白质（Tubby-like protein,TLP）在动植物中广泛存在,暗示其在生命过程中发挥重要的作用。水稻（Oryza sativa）基因组中有14个TLP家族成员,首先制备了这些蛋白质的抗体,用免疫印迹方法检测了它们在水稻叶片不同生长时期的表达情况,揭示其表达模式;然后对Xa21介导的水稻白叶枯病抗性反应不同时间点进行检测,发现OsTLP2、OsTLP7、OsTLP8和OsTLP9等4个蛋白质的表达发生了变化;进一步比较它们在抗病、感病反应和对照处理中的表达情况,发现不同反应间的表达也有区别。该研究结果为阐释水稻TLP在叶片生长过程中的功能,尤其是在水稻-白叶枯病菌互作过程中的作用提供了重要线索。     

Preserved Close Linkage Between the Genes Encoding Troponin I and Troponin T, Reflecting an Evolution of Adapter Proteins Coupling the Ca2+ Signaling of Contractility

Ca²⁺-regulated motility is essential to numerous cellular functions, including muscle contraction. Systems with troponin C, myosin light chain, or calmodulin as the Ca²⁺ receptor have evolved in striated muscle and other types of cells to transduce the cytoplasm Ca²⁺ signals into allosteric conformational changes of contractile proteins. While these Ca²⁺ receptors are homologous proteins, their coupling to the responding elements is quite different in various cell types. The Ca²⁺ regulatory system in vertebrate striated muscle represents a highly specialized such signal transduction pathway consisting of the troponin complex and tropomyosin associated with the actin filament. To understand the molecular mechanism in the Ca²⁺ regulation of muscle contraction and cell motility, we have revealed a preserved ancestral close linkage between the genes encoding two of the troponin subunits, troponin I and troponin T, in the genome of mouse. The data suggest that the troponin I and troponin T genes may have originated from a single locus and evolved in parallel to encode a striated muscle-specific adapter to couple the Ca²⁺ receptor, troponin C, to the actin–myosin contractile machinery. This hypothesis views the three troponin subunits as two structure–function domains: the Ca²⁺ receptor and the signal transducing adapter. This model may help to further our understanding of the Ca²⁺ regulation of muscle contraction and the structure–function relationship of other potential adapter proteins which are converged to constitute the Ca²⁺ signal transduction pathways governing nonmuscle cell motility. Received: 15 April 1999 / Accepted: 15 July 1999     

水稻病程相关PR1家族蛋白质在叶片生长及与白叶枯病菌互作反应中的表达

病程相关(PR)蛋白质经常被用作抗病反应的分子标记。利用免疫印迹(WB)技术检测了7个PR1家族蛋白质在水稻(Oryza sativa)叶片生长及与白叶枯病菌互作反应过程中的表达,发现6个PR1家族蛋白质在叶片生长中有表达。检测PR1蛋白质在Xa21介导的抗白叶枯病过程中的表达,结果显示PR1#052、PR1#072、PR1#073和PR1#121四个蛋白质在抗病反应后期呈上调或诱导表达,PR1#071则表达下调。进一步比较它们在抗病、感病和对照(Mock)反应中的表达丰度,发现在抗病和感病反应中的变化幅度均明显大于对照反应,推测这些PR蛋白质在水稻-白叶枯病菌互作反应中发挥作用。另外,对PR1基因上游启动子区的cis元件进行了分析。该研究初步揭示了水稻PR1家族蛋白质的表达谱,为进一步了解PR1蛋白质的功能提供了线索。     

Hyperactivation of Mammalian Target of Rapamycin Complex 1 (mTORC1) Promotes Breast Cancer Progression through Enhancing Glucose Starvation-induced Autophagy and Akt Signaling

The mammalian target of rapamycin complex 1 (mTORC1) is a master regulator of cell growth and proliferation. Recent studies have suggested that constitutive activation of mTORC1 in normal cells could lead to malignant tumor development in several tissues. However, the mechanisms of mTORC1 hyperactivation to promote the growth and metastasis of breast or other cancers are still not well characterized. Here, using a new inducible deletion system, we show that deletion of Tsc1 in mouse primary mammary tumor cells, either before or after their transplantation, significantly increased their growth in vivo. The increase in tumor growth was completely rescued by rapamycin treatment, suggesting a major contribution from mTORC1 hyperactivation. Interestingly, glucose starvation-induced autophagy, but not amino acid starvation-induced autophagy, was increased significantly in Tsc1-null tumor cells. Further analysis of these cells also showed an increased Akt activation but no significant changes in Erk signaling. Together, these results provide insights into the mechanism by which hyperactivation of mTORC1 promotes breast cancer progression through increasing autophagy and Akt activation in vivo.     

p66shc Inhibits Insulin-like Growth Factor-I Signaling via Direct Binding to Src through Its Polyproline and Src Homology 2 Domains, Resulting in Impairment of Src Kinase Activation

p66^shc is increased in response to cell stress, and these increases regulate growth factor actions. These studies were conducted to determine how p66^shc alters IGF-I-stimulated Src activation, leading to decreased IGF-I actions. Our results show that p66^shc binds to Src through a polyproline sequence motif contained in the CH2 domain, a unique domain in p66^shc, and IGF-I stimulates this interaction. Disruption of this interaction using a synthetic peptide containing the p66^shc polyproline domain or expression of a p66^shc mutant containing substitutions for the proline residues (P47A/P48A/P50A) resulted in enhanced Src kinase activity, p52^shc phosphorylation, MAPK activation, and cell proliferation in response to IGF-I. To determine the mechanism of inhibition, the full-length CH2 domain and intact p66^shc were tested for their ability to directly inhibit Src kinase activation in vitro. The CH2 domain peptide was clearly inhibitory, but full-length p66^shc had a greater effect. Deletion of the C-terminal Src homology 2 domain in p66^shc reduced its ability to inhibit Src kinase activation. These findings demonstrate that p66^shc utilizes a novel mechanism for modulating Src kinase activation and that this interaction is mediated through both its collagen homologous region 2 and Src homology 2 domains.     

p53/TAp63 and AKT Regulate Mammalian Target of Rapamycin Complex 1 (mTORC1) Signaling through Two Independent Parallel Pathways in the Presence of DNA Damage

Under conditions of DNA damage, the mammalian target of rapamycin complex 1 (mTORC1) is inhibited, preventing cell cycle progression and conserving cellular energy by suppressing translation. We show that suppression of mTORC1 signaling to 4E-BP1 requires the coordinated activity of two tumor suppressors, p53 and p63. In contrast, suppression of S6K1 and ribosomal protein S6 phosphorylation by DNA damage is Akt-dependent. We find that loss of either p53, required for the induction of Sestrin 1/2, or p63, required for the induction of REDD1 and activation of the tuberous sclerosis complex, prevents the DNA damage-induced suppression of mTORC1 signaling. These data indicate that the negative regulation of cap-dependent translation by mTORC1 inhibition subsequent to DNA damage is abrogated in most human cancers.     

种间竞争梯度对白车轴草与其病原菌白车轴草单孢锈菌相互作用的影响（英文） 刘登义 Lars Ericson

 白车轴草(Trifolium repens)在与其病原菌白车轴草单孢锈菌(Uromyces trifolii-repentis)的长期相互作用中分化形成了抗病型(Resistance)无性系和易感型(Susceptibility)无性系。该研究工作旨在了解：1)在种间竞争不断增强的环境梯度中,抗病型无性系和易感型无性系的生长表现有何区别?2)在同样的实验条件下,分别对抗病型无性系和易感型无性系进行接种感染后,两者的生长表现又有何区别?在一严重感病的白车轴草自然种群中,分别标定17个抗病型无性系和14个易感     

Differential Interactions Between an Aphid Endohyperparasitoid and Three Honeydew-Collecting Ant Species: A Field Study of Alloxysta brevis (Thomson) (Hymenoptera: Alloxystidae)

The behavioral interactions between the chemically protected aphid hyperparasitoid Alloxysta brevis and three trophobiotic ant species were examined in the field on thistles. The patterns were not essentially influenced by hyperparasitoid sex. Ants differed in their guarding behavior of aphids and their response toward A. brevis. Lasius niger attacked the hyperparasitoid more readily than Myrmica laevinodis, while aggression by Formica rufa was intermediate. Apart from applying chemical defense, A. brevis responded to ants by flying away (mainly at L. niger) or with avoidance behavior (mainly at M. laevinodis). Additionally, females might switch their tactics from flight to defense with increasing age. Females left the plant more often after encounters with L. niger or F. rufa than with M. laevinodis. Disturbance by any ant species affected the foraging activities, reducing oviposition success to nearly zero.