4.1B蛋白的抑制肿瘤作用

4.1 R和Merlin是4.1蛋白超家族中两个功能比较清楚的成员,前者通过结合肌动蛋白和血影蛋白维持红细胞骨架结构的完整性:后者为抑癌蛋白,其缺失与脑膜瘤发生有关.4.1B蛋白是4.1R和Merlin的同源蛋白,与二者的结构和功能具有相似性.4.1B蛋白由三个保守的结构域构成,即FERM、SABD和CTD,通过这三个结构域,能与一系列蛋白质相互作用.4.1 B蛋白表达缺失与脑膜瘤、乳腺癌和非小细胞肺癌的发生相关,而过量表达则可激活JNK信号途径,促进细胞凋亡;此外,4.1 B蛋白还具有抑制肿瘤转移的功能.因此,目前多认为4.1B基因可能是一个抑癌基因.     

细胞膜蛋白与细胞骨架蛋白相互作用研究进展

细胞膜蛋白与胞浆骨架蛋白的相互作用对于维持细胞正常形态,细胞粘附与信号传导有重要作用,含有4.1/JEF结构域的蛋白4.1超家族与含有PDZ结构域的MAGUK蛋白家族能结合多种膜蛋白胞内区与胞浆蛋白,在膜蛋白与胞浆蛋白之间建立联系,对于细胞、细胞-细胞间连接的正常结构与功能的维持有着重要作用。     

4.1N与相关蛋白质相互作用研究进展

蛋白4.1N是细胞骨架蛋白4.1家族的一员,具有保守的血影蛋白-肌动蛋白结合结构域、羧基端结构域、膜结合结构域及其相邻的调节结构域。本文综述4.1N与受体蛋白及其他特定蛋白质分子的相互作用研究情况,表明4.1N对细胞和机体正常生理、生命活动具有重要意义。     

细胞膜蛋白与细胞骨架蛋白相互作用研究进展

细胞膜蛋白与胞浆骨架蛋白的相互作用对于维持细胞正常形态 ,细胞粘附与信号传导有重要作用。含有 4 .1 JEF结构域的蛋白 4 .1超家族与含有PDZ结构域的MAGUK蛋白家族能结合多种膜蛋白胞内区与胞浆蛋白 ,在膜蛋白与胞浆蛋白之间建立联系 ,对于细胞、细胞 -细胞间连接的正常结构与功能的维持有着重要作用。     

蛋白4.1家族在神经系统中的研究进展

蛋白4.1家族是细胞骨架蛋白,包括4.1N、4.1B、4.1G和4.1R四个成员,含有膜结合结构域、血影蛋白-肌动蛋白结合结构域和C端结构域3个高度保守的结构和功能域。蛋白4.1家族在人体包括神经系统等多种组织中表达。对蛋白4.1家族在神经系统Ca2+信号转导、受体通道定位与转运、髓鞘等多种重要结构形成中的重要作用进行综述。近来,蛋白4.1家族发挥抑癌基因作用也引起了广泛关注。     

RanBPM的结构和功能

RanBPM是Ran蛋白在微管组织中心的结合蛋白。RanBPM包含5个结构域,分别是氨基端的脯氨酸结构域、SPRY结构域、LiSH结构域、CTLH结构域和CRA结构域。其中SPRY结构域和CRA结构域介导RanBPM与其它蛋白质间相互作用。RanBPM能与众多蛋白质相互作用,因而被认为是脚手架蛋白(scaffolding protein),它和几种受体蛋白相互作用后参与了细胞内多种信号转导途径。RanBPM能与细胞周期相关蛋白相互作用,调节细胞周期,它还参与了免疫系统、生殖系统和神经系统的调节。此外,RanBPM还能抑制蛋白质泛素化,是一个肿瘤细胞的抑制因子。     

BAR结构域蛋白质的功能

近期对果蝇双载蛋白(amphiphysin)BAR结构域晶体结构的报道,使得BAR结构域研究成为热点。虽然在序列水平上保守性较低,但双载蛋白的BAR结构域与Arfaptin 2的GTP酶结合结构域在结构上极为相似。通过对两种蛋白质的BAR结构域同源序列进行检索分析,发现了大量含BAR结构域相关蛋白质。研究发现,BAR结构域蛋白质多数都参与细胞内物质转运及胞吞作用;BAR结构域不仅可以通过其二聚化基元感知和诱导膜的弯曲,而且某些蛋白质的BAR结构域还具有与小GTP酶结合的功能。     

类蛋白质互作网络hub蛋白与其结构域关联分析

hub蛋白质作为参与较多互作的"中心蛋白".在实现蛋白质功能和生命活动中发挥着关键作用.而结构域作为蛋白质上的基本功能区域,决定着蛋白质功能及蛋白质互作的情况.互作网络中hub蛋白质和结构域对于蛋白质功能的实现均起到决定性的作用.对蛋白质互作与结构域的关系分析表明.蛋白质互作与结构域之间存在着密切的联系.对人类蛋白质互作网络中的hub蛋白与结构域进行关联分析.探讨hub蛋白及其互作partner与结构域数目之间的关系,并通过hub蛋白质之间的互作对相应结构域的关系进行进一步的论证.     

真核生物中锌指蛋白的结构与功能

真核生物中的许多蛋白质分子包含锌指结构区,这类蛋白称为锌指蛋白.锌指蛋白因其包含特殊的指状结构,在对DNA、蛋白质和RNA的识别和结合中起重要作用.许多锌指蛋白的锌指结构域包含能与DNA特异结合的区域,并与某些效应结构域（如KRAB、SCAN、BTB/POZ、SNAG、SANT和PLAG等）相连,这类锌指蛋白常作为转录因子起作用,可调控靶基因的转录.一些锌指蛋白包含蛋白质识别结构域（如LIM锌指、MYND锌指、PHD锌指和RING锌指等）,它们能够特异地介导蛋白质之间的相互作用,因此被称作蛋白适配器.此外,某些锌指蛋白还可以结合RNA,起转录后调控作用.本文就锌指蛋白与DNA、RNA以及蛋白质分子间的相互作用作一综述.     

利用随机多肽文库研究ZO-1中PDZ3结构域的配体结合特点

建立一种研究PDZ结构域配体结合特点的简单方法 .利用酵母双杂交技术从随机多肽文库中寻找所有可能与ZO 1中PDZ3结构域结合的C末端序列 ,从现有蛋白质数据库中检索所有具有该C末端蛋白 .利用液体培养物 β 半乳糖苷酶检测实验 ,比较文库中筛选的C末端序列和已知的PDZ3结构域结合配体———JAM的C末端 (SFLV)与PDZ3结构域结合的强弱 .共筛选到 3个阳性克隆 ,其C末端序列分别为 LGWV、 LVWV和 DEWV .前 2者属于第二类PDZ结构域 ,后者属于第三类 .蛋白质数据库检索结果表明 ,有多个蛋白质具有 LGWV、 LVWV末端 ,没有检索到任何具有 DEWV末端的蛋白质 .结合强度实验结果表明 ,它们与PDZ3结构域结合强度依次为 DEWV > LGWV > LVWV > SFLV ,说明筛选的 3个C末端除了反映ZO 1中PDZ3结构域可能的潜在结合配体外 ,也有可能成为JAM蛋白阻断性试剂甚至药物的重要组成部分之一 .利用随机多肽文库 ,可以尽可能寻找所有可能与PDZ结构域结合的C末端序列 ,大大提高了基因文库筛选的效率     

Tissue-specific analogues of erythrocyte protein 4.1 retain functional domains

Analogues of the human erythroid membrane skeletal component protein 4.1 have been identified in perfused rat tissues and human T and B lymphocyte cell lines. olyclonal antibodies were used which are specific for all domains of protein 4.1, the spectrin-actin-promoting 8-Kd peptide, the membrane-binding 30-Kd domain, and the 50-Kd domain. Antibody reactivity, by Western blotting of tissue homogenates, shows reactivity with proteins varying in molecular weight from 175 Kd to 30 Kd. Further, these protein 4.1 analogues appear to be expressed in a tissue-specific fashion. Of the analogues detected there appear to be at least three classes: analogues containing all erythroid protein 4.1 domains, analogues containing all domains but with modified antigenic epitopes, and analogues containing only some domains. Chemical cleavage at cysteine linkages indicates that in analogues containing the 30-Kd region the location of cysteine is highly conserved. This datum suggests that in nonerythroid 4.1 isoforms of higher molecular weight the additional protein mass is added to the amino terminal end (30 Kd end).     

Retention of a cell adhesion complex at the paranodal junction requires the cytoplasmic region of Caspr

An axonal complex of cell adhesion molecules consisting of Caspr and contactin has been found to be essential for the generation of the paranodal axo-glial junctions flanking the nodes of Ranvier. Here we report that although the extracellular region of Caspr was sufficient for directing it to the paranodes in transgenic mice, retention of the Caspr-contactin complex at the junction depended on the presence of an intact cytoplasmic domain of Caspr. Using immunoelectron microscopy, we found that a Caspr mutant lacking its intracellular domain was often found within the axon instead of the junctional axolemma. We further show that a short sequence in the cytoplasmic domain of Caspr mediated its binding to the cytoskeleton-associated protein 4.1B. Clustering of contactin on the cell surface induced coclustering of Caspr and immobilized protein 4.1B at the plasma membrane. Furthermore, deletion of the protein 4.1B binding site accelerated the internalization of a Caspr-contactin chimera from the cell surface. These results suggest that Caspr serves as a "transmembrane scaffold" that stabilizes the Caspr/contactin adhesion complex at the paranodal junction by connecting it to cytoskeletal components within the axon.     

4．1B蛋白表达与非小细胞肺癌进展的关系

目的：探讨4．1B蛋白表达与非小细胞肺癌（NSCLC）进展的关系。方法：收集166例临床手术切除、石蜡包埋的原发NSCLC组织,免疫组化检测4．1B蛋白表达,分析其与NSCLC进展的关系。结果：26例4．1B蛋白表达于细胞膜上。69例4．1B蛋白表达缺失,71例胞浆表达。包括胞浆表迭在内,4．1B蛋白异常表达率为84．34％。肿瘤最大直径≤3cm组、未转移组、临床分期I和II期组4．1B蛋白胞膜表达阳性率分别高于肿瘤最大直径〉3cm组、转移组、III和Ⅳ期组,差异有统计学意义（P〈0．0．1）,但4．1B细胞浆表达阳性率在各组间差异无统计学意义（P〉0．05）。结论：在NSCLC组织内,4．1B蛋白存在表达缺失现象,也存在异常定位现象。表达于细胞膜的4．1B蛋白在NSCLC发展过程中可能发挥抑制作用,其表达缺失可能促进肿瘤进展。     

A nonerythroid isoform of protein 4.1R interacts with the nuclear mitotic apparatus (NuMA) protein

Red blood cell protein 4.1 (4.1R) is an 80- kD erythrocyte phosphoprotein that stabilizes the spectrin/actin cytoskeleton. In nonerythroid cells, multiple 4.1R isoforms arise from a single gene by alternative splicing and predominantly code for a 135-kD isoform. This isoform contains a 209 amino acid extension at its NH2 terminus (head piece; HP). Immunoreactive epitopes specific for HP have been detected within the cell nucleus, nuclear matrix, centrosomes, and parts of the mitotic apparatus in dividing cells. Using a yeast two-hybrid system, in vitro binding assays, coimmunolocalization, and coimmunoprecipitation studies, we show that a 135-kD 4.1R isoform specifically interacts with the nuclear mitotic apparatus (NuMA) protein. NuMA and 4.1R partially colocalize in the interphase nucleus of MDCK cells and redistribute to the spindle poles early in mitosis. Protein 4.1R associates with NuMA in the interphase nucleus and forms a complex with spindle pole organizing proteins, NuMA, dynein, and dynactin during cell division. Overexpression of a 135-kD isoform of 4.1R alters the normal distribution of NuMA in the interphase nucleus. The minimal sequence sufficient for this interaction has been mapped to the amino acids encoded by exons 20 and 21 of 4.1R and residues 1788-1810 of NuMA. Our results not only suggest that 4.1R could, possibly, play an important role in organizing the nuclear architecture, mitotic spindle, and spindle poles, but also could define a novel role for its 22-24-kD domain.     

A novel 4.1 ezrin radixin moesin (FERM)-containing protein, 'Willin'

The 4.1 superfamily of proteins contain a 4.1 Ezrin Radixin Moesin (FERM) domain and are described as linking the cytoskeleton with the plasma membrane. Here, we describe a new FERM domain-containing protein called Willin. Willin has a recognizable FERM domain within its N-terminus and is capable of binding phospholipids. Its intra-cellular distribution can be cytoplasmic or at the plasma membrane where it can co-localize with actin. However, the plasma membrane location of Willin is not influenced by cytochalasin D induced actin disruption but it is induced by the addition of epidermal growth factor.     

Human CASK/LIN-2 Binds Syndecan-2 and Protein 4.1 and Localizes to the Basolateral Membrane of Epithelial Cells

In Caenorhabditis elegans, mutations in the lin-2 gene inactivate the LET-23 receptor tyrosine kinase/Ras/MAP kinase pathway required for vulval cell differentiation. One function of LIN-2 is to localize LET-23 to the basal membrane domain of vulval precursor cells. LIN-2 belongs to the membrane-associated guanylate kinase family of proteins. We have cloned and characterized the human homolog of LIN-2, termed hCASK, and Northern and Western blot analyses reveal that it is ubiquitously expressed. Indirect immunofluorescence localizes CASK to distinct lateral and/or basal plasma membrane domains in different epithelial cell types. We detect in a yeast two-hybrid screen that the PDZ domain of hCASK binds to the heparan sulfate proteoglycan syndecan-2. This interaction is confirmed using in vitro binding assays and immunofluorescent colocalization. Furthermore, we demonstrate that hCASK binds the actin-binding protein 4.1. Syndecans are known to bind extracellular matrix, and to form coreceptor complexes with receptor tyrosine kinases. We speculate that CASK mediates a link between the extracellular matrix and the actin cytoskeleton via its interaction with syndecan and with protein 4.1. Like other membrane-associated guanylate kinases, its multidomain structure enables it to act as a scaffold at the membrane, potentially recruiting multiple proteins and coordinating signal transduction.     

Band 4.1 proteins regulate integrin-dependent cell spreading

Integrins link the extracellular matrix (ECM) to the cytoskeleton to control cell behaviors including adhesion, spreading and migration. Band 4.1 proteins contain 4.1, ezrin, radixin, moesin (FERM) domains that likely mediate signaling events and cytoskeletal reorganization via integrins. However, the mechanisms by which Band 4.1 proteins and integrins are functionally interconnected remain enigmatic. Here we have investigated roles for Band 4.1 proteins in integrin-mediated cell spreading using primary astrocytes as a model system. We demonstrate that Proteins 4.1B and 4.1G show dynamic patterns of sub-cellular localization in astrocytes spreading on fibronectin. During early stages of cell spreading Proteins 4.1B and 4.1G are enriched in ECM adhesion sites but become more diffusely localized at later stages of spreading. Combinatorial inactivation of Protein 4.1B and 4.1G expression leads to impaired astrocyte spreading. Furthermore, in exogenous expression systems we show that the isolated Protein 4.1 FERM domain significantly enhances integrin-mediated cell spreading. Protein 4.1B is dispensable for reactive astrogliosis in experimental models of cortical injury, likely due to functional compensation by related Protein 4.1 family members. Collectively, these findings reveal that Band 4.1 proteins are important intracellular components for integrin-mediated cell spreading.     

Nectin-like molecule 1 is a protein 4.1N associated protein and recruits protein 4.1N from cytoplasm to the plasma membrane

Nectins are immunoglobulin superfamily adhesion molecules that participate in the organization of epithelial and endothelial junctions. Sharing high homology with the poliovirus receptor (PVR/CD155), nectins were also named poliovirus receptor-related proteins (PRRs). Four nectins and five nectin-like molecules have been identified. Here we describe the cloning and characterization of human and mouse nectin-like molecular 1 (NECL1). Human and mouse NECL1 share 87.3% identity at the amino acid level. NECL1 contains an ectodomain made of three immunoglobulin-like domains, and a cytoplasmic region homologous to those of glycophorin C and contactin-associated protein. RNA blot and in situ hybridization analysis showed that NECL1 predominantly expressed in the central nervous system, mainly in neuronal cell bodies in a variety of brain regions including the cerebellum, cerebral cortex and hippocampus. In vitro binding assay proved the association of NECL1 with protein 4.1N. NECL1 localizes to the cell-cell junctions and recruits protein 4.1N to the plasma membranes through its C-terminus, thus may regulate the function of the cell-cell junction. We propose that the NECL1 and protein 4.1N complex is involved in the morphological development, stability, and dynamic plasticity of the nervous system.     

The synthesis and accumulation of membrane protein 4.1 in Friend erythroleukemia cells

The effect of extensive differentiation on the synthesis and accumulation of protein 4.1 were studied on Friend erythroleukemia cells grown in suspension and on fibronectin coated dishes. Whole membranes of Friend erythroleukemia cells (FELC) contained a protein 4.1a and 4.1b doublet of Mr 76 and 74 kDa and two minor bands of Mr 105 and 43 kDa that cross-reacted with anti-human protein 4.1 IgG. These proteins were present even in uninduced cells. The synthesis of protein 4.1 was maximal after 4 days of induction in both suspension culture and in fibronectin-coated dishes whereas the protein 4.1 continued to accumulate until the seventh day. More protein 4.1 accumulated in cells grown on fibronectin-coated dishes, at each stage of differentiation, than in cells grown in suspension. The protein 4.1a/4.1b ratio changed during differentiation. The amounts of protein 4.1b increased progressively after induction until the protein 4.1a/4.1b ratio was similar to that of mouse mature erythrocyte. The protein 4.1a/4.1b ratio appears to be an internal marker of erythroid differentiation.