Virus-encoded cyclin.

Herpesvirus saimiri contains an open reading frame called eclf2 with homology to the cellular type D cyclins. We now show that the eclf2 gene product is a novel virus-encoded cyclin (v-cyclin). The protein encoded by the v-cyclin gene of this oncogenic herpesvirus was found to have an apparent molecular size of 29 kDa in transformed cells. v-Cyclin protein was found to be associated with cdk6, a cellular cyclin-dependent kinase known to interact with cellular type D cyclins. cdk6/v-cyclin complexes strongly phosphorylated Rb fusion protein and histone H1 as substrates in vitro. Mutational analyses showed that highly conserved amino acids in the cyclin box of v-cyclin were important for association with cdk6 and for activation of cdk6 kinase activity. Thus, v-cyclin resembles cellular type D cyclins in primary sequence, in its association with cdk6, by its ability to activate protein kinase activity, and by the presence of functional cyclin box sequences. v-Cyclin exhibited a selective preference for association with cdk6 over other cyclin-dependent kinases and a high level of kinase activation. The properties of v-cyclin suggest a likely role in oncogenic transformation by this T-lymphotropic herpesvirus.     

Staphylococcal enterotoxin superantigens

Staphylococcal enterotoxins (SE) are a family of structurally related proteins that are produced by Staphylococcus aureus. They play a role in the pathogenesis of food poisoning and are the most potent activators of T lymphocytes known. The receptors for SE on antigen-presenting cells are major histocompatibility complex class II molecules. Recent studies have shown that a complex of SE and major histocompatibility complex class II molecules is required for binding to the variable region of the T cell antigen receptor beta-chain. SE mitogenic activity is dependent on induction of interleukin 2, which may be intimately involved in the mechanism of SE toxicity. The minor lymphocyte-stimulating "endogenous" self-superantigen has recently been shown to be a retroviral gene product, so that this too is apparently a microbial superantigen. An understanding of the mechanism of action of these microbial superantigens has implications for normal and pathological immune functions.     

Targeting of superantigens

The bacterial superantigen staphylococcal enterotoxin A (SEA) is an extremely potent activator of T lymphocytes when presented on MHC class II antigens. In order to induce T lymphocytes to reject a tumor, we substituted the specificity of SEA for MHC class II molecules with specificity for tumor cells by combining SEA with a MAb recognizing colon carcinomas. Chemical conjugates or recombinant fusion proteins of the MAb C215 and SEA retained excellent antigen binding properties whereas the binding to MHC class II was markedly reduced. The hybrid proteins directed SEA responsive T cells to tumors with specificity determined by the specificity of the MAb. Significant tumor cell killing was obtained at picomolar concentrations of the hybrid proteins and was the result of direct cell mediated by cytotoxicity as well as production of tumoricidal cytokines by T cells. Targeting of superantigens represents a novel approach to specific immunomodulation and deserves further study as a potential therapy for malignant disease.     

Virus-encoded toxin of Ustilago maydis: two polypeptides are essential for activity.

Cells of Ustilago maydis containing double-stranded RNA viruses secrete a virus-encoded toxin to which other cells of the same species and related species are sensitive. Mutants affected in the expression of the KP6 toxin were characterized, and all were viral mutants. A temperature-sensitive nonkiller mutant indicated that the toxin consists of two polypeptides, 12.5K and 10K, that are essential for the toxic activity. The temperature-sensitive nonkiller mutant was affected in the expression of the 10K polypeptide, and its toxic activity was restored by the addition of the 10K polypeptide to its secreted inactive toxin. These results led to the reexamination of other mutants that were known to complement in vitro. Each was found to secrete one of the two polypeptides. Here we show for the first time that P6 toxin consists of two polypeptides that do not interact in solution, but both are essential for the toxic effect. Studies on the interaction between the two polypeptides indicated that there are no covalent or hydrogen bonds between the polypeptides. Toxin activity is not affected by the presence of 0.3 M NaCl in the toxin preparations and in the medium, suggesting that no electrostatic forces are involved in this interaction. Also, the two polypeptides do not share common antigenic determinants. The activity of the two polypeptides appears to be dependent on a sequential interaction with the target cell, and it is the 10K polypeptide that initiates the toxic effect. The similarity of the U. maydis virus-encoded toxin to that of Saccharomyces cerevisiae is discussed.     

Staphylococcal enterotoxin microbial superantigens

Staphylococcal enterotoxins are a family of structurally related proteins that are produced by Staphylococcus aureus. In addition to their role in the pathogenicity of food poisoning, these microbial superantigens have profound effects on the immune system, which makes them useful tools for understanding its mechanism of action. These molecules (24-30 kDa) are highly hydrophilic and exhibit low alpha helix and high beta pleated sheet content, suggesting a flexible, accessible structure. Staphylococcal enterotoxins are among the most potent activators of T lymphocytes known. The receptors for staphylococcal enterotoxins on antigen-presenting cells are major histocompatibility complex (MHC) class II molecules. Further, the alpha-helical regions of the class II molecule are essential for function and appear to interact directly with the NH2-terminal region of staphylococcal enterotoxins such as SEA. Recent studies have shown that a complex of staphylococcal enterotoxin and MHC class II molecules is required for binding to the V beta region of the T cell antigen receptor. Staphylococcal enterotoxin mitogenic activity is dependent on induction of interleukin 2, which may be intimately involved in the mechanism of toxicity. The mouse minor lymphocyte stimulating (M1s) "endogenous" self-superantigen has been shown to be a retroviral gene product, so this too is apparently a microbial superantigen. An understanding of the mechanisms of action of these microbial superantigens has implications for normal and pathological immune functions.     

Virus-encoded microRNAs: novel regulators of gene expression

MicroRNAs (miRNAs) are a class of small RNAs that have recently been recognized as major regulators of gene expression. They influence diverse cellular processes ranging from cellular differentiation, proliferation, apoptosis and metabolism to cancer. Bioinformatic approaches and direct cloning methods have identified >3500 miRNAs, including orthologues from various species. Experiments to identify the targets and potential functions of miRNAs in various species are continuing but the recent discovery of virus-encoded miRNAs indicates that viruses also use this fundamental mode of gene regulation. Virus-encoded miRNAs seem to evolve rapidly and regulate both the viral life cycle and the interaction between viruses and their hosts.     

EB病毒潜伏膜蛋白-1介导的信号传导

EB病毒编码LMP-1介导的信号传导途径已引起人们广泛的注意.它涉及TRAF/TRADD途径,AP-1途径,JAK/STAT及其他途径.就此作一综述,有助于人们认识LMP-1的致瘤效应.     

Evolving superantigens of Staphylococcus aureus

Staphylococcus aureus bacteria utilize an extensive array of molecular countermeasures to manipulate the defensive microenvironment of the infected host and colonize potentially any tissue. The secreted polypeptides referred to as superantigens are unique among these countermeasures, because they target the multireceptor communication between T cells and antigen-presenting cells that is fundamental to initiating pathogen-specific immune clearance. Superantigens play a critical role in toxic-shock syndrome and food poisoning, yet their function in routine infections is not well understood. While an association of superantigens with cases of human autoimmune disease seems tantalizing, convincing data are not yet available. Blocking antigen-specific T-cell recognition is the primary evolutionary driving force behind superantigen selection, whereas superantigen-specific pathologies are by-products that are apparent only under select conditions.     

Virus-encoded histone doublets are essential and form nucleosome-like structures

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Physiologic expression of two superantigens in the BDF1 mouse.

The majority of endogenous superantigens in the mouse (including the Mls loci) is encoded by mouse mammary tumor proviruses (Mtv) carried in the germline. To understand the differences between the highly stimulatory viral superantigens such as Mls-1a (encoded by Mtv-7), which have biologic activity in vivo and in vitro, and the poorly stimulatory viral superantigens such as Etc-1 (encoded by Mtv-9), which are active only in vivo, the physiologic expression of each Ag was studied in the Mtv-7+ (Mls-1a+), Mtv-9+ (Etc-1+) C57BL/6 x DBA/2 F1 (BDF1) mouse. Using the T cell hybridomas, 1BVB11.40 (anti Etc-1) and 18bbm.19 (anti Mls-1a), we found that similar to Mls-1a, B cells from the spleen and from the thymus present the Etc-1 superantigen, whereas macrophages and dendritic cells do not. Small, resting B cells present the Mls-1a and Etc-1 superantigens poorly; however, the same cells treated with LPS or IL-4 are at least eightfold more efficient in the presentation of these gene products. Furthermore, the effects of LPS and IL-4 are synergistic, but this synergy is not fully explained by the enhancement of I-A and I-E expression. The depletion of IgM+ B cells from neonatal BDF1 mice prevents the clonal deletion of V beta 5+ and 11+ (Etc-1-reactive) cells but not the deletion of V beta 6+ and 8.1+ (Mls-1a reactive) T cells. Despite the persistence of Mls-1a-mediated clonal deletion in B cell-depleted BDF1 mice, these results taken together, argue that the highly stimulatory Mls-1a gene product and the weakly stimulatory Etc-1 gene product are expressed on similar cell types and that their presentation is regulated in a similar way by agents active with B lymphocytes. It is argued that the differences between the highly stimulatory and weakly stimulatory superantigens reflect differences in avidity between the relevant V beta domain and its class II MHC protein/superantigenic ligand.     

超抗原抗癌药物研究进展

肿瘤患的免疫系统通常处于免疫抑制状态,因此如何增强激活机体免疫系统是肿瘤生物治疗关注的问题。超抗原是目前所知的最强的分裂原,极微量的超抗原便能激活大量的T细胞,能对MHC-Ⅱ 肿瘤细胞产生超抗原依赖的细胞毒作用,因而超抗原的抗癌应用颇受重视。本对超抗原抗肿瘤的研究状况及存在问题作了简要回顾。     

丙型肝炎病毒重要编码蛋白重组腺病毒载体的构建

旨在构建含HCV core、E1、E2、F、NS3、NS5a和NS5b基因的重组腺病毒载体。运用PCR技术扩增目的基因片段,通过酶切连接方法将上述7种基因片段克隆至穿梭质粒pAdTrack-TO4中,然后将重组质粒用PmeⅠ线性化后与骨架质粒pAdEasy-1在BJ5183细菌中同源重组。用PacⅠ酶把重组腺病毒载体线性化后转染HEK293细胞后产生重组腺病毒颗粒。利用穿梭质粒中带有绿色荧光蛋白GFP对其感染效率进行监测。结果显示,酶切鉴定和测序结果均证实含core、E1、E2、F、NS3、NS5a和NS5b基因的重组腺病毒构建成功,在感染的Huh7细胞中观察到绿色荧光蛋白GFP。成功制备了高滴度的腺病毒Ad-core、Ad-E1、Ad-E2、Ad-F、Ad-NS3、Ad-NS5a和Ad-NS5b,为后续研究奠定了基础。     

Endogenous Mtv-encoded superantigens are not required for development of murine AIDS.

Immune activation in murine AIDS (MAIDS) has been suggested to involve a superantigen (SAG). The possibility that SAGs encoded by mammary tumor virus (MTV) might be the source of stimulation was studied by using Mtv mice. Mtv- mice developed typical MAIDS, excluding a requirement for Mtv-encoded SAGs in the pathogenesis of this disorder.     

Microbial superantigens: from structure to function

Superantigens are highly potent immune stimulators with a unique ability to interact simultaneously with MHC class II molecules and T cell receptors, forming a trimolecular complex that induces profound T-cell proliferation and massive cytokine production. Recent structural studies have provided a wealth of information regarding these complex interactions, and it is now emerging that, despite their common 3-D architecture, superantigens are able to crosslink MHC class II molecules and T cell receptors in a variety of ways.