Coordinate Control of Virulence Gene Expression in Francisella tularensis Involves Direct Interaction between Key Regulators

In Francisella tularensis, the putative DNA-binding protein PigR works in concert with the SspA protein family members MglA and SspA to control the expression of genes that are essential for the intramacrophage growth and survival of the organism. MglA and SspA form a complex that interacts with RNA polymerase (RNAP), and this interaction between the MglA-SspA complex and RNAP is thought to be critical to its regulatory function. How PigR works in concert with the MglA-SspA complex is not known; previously published findings differ over whether PigR interacts with the MglA-SspA complex, leading to disparate models for how PigR and the MglA-SspA complex exert their regulatory effects. Here, using a combination of genetic assays, we identify mutants of MglA and SspA that are specifically defective for interaction with PigR. Analysis of the MglA and SspA mutants in F. tularensis reveals that interaction between PigR and the MglA-SspA complex is essential in order for PigR to work coordinately with MglA and SspA to positively regulate the expression of virulence genes. Our findings uncover a surface of the MglA-SspA complex that is important for interaction with PigR and support the idea that PigR exerts its regulatory effects through an interaction with the RNAP-associated MglA-SspA complex.     

细菌毒力基因体内表达检测技术研究进展

病原菌入侵宿主是一个及其复杂的过程。为了深入了解病原菌的致病机理,人们需要鉴定那些在感染过程中特异表达的细菌毒力基因。为此,多种体内实验模型被建立起来分析细菌在宿主体内的基因表达,它们包括了体内表达技术、信号标签突变技术、差异荧光诱导、体外转座进行基因组分析和作图技术以及体内诱导抗原技术等。文章对目前运用的这些研究方法进展进行综述,并讨论了它们的优点与不足。     

Bacterial Infection Disrupts Clock Gene Expression to Attenuate Immune Responses

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Toll-Like Receptor Gene Expression during Trichinella spiralis Infection

In Trichinella spiralis infection, type 2 helper T (Th2) cell-related and regulatory T (T_reg) cell-related immune responses are the most important immune events. In order to clarify which Toll-like receptors (TLRs) are closely associated with these responses, we analyzed the expression of mouse TLR genes in the small intestine and muscle tissue during T. spiralis infection. In addition, the expression of several chemokine- and cytokine-encoding genes, which are related to Th2 and T_reg cell mediated immune responses, were analyzed in mouse embryonic fibroblasts (MEFs) isolated from myeloid differentiation factor 88 (MyD88)/TIR-associated proteins (TIRAP) and Toll receptor-associated activator of interferons (TRIF) adapter protein deficient and wild type (WT) mice. The results showed significantly increased TLR4 and TLR9 gene expression in the small intestine after 2 weeks of T. spiralis infection. In the muscle, TLR1, TLR2, TLR5, and TLR9 gene expression significantly increased after 4 weeks of infection. Only the expression of the TLR4 and TLR9 genes was significantly elevated in WT MEF cells after treatment with excretory-secretory (ES) proteins. Gene expression for Th2 chemokine genes were highly enhanced by ES proteins in WT MEF cells, while this elevation was slightly reduced in MyD88/TIRAP^-/- MEF cells, and quite substantially decreased in TRIF^-/- MEF cells. In contrast, IL-10 and TGF-β expression levels were not elevated in MyD88/TIRAP^-/- MEF cells. In conclusion, we suggest that TLR4 and TLR9 might be closely linked to Th2 cell and T_reg cell mediated immune responses, although additional data are needed to convincingly prove this observation.     

神经系统特异表达基因调控机理的研究进展

神经系统特异性基因正确的时空表达受细胞内外信号的调控,信号传导途径最终的靶位点是能结合特异转录因子的DNA序列.目前发现的决定神经系统基因特异性表达的顺式作用元件既有增强子,也有沉默子.它们可以特异性地增强基因在神经系统的表达,或特异性抑制基因在非神经系统的表达. 顺式元件要发挥这些作用,依赖于与其结合的反式因子,而这些反式因子又能与其他蛋白质或DNA序列发生互动, 通过协调作用,共同决定基因的时空表达顺序.     

病毒编码的miRNA:基因表达新的调控因子

微小RNA(microRNA,miRNA)是一类长约22个核苷酸的RNA,在数量、序列、结构、表达和功能上具有多样性。目前,通过生物信息学手段和分子克隆方法,已发现了3518种miRNA,在控制细胞的生长发育、分化、凋亡等过程中发挥着十分重要的作用。最近研究发现疱疹病毒、多瘤病毒、逆转录病毒的某些病毒基因组也能够编码miRNA,这些miRNA在调控病毒基因自身表达以及病毒与宿主相互作用方面可能起重要的作用。某些病毒甚至能够利用宿主体内的miRNA调控其自身表达。找出病毒可能编码的miRNA,探索其对病毒感染、复制、表达的作用,有助于病毒分子生物学的研究,也会为研发防治病毒的新方法和新途径提供新的思路。     

HIV-1基因表达的转录调控

高效抗逆转录病毒治疗（HAART）可以有效地抑制人类免疫缺陷病毒Ⅰ型（HIV-1）的复制及血浆病毒载量,延缓发病进程,改善、提高患者的生活质量和存活时间。但是,一旦停止治疗就会导致血浆病毒血症迅速反弹,HIV-1以原病毒的形式在静息记忆CD4⁺T等细胞中的持续存在是清除HIV-1的一个障碍。HIV-1基因转录的激活与阻抑决定了受感染细胞进入产毒性感染或潜伏感染。本文从原病毒整合位置与转录干扰、细胞转录因子与HIV-1启动子相互作用招募RNA聚合酶起始转录、转录的表观遗传调控和反式激活因子Tat及其相关蛋白促进转录延伸等方面探讨了HIV-1原病毒转录调控机制。