The translational landscape as regulated by the RNA helicase DDX3

Continuously renewing the proteome, translation is exquisitely controlled by a number of dedicated factors that interact with the ribosome. The RNA helicase DDX3 belonging to the DEAD box family has emerged as one of the critical regulators of translation, the failure of which is frequently observed in a wide range of proliferative, degenerative, and infectious diseases in humans. DDX3 unwinds double-stranded RNA molecules with coupled ATP hydrolysis and thereby remodels complex RNA structures present in various protein-coding and noncoding RNAs. By interacting with specific features on messenger RNAs (mRNAs) and 18S ribosomal RNA (rRNA), DDX3 facilitates translation, while repressing it under certain conditions. We review recent findings underlying these properties of DDX3 in diverse modes of translation, such as cap-dependent and cap-independent translation initiation, usage of upstream open reading frames, and stress-induced ribonucleoprotein granule formation. We further discuss how disease-associated DDX3 variants alter the translation landscape in the cell.     

HIV-1 Tat protein induces glial cell autophagy through enhancement of BAG3 protein levels

BAG3 protein has been described as an anti-apoptotic and pro-autophagic factor in several neoplastic and normal cells. We previously demonstrated that BAG3 expression is elevated upon HIV-1 infection of glial and T lymphocyte cells. Among HIV-1 proteins, Tat is highly involved in regulating host cell response to viral infection. Therefore, we investigated the possible role of Tat protein in modulating BAG3 protein levels and the autophagic process itself. In this report, we show that transfection with Tat raises BAG3 levels in glioblastoma cells. Moreover, BAG3 silencing results in highly reducing Tat- induced levels of LC3-II and increasing the appearance of sub G0/G1 apoptotic cells, in keeping with the reported role of BAG3 in modulating the autophagy/apoptosis balance. These results demonstrate for the first time that Tat protein is able to stimulate autophagy through increasing BAG3 levels in human glial cells.     

Knockdown of Cellular RNA Helicase DDX3 by Short Hairpin RNAs Suppresses HIV-1 Viral Replication Without Inducing Apoptosis

The targeting of a cellular co-factor, rather than the HIV-1-specific RNAs, by small interfering RNAs holds promise as the rapid mutational ability of the HIV-1 genome may obviate the potential clinical use of RNAi against this virus. The DEAD-box RNA helicase DDX3 is an essential Rev co-factor in the CRM1-Rev-RRE complex that promotes the export of unspliced and single-spliced HIV-1 RNAs from the nucleus to cytoplasm. In this report, human DDX3 was targeted by specific short hairpin RNAs, and the down-regulation of cell's endogenous DDX3 suppressed the nuclear export of unspliced HIV-1 RNAs but did not affect the cell viability. We further showed that the knockdown of cellular DDX3 could effectively inhibit the replication of HIV-1. Therefore, the current results suggest that the RNA helicase DDX3 may become a potential target by RNAi for future genetic therapy of HIV/AIDS.     

JDV Tat反式激活LTR与HIV-1 Tat采用类似的细胞因子

为分析JDV Tat在反式激活JDV及HIV-1 LTR过程中是否采用与HIV-1 Tat类似的细胞因子,本文构建了包含完整激活域的jTat70和hTat47,同时构建了cyclin T1和CDK9真核表达及反义转译质粒.过量表达hTat47和jTat70对hTat反式激活HIV-1 LTR,jTat反式激活JDV和HIV-1 LTR均有明显的抑制作用推测jTat和hTat的反式激活作用可能涉及类似的细胞因子.通过cyclin T1和CDK9的反义转译质粒对jTat反式激活的抑制作用证实这两种细胞因子参与了jTat对JDV和HIV-1LTR的反式激活.     

HIV-1 Tat protein enhances RANKL/M-CSF-mediated osteoclast differentiation

Impaired osteoblast/osteoclast cross-talk and bone structure homeostasis resulting in osteopenia/osteoporosis are often observed in HIV seropositive patients but the causal mechanisms remain unsettled. This study analyzed the biological effects of Tat on peripheral blood monocyte-derived osteoclast differentiation. Tat enhances osteoclast differentiation and activity induced by RANKL plus M-CSF treatment increasing both the mRNA expression of specific osteoclast differentiation markers, such as cathepsin K and calcitonin receptor, and TRAP expression and activity. These Tat-related biological effects may be related, at least in part, to the induction of c-fos expression and AP-1 activity. c-fos up-regulation was triggered by Tat when cell cultures were co-treated with RANKL/M-CSF and an analysis of c-fos promoter with c-fos deletion mutant constructs disclosed specific c-fos promoter domains targeted by Tat. Together, these results show that Tat may be considered a viral factor positively modulating the osteoclastogenesis and then bone resorption activity suggesting a pathogenetic role of this viral protein in the HIV-related osteopenia/osteoporosis.     

HIV-1 Tat蛋白神经毒作用的研究进展

HIV-1感染者常并发神经系统损伤,患者主要表现为运动功能障碍,认知和行为受损等。研究表明,HIV-1多种蛋白参与上述病理过程,其中Tat蛋白发挥了极为重要的作用。外周Tat蛋白可透过血脑屏障进入脑组织,与脑内感染细胞分泌或释放至胞外的Tat共同作用于NMDAR、mGluR1、多巴胺转运蛋白等,损伤神经系统。该文主要对Tat蛋白的神经毒作用作一综述。     

JDV Tat反式激活LTR与HIV-1 Tat采用类似的细胞因子

为分析JDV Tat在反式激活JDV及HIV-1 LTR过程中是否采用与H1V-1 Tat类似的细胞因子,本文构建了包含完整激活域的jTat70和hTat47,同时构建了cyclin T1和CDK9真核表达及反义转译质粒。过量表达hTat47和jTat70对hTat反式激活HIV-1 LTR,jTat反式激活JDV和HIV-1 LTR均有明显的抑制作用推测jTat和hTat的反式激活作用可能涉及类似的细胞因子。通过cyclin T1和CDK9的反义转译质粒对jTat反式激活的抑制作用证实这两种细胞因子参与了jTat对JDV和HIV-1 LTR的反式激活。     

Analysis of HIV-1 Tat effects inXenopus laevis embryos

Tat is one of the regulatory proteins of the HIV-1 virus. To date, besides the transactivation activity, a myriad of effects exerted by HIV-1 Tat on cellular and viral genes have been observed. The present study investigated the in vivo effects of HIV-1 Tat protein in theXenopus embryo. We adopted theXenopus system since expression of putative regulatory factors in the embryo has been widely used as a quick and effective first screen for protein function.Xenopus' early development is well characterized by stage-specific phenotypes, therefore, an in vivo HIV-1 Tat-mediated aberrant phenotype can easily be detected and analyzed. HIV-1 Tat protein expression through injection of synthetic mRNA into zygotes produced a marked delay in gastrulation leading to altered specification of the anterior-posterior axis and to partial or total loss of anterior structures. HIV-1 Tat effects resulted in a general suppression of gene expression, including that ofXbra andgsc, two early genes whose expression is required for proper gastrulation. The specificity of Tat effects was demonstrated by injecting a loss of function mutant (Tat-C37S), lacking a single cysteine residue, which did not yield any effect. Both Tat and Tat-C37S were found to be localized mainly in the nucleus. The importance of subcellular targeting for the effects caused by HIV-1 Tat was demonstrated by injecting a second mutant (Tat-BDM), carrying an altered nuclear localization signal sequence. The Tat-BDM protein localized in the cytoplasm and accumulated at the cell membrane. Embryos injected with Tat-BDM mRNA did not develop beyond gastrulation. The importance of proper protein conformation and subcellular localization in determining Tat effects is discussed.     

HIV-1 Tat binds to SH3 domains: Cellular and viral outcome of Tat/Grb2 interaction

The Src-homology 3 (SH3) domain is one of the most frequent protein recognition modules (PRMs), being represented in signal transduction pathways and in several pathologies such as cancer and AIDS. Grb2 (growth factor receptor-bound protein 2) is an adaptor protein that contains two SH3 domains and is involved in receptor tyrosine kinase (RTK) signal transduction pathways. The HIV-1 transactivator factor Tat is required for viral replication and it has been shown to bind directly or indirectly to several host proteins, deregulating their functions. In this study, we show interaction between the cellular factor Grb2 and the HIV-1 trans-activating protein Tat. The binding is mediated by the proline-rich sequence of Tat and the SH3 domain of Grb2. As the adaptor protein Grb2 participates in a wide variety of signaling pathways, we characterized at least one of the possible downstream effects of the Tat/Grb2 interaction on the well-known IGF-1R/Raf/MAPK cascade. We show that the binding of Tat to Grb2 impairs activation of the Raf/MAPK pathway, while potentiating the PKA/Raf inhibitory pathway. The Tat/Grb2 interaction affects also viral function by inhibiting the Tat-mediated transactivation of HIV-1 LTR and viral replication in infected primary microglia.     

DDX3 DEAD-box RNA helicase is required for hepatitis C virus RNA replication

DDX3, a DEAD-box RNA helicase, binds to the hepatitis C virus (HCV) core protein. However, the role(s) of DDX3 in HCV replication is still not understood. Here we demonstrate that the accumulation of both genome-length HCV RNA (HCV-O, genotype 1b) and its replicon RNA were significantly suppressed in HuH-7-derived cells expressing short hairpin RNA targeted to DDX3 by lentivirus vector transduction. As well, RNA replication of JFH1 (genotype 2a) and release of the core into the culture supernatants were suppressed in DDX3 knockdown cells after inoculation of the cell culture-generated HCVcc. Thus, DDX3 is required for HCV RNA replication.     

The V1/V2 loop of HIV-1 gp120 is necessary for Tat binding and consequent modulation of virus entry

Preventing cell entry of human immunodeficiency virus 1 (HIV-1) is of interest for the development of innovative therapies. We previously reported a specific interaction between HIV-1 envelope glycoprotein 120 (gp120) and Tat at the cell surface, which enhances virus attachment and entry. We also identified a gp120-mimicking peptide, CT319, that competes with gp120 for Tat binding, thus inhibiting HIV-1 infection. Here we report a molecular dissection of gp120 regions involved in this mechanism. Our findings identify the V1/V2 loop of gp120 as involved in Tat binding, and define this interaction as functionally relevant for HIV-1 entry into host cells.     

Comparative analysis of HIV-1 Tat variants

HIV-1 Tat protein is a crucial element for viral replication; therefore, its inhibition might be exploited against the AIDS infection. To gain insights on the natural variability of this protein, we present a comparative investigation on the relationship between the primary sequences and the experimentally available three-dimensional structures from the HIV-1 Tat variants Z2, BRU, and MAL. Our computational tools include sequence conservation algorithms, structural analysis, electrostatic modeling, and molecular dynamics (MD) simulations. We find that two regions located between residues 10-18 and 41-52 display the highest primary sequence conservation, while the most conserved region among the available structures corresponds approximately to the segment between positions approximately 44 and 50. Furthermore, in spite of their large structural divergence, Tat variants share a common mode for long-range intramolecular interactions. Finally, the flexibility of the Z2, BRU, and MAL variants, as emerging from multinanosecond MD simulations, is rather similar. Based on this work, we conclude that the turnlike region between amino acids 44 and 50 is structurally most conserved, emerging as an important motif for pharmaceutical targeting aimed toward inhibiting Tat action.     

Archetype JC virus efficiently propagates in kidney-derived cells stably expressing HIV-1 Tat

Pathogenic JCV with rearranged regulatory regions (PML-type) causes PML, a demyelinating disease, in the brains of immunocompromised patients. On the other hand, archetype JCV persistently infecting the kidney is thought to be converted to PML-type virus during JCV replication in the infected host under immunosuppressed conditions. In addition, Tat protein, encoded by HIV-1, markedly enhances the expression of a reporter gene under control of the JCV late promoter.
In order to examine the influence of Tat on JCV propagation, we used kidney-derived COS-7 cells, which only permit archetype JCV, and established COS-tat cells, which express HIV-1 Tat stably. We found that the extent of archetype JCV propagation in COS-tat cells is significantly greater than in COS-7 cells. On the other hand, COS-7 cells express SV40 T antigen, which is a strong stimulator of archetype JCV replication. The expression of SV40 T antigen was enhanced by HIV-1 Tat slightly according to real-time RT-PCR, this was not closely related to JCV replication in COS-tat cells. The efficiency of JCV propagation depended on the extent of expression of functional Tat. To our knowledge, this is the first report of increased production of archetype JCV in a culture system using cell lines stably expressing HIV-1 Tat. We propose here that COS-tat cells are a useful tool for studying the role of Tat in archetype JCV replication in the development of PML.