Retroviral restriction factor TRIM5alpha is a trimer

The retrovirus restriction factor TRIM5alpha targets the viral capsid soon after entry. Here we show that the TRIM5alpha protein oligomerizes into trimers. The TRIM5alpha coiled-coil and B30.2(SPRY) domains make important contributions to the formation and/or stability of the trimers. A functionally defective TRIM5alpha mutant with the RING and B-box 2 domains deleted can form heterotrimers with wild-type TRIM5alpha, accounting for the observed dominant-negative activity of the mutant protein. Trimerization potentially allows TRIM5alpha to interact with threefold pseudosymmetrical structures on retroviral capsids.     

Discordant evolution of the adjacent antiretroviral genes TRIM22 and TRIM5 in mammals

TRIM5alpha provides a cytoplasmic block to retroviral infection, and orthologs encoded by some primates are active against HIV. Here, we present an evolutionary comparison of the TRIM5 gene to its closest human paralogs: TRIM22, TRIM34, and TRIM6. We show that TRIM5 and TRIM22 have a dynamic history of gene expansion and loss during the evolution of mammals. The cow genome contains an expanded cluster of TRIM5 genes and no TRIM22 gene, while the dog genome encodes TRIM22 but has lost TRIM5. In contrast, TRIM6 and TRIM34 have been strictly preserved as single gene orthologs in human, dog, and cow. A more focused analysis of primates reveals that, while TRIM6 and TRIM34 have evolved under purifying selection, TRIM22 has evolved under positive selection as was previously observed for TRIM5. Based on TRIM22 sequences obtained from 27 primate genomes, we find that the positive selection of TRIM22 has occurred episodically for approximately 23 million years, perhaps reflecting the changing pathogenic landscape. However, we find that the evolutionary episodes of positive selection that have acted on TRIM5 and TRIM22 are mutually exclusive, with generally only one of these genes being positively selected in any given primate lineage. We interpret this to mean that the positive selection of one gene has constrained the adaptive flexibility of its neighbor, probably due to genetic linkage. Finally, we find a striking congruence in the positions of amino acid residues found to be under positive selection in both TRIM5alpha and TRIM22, which in both proteins fall predominantly in the beta2-beta3 surface loop of the B30.2 domain. Astonishingly, this same loop is under positive selection in the multiple cow TRIM5 genes as well, indicating that this small structural loop may be a viral recognition motif spanning a hundred million years of mammalian evolution.     

Antiretroviral activity of ancestral TRIM5alpha

The antiretroviral protein TRIM5α is known to have evolved different restriction capacities against various retroviruses, driven by positive Darwinian selection. However, how these different specificities have evolved in the primate lineages is not fully understood. Here we used ancestral protein resurrection to estimate the evolution of antiviral restriction specificities of TRIM5α on the primate lineage leading to humans. We used TRIM5α coding sequences from 24 primates for the reconstruction of ancestral TRIM5α sequences using maximum-likelihood and Bayesian approaches. Ancestral sequences were transduced into HeLa and CRFK cells. Stable cell lines were generated and used to test restriction of a panel of extant retroviruses (human immunodeficiency virus type 1 [HIV-1] and HIV-2, simian immunodeficiency virus [SIV] variants SIV_mac and SIV_agm, and murine leukemia virus [MLV] variants N-MLV and B-MLV). The resurrected TRIM5α variant from the common ancestor of Old World primates (Old World monkeys and apes, ~25 million years before present) was effective against present day HIV-1. In contrast to the HIV-1 restriction pattern, we show that the restriction efficacy against other retroviruses, such as a murine oncoretrovirus (N-MLV), is higher for more recent resurrected hominoid variants. Ancestral TRIM5α variants have generally limited efficacy against HIV-2, SIV_agm, and SIV_mac. Our study sheds new light on the evolution of the intrinsic antiviral defense machinery and illustrates the utility of functional evolutionary reconstruction for characterizing recently emerged protein differences.     

逆转录病毒载体pOZ-KLF5的构建及鉴定

为研究KLF5的相互作用蛋白从而深入探索其生物功能,构建了C端带有FLAG、HA、6x His三标签的p OZ-KLF5真核表达逆转录病毒载体。p OZ-KLF5载体可通过一次转录得到双顺反子转录单位,即一个转录物能表达两种独立存在的蛋白质:三标签融合蛋白KLF5-3x Tag和筛选标记——白细胞介素-2受体α(IL-2Rα)。通过偶联IL-2Rα抗体的磁珠成功筛选出KLF5-3x Tag表达阳性的293T细胞,经Western-blot检测细胞内KLF5-3x Tag表达情况及其对293T细胞增殖及周期的影响,发现KLF5-3x Tag能够促进细胞克隆的形成并使S期细胞增多,且可被已知E3泛素连接酶WWP1降解,与已有报道一致。进一步通过免疫沉淀实验证明了与KLF5融合的标签的免疫反应性。该质粒的成功构建为研究KLF5相互作用蛋白及深入探索其生物功能奠定了基础。     

灵长目动物TRIM5基因的进化及其抗逆转录病毒的种属差异性

灵长目动物TRIM5基因能编码TRIM5α蛋白,它在逆转录病毒侵染宿主细胞的早期阶段抑制病毒复制。同时科学家也在灵长目动物中发现了TRIM5基因的另外一种融合蛋白基因型——TRIMCyp,由于发生的剪接机制不同,新、旧大陆猴分别形成了不同的融合蛋白,从而导致它们抗病毒活性的广泛差异。TRIM5基因在灵长目动物进化过程中产生了很多突变位点,这些突变位点也使灵长目动物抗逆转录病毒的活性存在种属差异。本文简述了TRIM5基因及编码蛋白的结构,从自然选择的角度阐述了灵长目动物TRIM5基因的进化,揭示了由TRIM5基因多样性所造成的抗病毒种属差异,从而为研究灵长目动物的进化以及人猴共患疾病模式生物的构建提供一定的指导。     

Interferon-alpha Subtype 11 Activates NK Cells and Enables Control of Retroviral Infection

The innate immune response mediated by cells such as natural killer (NK) cells is critical for the rapid containment of virus replication and spread during acute infection. Here, we show that subtype 11 of the type I interferon (IFN) family greatly potentiates the antiviral activity of NK cells during retroviral infection. Treatment of mice with IFN-α11 during Friend retrovirus infection (FV) significantly reduced viral loads and resulted in long-term protection from virus-induced leukemia. The effect of IFN-α11 on NK cells was direct and signaled through the type I IFN receptor. Furthermore, IFN-α11-mediated activation of NK cells enabled cytolytic killing of FV-infected target cells via the exocytosis pathway. Depletion and adoptive transfer experiments illustrated that NK cells played a major role in successful IFN-α11 therapy. Additional experiments with Mouse Cytomegalovirus infections demonstrated that the therapeutic effect of IFN-α11 is not restricted to retroviruses. The type I IFN subtypes 2 and 5, which bind the same receptor as IFN-α11, did not elicit similar antiviral effects. These results demonstrate a unique and subtype-specific activation of NK cells by IFN-α11.     

A Video Protocol of Retroviral Infection in Primary Intestinal Organoid Culture

Lgr5-positive stem cells can be supplemented with the essential growth factors Egf, Noggin, and R-Spondin, which allows us to culture ever-expanding primary 3D epithelial structures in vitro. Both the architecture and physiological properties of these ''mini-guts'', also called organoids, closely resemble their in vivo counterparts. This makes them an attractive model system for the small intestinal epithelium. Using retroviral transduction, functional genetics can now be performed by conditional gene overexpression or knockdown. This video demonstrates the procedure of organoid culture, the generation of retroviruses, and the retroviral transduction of organoids to assist phenotypic analysis of the small intestinal epithelium in vitro. This novel organotypic model system in combination with retroviral mediated gene expression provides a valuable tool for rapid analysis of gene function in vitro without the need of costly and time-consuming generation for transgenic animals.     

Cyclophilin A Prevents HIV-1 Restriction in Lymphocytes by Blocking Human TRIM5α Binding to the Viral Core

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Therapeutic Effect of a Gag-Nuclease Fusion Protein against Retroviral Infection In Vivo

Recently, remarkable progress has been made in developing effective combination drug therapies that can control but not cure retroviral replication. Even when effective, these drug regimens are toxic, they require demanding administration schedules, and resistant viruses can emerge. Thus the need for new gene-based therapies continues. In one such approach, capsid-targeted viral inactivation (CTVI), nucleases fused to viral coat proteins are expressed in infected cells and become incorporated during virion assembly. CTVI can eliminate infectious murine retrovirus titer in tissue culture. Here we describe transgenic mice expressing fusions of the Moloney murine leukemia virus (Mo-MuLV) Gag protein to staphylococcal nuclease. This work tests the protective effect and demonstrates in vivo proof-of-principle of CTVI in transgenic mice expressing endogenous proviral copies of Mo-MuLV. The antiviral protein-expressing mice are phenotypically normal, attesting to the lack of toxicity of the fusion protein. The Mo-MuLV infection was much less virulent in transgenic littermates than in nontransgenic littermates. Gag-nuclease expression reduced infectious titers in blood up to 10-fold, decreased splenomegaly and leukemic infiltration, and increased life spans up to 2.5-fold in transgenic relative to nontransgenic infected animals. These results suggest that gene therapies based on similar fusion proteins, designed to attack human immunodeficiency virus or other retroviruses, could provide substantial therapeutic benefits.     

CCR5 Controls Immune and Metabolic Functions during Toxoplasma gondii Infection

CCR5, an important receptor related to cell recruitment and inflammation, is expressed during experimental Toxoplasma gondii infection. However, its role in the immunopathology of toxoplasmosis is not clearly defined yet. Thus, we inoculated WT and CCR5^-/- mice with a sub lethal dose of the parasite by oral route. CCR5^-/- mice were extremely susceptible to infection, presenting higher parasite load and lower tissue expression of IL-12p40, IFN-γ, TNF, IL-6, iNOS, Foxp3, T-bet, GATA-3 and PPARα. Although both groups presented inflammation in the liver with prominent neutrophil infiltration, CCR5^-/- mice had extensive tissue damage with hepatocyte vacuolization, steatosis, elevated serum triglycerides and transaminases. PPARα agonist Gemfibrozil improved the vacuolization but did not rescue CCR5^-/- infected mice from high serum triglycerides levels and enhanced mortality. We also found intense inflammation in the ileum of CCR5^-/- infected mice, with epithelial ulceration, augmented CD4 and decreased frequency of NK cells in the gut lamina propria. Most interestingly, these findings were accompanied by an outstanding accumulation of neutrophils in the ileum, which seemed to be involved in the gut immunopathology, once the depletion of these cells was accompanied by reduced local damage. Altogether, these data demonstrated that CCR5 is essential to the control of T. gondii infection and to maintain the metabolic, hepatic and intestinal integrity. These findings add novel information on the disease pathogenesis and may be relevant for directing future approaches to the treatment of multi-deregulated diseases.