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Our understanding of the mechanism by which the E3-19K protein from adenovirus (Ad) targets major histocompatibility complex (MHC) class I molecules for retention in the endoplasmic reticulum is derived largely from studies of Ad serotype 2 (subgroup C). It is not well understood to what extent observations on the Ad2 E3-19K/MHC I association can be generalized to E3-19K proteins of other serotypes and subgroups. The low levels of amino acid sequence homology between E3-19K proteins suggest that these proteins are likely to manifest distinct MHC I binding properties. This information is important as the E3-19K/MHC I interaction is thought to play a critical role in enabling Ads to cause persistent infections. Here, we characterized interaction between E3-19K proteins of serotypes 7 and 35 (subgroup B), 5 (subgroup C), 37 (subgroup D), and 4 (subgroup E) and a panel of HLA-A, -B, and -C molecules using native gel, surface plasmon resonance (SPR), and flow cytometry. Results show that all E3-19K proteins exhibited allele specificity toward HLA-A and -B molecules; this was less evident for Ad37 E3-19K. The allele specificity for HLA-A molecules was remarkably similar for different serotypes of subgroup B as well as subgroup C. Interestingly, all E3-19K proteins characterized also exhibited MHC I locus specificity. Importantly, we show that Lys(91) in the conserved region of Ad2 E3-19K targets the C terminus of the α2-helix (MHC residue 177) on MHC class I molecules. From our data, we propose a model of interaction between E3-19K and MHC class I molecules.  相似文献   

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Recombinant adenoviruses (Ads) are useful tools in gene transfer because they are able to infect a wide variety of tissues and cell types and do not require a replicating target cell. However, transgene expression is only transient due to host innate and acquired immune responses to the virus. Most recombinant Ads have deletions of early region 3 (E3) genes, allowing more space for insertion of the transgene. Although the E3 region is not necessary for infection, it has been observed that these "nonessential" genes have immunomodulatory properties. We demonstrate here that the E3 region of Ad inhibits the activation of NF-kappa B induced by tumor necrosis factor alpha (TNF-alpha) and interleukin-1. Ad E3 is able to prevent NF-kappa B from entering the nucleus, where it is normally active. Ad E3 also appears to function by preventing the activation of the kinase complex, IKK, which is responsible for phosphorylation of I kappa B that retains NF-kappa B in the cytoplasm in an inactive state. The prevention of NF-kappa B activation has been mapped to a complex of two of the seven E3 products, E3-10.4K and E3-14.5K (RID alpha/beta). These and other studies indicate that, by using Ad vectors containing the E3 region, it may be possible to reduce the harmful proinflammatory effects of TNF-alpha and other cytokines that compromise the use of Ad gene therapy vectors in vivo.  相似文献   

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Liu H  Stafford WF  Bouvier M 《Journal of virology》2005,79(21):13317-13325
E3-19K is a type I membrane glycoprotein expressed by adenoviruses (Ads) to modulate host antiviral immune responses. We have developed an expression system for the endoplasmic reticulum lumenal domain (residues 1 to 100) of Ad type 2 E3-19K tagged with a C-terminal His6 sequence in baculovirus-infected insect cells. In this system, recombinant E3-19K is secreted into the culture medium. A characterization of soluble E3-19K by analytical ultracentrifugation and circular dichroism showed that the protein is monomeric and adopts a stable and correctly folded tertiary structure. Using a gel mobility shift assay and analytical ultracentrifugation, we showed that soluble E3-19K associates with soluble peptide-filled and peptide-deficient HLA-A*1101 molecules. This is the first example of a viral immunomodulatory protein that interacts with conformationally distinct forms of class I major histocompatibility complex molecules. The E3-19K/HLA-A*1101 complexes formed in a 1:1 stoichiometry with equilibrium dissociation constants (Kd) of 50 +/- 10 nM for peptide-filled molecules and of about 10 microM for peptide-deficient molecules. A temperature-dependent proteolysis study revealed that the association of E3-19K with peptide-deficient HLA-A*1101 molecules stabilizes the binding groove. Importantly, our studies showed that peptide-deficient HLA-A*1101 molecules sequestered by E3-19K are capable of binding antigenic peptides and maturing into peptide-filled molecules. This firmly establishes that E3-19K does not block binding of antigenic peptides. Together, our results suggest that Ads have evolved to exploit the late and early stages of the class I antigen presentation pathway.  相似文献   

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Until recently, adenovirus (Ad)-mediated gene therapy was almost exclusively based on human Ad type 5 (Ad5). Preexisting immunity and the limited, coxsackievirus and adenovirus receptor-dependent tropism of Ad5 stimulated attempts to exploit the natural diversity in tropism of the other 50 known human Ad serotypes. Aiming in particular at immunotherapy and vaccination, we have screened representative serotypes from different Ad species for their ability to infect dendritic cells. Ad19a, an Ad from species D, was selected for development as a new vector for vaccination and cancer gene therapy. To clone and manipulate its genome, we have developed a novel methodology, coined "exposon mutagenesis," that allows the rapid and precise introduction of virtually any genetic alteration (deletions, point mutations, or insertions) into recombinant Ad bacterial artificial chromosomes. The versatility of the system was exemplified by deleting the E3 region of Ad19a, by specifically knocking out expression of a species-specific E3 gene, E3/49K, and by reinserting E3/49K into an E3 null Ad19a mutant. The technology requires only limited sequence information and is applicable to other Ad species. Therefore, it should be extremely valuable for the analysis of gene functions from any Ad species. In addition, a basic, replication-defective E1- and E3-deleted Ad19a vector expressing GFP (Ad19aGFP) was generated. This new vector based on species D Ads exhibits a very promising tropism for lymphoid and muscle cells and shows great potential as an alternative vector for transduction of cell types that are resistant to or only poorly transduced by conventional Ad5-based vectors.  相似文献   

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The E3-19K protein from human adenoviruses (Ads) retains class I MHC molecules in the endoplasmic reticulum. As a consequence, the cell surface expression of class I molecules is suppressed, allowing Ads to evade immune surveillance. Using native gel electrophoresis, gel filtration chromatography, and surface plasmon resonance, we show that a soluble form of the Ad type 2 (Ad2) E3-19K protein associates with HLA-A and -B molecules; equilibrium dissociation constants were in the nanomolar range and approximately 2.5-fold higher affinity for HLA-A (-A*0201, -A*0301, -A*1101, -A*3301, and -Aw*6801) relative to HLA-B (-B*0702 and -B*0801) molecules. Among the alleles of the HLA-A locus examined, HLA-A*3101 associated approximately 15-fold less avidly with soluble E3-19K. Soluble E3-19K interacted only very weakly with HLA-Cw*0304, and no interaction with HLA-Cw*0401 could be detected under identical conditions. Site-directed mutagenesis and flow cytometry demonstrated that MHC residue 56 plays a critical role in the association and endoplasmic reticulum retention of HLA-A molecules by E3-19K. This delineates the spatial environment around residue 56 as a putative E3-19K interaction surface on class I molecules. Overall, our data imply that a link may exist between host genetic factors and the susceptibility of individuals to Ad infections.  相似文献   

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The nucleotide (nt) sequences of inverted terminal repeats (ITR) from human adenovirus (Ad) 19, bovine Ad1 (BAd1), bovine Ad3 (BAd3), canine Ad2 (CAd2) and an avian Ad, EDS-76, were determined. The length of the ITR sequence was 160 bp in Ad19, 159 bp in BAd1, 195 bp in BAd3, 196 bp in CAd2 and 52 bp in EDS-76. CAd2 had the longest ITR among the examined Ads, BAd3 the second longest, and EDS-76 had the shortest ITR. A TAAT sequence located between the 10th and 13th nt counted from the ends was conserved in all Ads examined so far. To determine phylogenetic relationships among human and animal Ads, sequences of their ITRs were compared, and a phylogenetic tree was constructed by using the maximum-likelihood method. It is the method involving statistical analysis of computing the probability of a particular set of sequences on a given tree and maximizing this probability over all evolutionary trees [Felsenstein, J. Mol. Evol. 17 (1981) 368-376]. From these analyses, it was found that members belonging to the same human Ad subgenus are related closely to each other, whereas representatives of different human subgenera are distributed rather divergently among animal Ads.  相似文献   

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Early region E3 of adenovirus (Ad) appears to encode proteins involved in the interaction of the virus with the host immune system. The E3 region 19-kDa glycoprotein (gp19K) binds to class I MHC Ag in the endoplasmic reticulum and inhibits their transport to the cell surface; it has been proposed that this protects virus infected cells from lysis by CTL. We have found that the E3 14.7-kDa protein (14.7K) inhibits lysis of infected cells by TNF, and here we show that it also protects cells from lysis by lymphotoxin, which has been implicated as a mediator of CTL lysis. We have developed a method for producing CTL specific for human Ad2 and Ad5 in mice, in order to test directly which of the genes in the E3 region protect infected cells from lysis by virus specific CTL. The presence of the E3 region inhibits both the induction of Ad-specific CTL in culture and the lysis of infected target cells by these CTL. The inhibition varies between different mouse strains, with almost complete inhibition in C57BL/10 (H-2b) mice, partial inhibition with BALB/c (H-2d) and little or no inhibition with C3H (H-2k); results were similar for Ad2 and Ad5. By using a panel of E3 deletion mutants, inhibition of target cell lysis by Ad5 specific CTL was mapped exclusively to the gp19K gene. The 14.7K gene had no effect on CTL lysis despite its ability to protect cells against lysis by lymphotoxin. gp19K was synthesized abundantly in mouse cells by mutants retaining the gp19K gene; some mutant forms of the protein were synthesized but were nonfunctional. These data support the hypothesis that gp19K can protect Ad infected cells against lysis by virus specific CTL.  相似文献   

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The binding of the adenovirus (Ad) protein E3-19K with the human leukocyte antigen (HLA) plays an important role in Ad infections, which is the causative agent of a series of gastrointestinal, respiratory and ocular diseases. The objective of this research is to evaluate the essential interactions between E3-19K and HLA-A2 using the X-ray crystal structure of the E3-19K/HLA-A2 complex, and to identify small molecules that could potentially disrupt their binding. Computational methods, including molecular dynamic simulations, MM/GBSA calculations, and computational solvent mapping, were implemented to determine potential binding site(s) for small molecules. The previous experimentally determined hot spot residues, Q54 and E177 in HLA-A2, were also predicted to be the dominant residues for binding to E3-19K by our theoretical calculations. Several other residues were also found to play pivotal roles for the binding of E3-19K with HLA-A2. Residues adjacent to E177, including Q54 and several other residues theoretically predicted to be crucial in HLA-A2 were selected as a potential binding pocket to perform virtual screening with 1200 compounds from the Prestwick library. Seven hits were validated by surface plasmon resonance (SPR) as binders to HLA-A2 as a first step in identifying molecules that can perturb its association with the Ad E3-19K protein.  相似文献   

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The 19-kDa glycoprotein (gp 19K) coded by early region E3 of adenovirus is of interest as a model for glycoprotein processing and sorting, as well as for the interaction between viral antigens and class I transplantation antigens. In this paper, we show that gp 19K is a major protein synthesized during early stages of infection of human KB cells. We report the purification of gp 19K to near homogeneity, the preparation of a gp 19K antiserum, and structural analyses on the protein. We have determined the DNA sequence of the gp 19K gene in adenovirus type 5 (Ad5) for comparison with the published sequence (Hérissé, J., Courtois, G., and Galibert, F. (1980) Nucleic Acids Res. 8, 2173-2192) of adenovirus type 2 (Ad2). Fragments produced by cyanogen bromide cleavage of Ad2 gp 19K are in accord with the DNA sequence, as are synthetic peptide antibodies targeted to the NH2 terminus of Ad2 gp 19K and the COOH terminus of Ad5 gp 19K. The Ad2 and Ad5 proteins are quite homologous. Conserved features include an NH2-terminal signal sequence, two potential Asn-linked glycosylation sites, and a 20-residue putative transmembrane hydrophobic domain followed by a 15-residue polar domain at the COOH terminus. We show that cleavage of the signal peptide occurs between the 17th and 18th amino acids on both the Ad2 and Ad5 versions of gp 19K and that both potential sites are glycosylated with exclusively high-mannose (as opposed to complex) oligosaccharides. Secondary structure predictions suggest six alpha-helix regions including the signal peptide and transmembrane domain, two or three beta-sheet regions, and about eight beta-turns including the two glycosylation sites and the regions flanking the transmembrane domain.  相似文献   

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