The human cytomegalovirus genome revisited: comparison with the chimpanzee cytomegalovirus genome
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Davison, Andrew J.; Dolan, Aidan; Akter, Parvis; Addison, Clare; Dargan, Derrick J.; Alcendor, Donald J.; McGeoch, Duncan J.; Hayward, Gary S.

doi:10.1099/vir.0.18606-0

Cited by 367 publications

(239 citation statements)

References 47 publications

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“…We predicted HCMV gpUL142 to be an MHC class I-related molecule using a bioinformatics tool (3D-PSSM). This structural homology was also independently predicted by sequence alignment of UL142 with HCMV UL18, human MHC class I and chimpanzee CMV (18), providing independent confirmation of our suggested class I-like secondary structure for UL142. It is clear from experiments using polyclonal NK cell lines, either by knockdown or over expression, that UL142 is able to inhibit NK function.…”

Section: Discussionmentioning

confidence: 56%

“…We also analyzed the UL142 ORF using an alternative method Pfam (͗http://pfam.wustl.edu/͘) which, again, predicted that UL142 had MHC class I-related domains. Independently, a comparison of the chimpanzee CMV genome with HCMV had identified UL142 as containing an MHC class I-like domain (18). UL142 is predicted to have an N-terminal signal peptide with a cleavage site between aa 19 -20 and also to encode an ␣1 and disulphide bonded ␣2 domain.…”

Section: Low Passage and Clinical Isolates Of Hcmv Encode An Additionmentioning

confidence: 99%

“…It has been recognized since 1996 that clinical isolates of the virus have a larger genome: comparison of the AD169 and Toledo genomes shows a 13.5-kb insert (ULbЈ) in Toledo, which is absent from AD169 and codes for a putative 20 ORFs (17). This ULbЈ region has recently been reanalyzed and some of the genes in this region reassigned (18). It thus seemed likely that genes encoded in the ULbЈ region might be responsible for rendering infected fibroblasts resistant to lysis by NK cells, and we consequently sought to characterize these genes.…”

mentioning

confidence: 99%

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Human Cytomegalovirus Encodes an MHC Class I-Like Molecule (UL142) That Functions to Inhibit NK Cell Lysis

Wills¹,

Ashiru²,

Reeves³

et al. 2005

The Journal of Immunology

125

108

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Clinical and low passage strains of human CMV (HCMV) encode an additional MHC class I-related molecule UL142, in addition to the previously described UL18. The UL142 open reading frame is encoded within the ULb′ region which is missing from a number of common high passage laboratory strains. Cells expressing UL142 following transfection, and fibroblasts infected with a recombinant adenovirus-expressing UL142, were used to screen both polyclonal NK cells and NK cell clones, in a completely autologous system. Analysis of 100 NK cell clones derived from five donors, revealed 23 clones that were inhibited by fibroblasts expressing UL142 alone. Small-interfering RNA-mediated knockdown of UL142 mRNA expression in HCMV-infected cells resulted in increased sensitivity to lysis. From these data we conclude that UL142 is a novel HCMV-encoded MHC class I-related molecule which inhibits NK cell killing in a clonally dependent manner.

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Section: Discussionmentioning

confidence: 56%

Section: Low Passage and Clinical Isolates Of Hcmv Encode An Additionmentioning

confidence: 99%

mentioning

confidence: 99%

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Human Cytomegalovirus Encodes an MHC Class I-Like Molecule (UL142) That Functions to Inhibit NK Cell Lysis

Wills¹,

Ashiru²,

Reeves³

et al. 2005

The Journal of Immunology

125

108

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“…In order to further evaluate the sequence requirements for TAP inhibition and binding by HCMV US6, we characterized the CCMV homologue of US6 (10). CCMV US6 shares 35.2% sequence identity with HCMV US6, and like its HCMV orthologue, it is predicted to be a type I integral membrane protein with an N-terminal signal sequence (Fig.…”

Section: Resultsmentioning

confidence: 99%

Structural and Functional Dissection of the Human Cytomegalovirus Immune Evasion Protein US6

Dugan

Hewitt

2008

J Virol

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The human cytomegalovirus (HCMV) protein US6 inhibits the transporter associated with antigen processing (TAP). Since TAP transports antigenic peptides into the endoplasmic reticulum for binding to major histocompatibility class I molecules, inhibition of the transporter by HCMV US6 impairs the presentation of viral antigens to cytotoxic T lymphocytes. HCMV US6 inhibits ATP binding by TAP, hence depriving TAP of the energy source it requires for peptide translocation, yet the molecular basis for the interaction between US6 and TAP is poorly understood. In this study we demonstrate that residues 89 to 108 of the HCMV US6 luminal domain are required for TAP inhibition, whereas sequences that flank this region stabilize the binding of the viral protein to TAP. In parallel, we demonstrate that chimpanzee cytomegalovirus (CCMV) US6 binds, but does not inhibit, human TAP. The sequence of CCMV US6 differs from that of HCMV US6 in the region corresponding to residues 89 to 108 of the HCMV protein. The substitution of this region of CCMV US6 with the corresponding residues from HCMV US6 generates a chimeric protein that inhibits human TAP and provides further evidence for the pivotal role of residues 89 to 108 of HCMV US6 in the inhibition of TAP. On the basis of these observations, we propose that there is a hierarchy of interactions between HCMV US6 and TAP, in which residues 89 to 108 of HCMV US6 interact with and inhibit TAP, whereas other parts of the viral protein also bind to TAP and stabilize this inhibitory interaction.The major histocompatibility (MHC) class I antigen presentation pathway plays a central role in the immune response to viral infection. MHC class I molecules are expressed on the plasma membranes of all nucleated cells and present peptides derived from intracellular proteins to cytotoxic T lymphocytes (CTLs). CTLs monitor these MHC class I molecules for peptides derived from viral proteins and kill the infected cells. The presentation of antigenic peptides to CTLs represents the end point of a complex multistep pathway. The vast majority of peptides presented by MHC class I molecules are generated by the degradation of proteins in the cytosol by the proteasome complex (38). These peptides are then translocated into the lumen of the endoplasmic reticulum (ER) by the transporter associated with antigen processing (TAP) (1). MHC class I molecules are assembled in the ER by a process that involves ER-resident chaperones (5). Peptide binding represents the final step of MHC class I molecule folding and is facilitated by the TAP-associated molecule tapasin, which links the nascent MHC class I molecules to TAP to form the "peptide-loading complex" (5). Only once they have bound peptides can MHC class I molecules dissociate from this complex and exit the ER for transport to the plasma membrane.TAP is a member of the ATP binding cassette (ABC) family of transporters, whose members couple ATP hydrolysis to the translocation of a broad spectrum of different substrates across cellular membranes (1,29,42). All...

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“…that ancestral animal common to both man and the chimpanzee carried a herpes virus that it passed on to the chimp line as well as the human, with modern chimpanzees presenting strains of labial and genital herpes genetically very similar to our own (Lacoste et al, 2005;Luebeke et al, 2006;davison et al, 2003).…”

mentioning

confidence: 99%

A história da disseminação dos microrganismos

Ujvari

2008

Estud. av.

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O Homo sapiens nasceu portando agentes infecciosos que circulavam no animal ancestral comum ao homem e chimpanzé. Adquirimos outros microrganismos ainda no solo africano, época dos caçadores e coletores. Partimos da África, conquistamos o planeta e nos tornamos sedentários. Descobrimos a agricultura e a domesticação dos animais e, com isso, fomos invadidos por novos agentes infecciosos. Os microrganismos apanharam carona nas locomoções humanas. Estavam presentes nas migrações humanas originadas da África, nas campanhas militares da Antigüidade, nas viagens marítimas de descobrimentos, nas colonizações, no tráfico de escravos e outros. O avanço no estudo do DNA e RNA de microrganismos nos esclarece a origem e o dispersar de várias doenças infecciosas. Descobrimos, então, como estamos globalizando vírus, bactérias e parasitos desde nossa saída da África até os dias atuais.

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The human cytomegalovirus genome revisited: comparison with the chimpanzee cytomegalovirus genome FN1

Cited by 367 publications

References 47 publications

Human Cytomegalovirus Encodes an MHC Class I-Like Molecule (UL142) That Functions to Inhibit NK Cell Lysis

Human Cytomegalovirus Encodes an MHC Class I-Like Molecule (UL142) That Functions to Inhibit NK Cell Lysis

Structural and Functional Dissection of the Human Cytomegalovirus Immune Evasion Protein US6

A história da disseminação dos microrganismos

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