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Christopher M Robinson, Gurdeep Singh,
Jeong Yoon Lee,
Shoaleh Dehghan,
Jaya Rajaiya,
Elizabeth B Liu,
Mohammad A Yousuf,
Rebecca A Betensky,
Morris S Jones,
David W Dyer,
Donald Seto,
James Chodosh
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ABSTRACT: The recent emergence of highly virulent human adenoviruses (HAdVs) with new tissue tropisms underscores the need to determine their ontogeny. Here we report complete high quality genome sequences and analyses for all the previously unsequenced HAdV serotypes (n = 20) within HAdV species D. Analysis of nucleotide sequence variability for these in conjunction with another 40 HAdV prototypes, comprising all seven HAdV species, confirmed the uniquely hypervariable regions within species. The mutation rate among HAdV-Ds was low when compared to other HAdV species. Homologous recombination was identified in at least two of five examined hypervariable regions for every virus, suggesting the evolution of HAdV-Ds has been highly dependent on homologous recombination. Patterns of alternating GC and AT rich motifs correlated well with hypervariable region recombination sites across the HAdV-D genomes, suggesting foci of DNA instability lead to formulaic patterns of homologous recombination and confer agility to adenovirus evolution.
Scientific Reports 05/2013; 3:1812.
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Christopher M Robinson,
Xiaohong Zhou,
Jaya Rajaiya,
Mohammad A Yousuf, Gurdeep Singh,
Joshua J Deserres,
Michael P Walsh,
Sallene Wong,
Donald Seto,
David W Dyer,
James Chodosh,
Morris S Jones
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ABSTRACT: ABSTRACT For DNA viruses, genetic recombination, addition, and deletion represent important evolutionary mechanisms. Since these genetic alterations can lead to new, possibly severe pathogens, we applied a systems biology approach to study the pathogenicity of a novel human adenovirus with a naturally occurring deletion of the canonical penton base Arg-Gly-Asp (RGD) loop, thought to be critical to cellular entry by adenoviruses. Bioinformatic analysis revealed a new highly recombinant species D human adenovirus (HAdV-D60). A synthesis of in silico and laboratory approaches revealed a potential ocular tropism for the new virus. In vivo, inflammation induced by the virus was dramatically greater than that by adenovirus type 37, a major eye pathogen, possibly due to a novel alternate ligand, Tyr-Gly-Asp (YGD), on the penton base protein. The combination of bioinformatics and laboratory simulation may have important applications in the prediction of tissue tropism for newly discovered and emerging viruses. IMPORTANCE The ongoing dance between a virus and its host distinctly shapes how the virus evolves. While human adenoviruses typically cause mild infections, recent reports have described newly characterized adenoviruses that cause severe, sometimes fatal human infections. Here, we report a systems biology approach to show how evolution has affected the disease potential of a recently identified novel human adenovirus. A comprehensive understanding of viral evolution and pathogenicity is essential to our capacity to foretell the potential impact on human disease for new and emerging viruses.
mBio 01/2013; 4(2). · 5.31 Impact Factor
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ABSTRACT: Heat shock proteins (HSPs) play a critical role in many intracellular processes, including apoptosis and delivery of other proteins to intracellular compartments. Small HSPs have been shown previously to participate in many cellular functions, including IL-8 induction. Human adenovirus infection activates intracellular signaling, involving particularly the c-Src and mitogen-activated protein kinases [Natarajan, K., et al. (2003) J. Immunol. 170, 6234-6243]. HSP27 and MK2 are also phosphorylated, and c-Src, and its downstream targets, p38, ERK1/2, and c-Jun-terminal kinase (JNK), differentially mediate IL-8 and MCP-1 expression. Specifically, activation and translocation of transcription factor NFκB-p65 occurs in a p38-dependent fashion [Rajaiya, J., et al. (2009) Mol. Vision 15, 2879-2889]. Herein, we report a novel role for HSP27 in an association of p38 with NFκB-p65. Immunoprecipitation assays of virus-infected but not mock-infected cells revealed a signaling complex including p38 and NFκB-p65. Transfection with HSP27 short interfering RNA (siRNA) but not scrambled RNA disrupted this association and reduced the level of IL-8 expression. Transfection with HSP27 siRNA also reduced the level of nuclear localization of NFκB-p65 and p38. By use of tagged p38 mutants, we found that amino acids 279-347 of p38 are necessary for the association of p38 with NFκB-p65. These studies strongly suggest that HSP27, p38, and NFκB-p65 form a signalosome in virus-infected cells and influence downstream expression of pro-inflammatory mediators.
Biochemistry 06/2012; 51(28):5695-702. · 3.42 Impact Factor
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ABSTRACT: The genome of human adenovirus (HAdV) D30 was sequenced in depth. Sequence assembly and analysis revealed two distinct viral sequences with identical hexon genes, which were the same as the one previously reported for HAdV-D30. However, one of the two viruses was found to be a recombinant of HAdV-D29. Exclusive reliance on serum neutralization can lead to mischaracterization of adenoviruses and miss coinfections. Whole-genome sequencing remains the gold standard for proper classification of HAdVs.
Journal of Virology 02/2012; 86(8):4693-5. · 5.40 Impact Factor
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ABSTRACT: Human adenovirus species D type 37 (HAdV-D37) is an important etiologic agent of epidemic keratoconjunctivitis. Annotation of the whole genome revealed an open reading frame (ORF) in the E3 transcription unit predicted to encode a 31.6kDa protein. This ORF, also known as CR1-γ, is predicted to be an integral membrane protein containing N-terminal signal sequence, luminal, transmembrane, and cytoplasmic domains. HAdV-D19 (C), another viral pathogen causing epidemic keratoconjunctivitis, contains an ORF 100% identical to its HAdV-D37 homologue but only 66% identical to other HAdV-D homologues. Kinetics of RNA expression and confirmation of splicing to the adenovirus tripartite leader sequence suggest a role for the protein product of CR1-γ in the late stages of the viral replication cycle. Confocal microscopy is consistent with expression in the cytoplasm. Sequence analysis reveals a hypervariable luminal domain and a conserved cytoplasmic domain. The luminal domain is predicted to contain multiple N-glycosylation sites. The cytoplasmic domain contains a putative protein kinase C phosphorylation site and potential YXXϕ and dileucine (LL) motifs suggesting a potential role in modification of host proteins.
Virus Research 06/2011; 160(1-2):120-7. · 2.94 Impact Factor
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ABSTRACT: Adenoviral infections are typically acute, self-limiting, and not associated with death. However, we present the genomic and bioinformatics analysis of a novel recombinant human adenovirus (HAdV-D56) isolated in France that caused a rare neonatal fatality, and keratoconjunctivitis in three health care workers who cared for the neonate. Whole genome alignments revealed the expected diversity in the penton base, hexon, E3, and fiber coding regions, and provided evidence for extensive recombination. Bootscan analysis confirmed recombination between HAdV-D9, HAdV-D26, HAdV-D15, and HAdV-D29 in the penton base and hexon proteins, centered around hypervariable loops within the putative proteins. Protein structure analysis of the fiber coding region revealed similarity with HAdV-D8, HAdV-D9, and HAdV-D53, possibly accounting for the ocular tropism of the virus. Based on these data, this virus appears to be a new HAdV-D type (HAdV-D56), underscoring the importance of recombination events in human adenovirus evolution and the emergence of new adenovirus pathogens.
Virology 11/2010; 409(2):141-7. · 3.35 Impact Factor
