32 research outputs found

    Evolution and Genetic Diversity of Primate Cytomegaloviruses

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    Cytomegaloviruses (CMVs) infect many mammals, including humans and non–human primates (NHPs). Human cytomegalovirus (HCMV) is an important opportunistic pathogen among immunocompromised patients and represents the most common infectious cause of birth defects. HCMV possesses a large genome and very high genetic diversity. NHP–infecting CMVs share with HCMV a similar genomic organization and coding content, as well as the course of viral infection. Recent technological advances have allowed the sequencing of several HCMV strains from clinical samples and provided insight into the diversity of NHP–infecting CMVs. The emerging picture indicates that, with the exclusion of core genes (genes that have orthologs in all herpesviruses), CMV genomes are relatively plastic and diverse in terms of gene content, both at the inter– and at the intra–species level. Such variability most likely underlies the strict species–specificity of these viruses, as well as their ability to persist lifelong and with relatively little damage to their hosts. However, core genes, despite their strong conservation, also represented a target of adaptive evolution and subtle changes in their coding sequence contributed to CMV adaptation to different hosts. Indubitably, important knowledge gaps remain, the most relevant of which concerns the role of viral genetics in HCMV–associated human disease

    Molecular insight into substrate recognition by human cytosolic sialidase NEU2

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    Sialidases or neuramidases are glycoside hydrolases removing terminal sialic acid residues from sialo-glycoproteins and sialo-glycolipids. Viral neuraminidases (NAs) have been extensively characterized and represent an excellent target for antiviral therapy through the synthesis of a series of competitive inhibitors that block the release of newly formed viral particles from infected cells. The human cytosolic sialidase NEU2 is the only mammalian enzyme structurally characterized and represents a valuable model to study the specificity of novel NA inhibitory drugs. Moreover, the availability of NEU2 3D structure represents a pivotal step toward the characterization of the molecular basis of natural substrates recognition by the enzyme. In this perspective, we have carried out a study of molecular docking of NEU2 active site using natural substrates of increasing complexity. Moreover, selective mutations of the residues putatively involved into substrate(s) interaction/recognition have been performed, and the resulting mutant enzymes have been preliminary tested for their catalytic activity and substrate specificity. We found that Q270 is involved in the binding of the disaccharide alpha(2,3) sialyl-galactose, whereas K45 and Q112 bind the distal glucose of the trisaccharide alpha(2,3) sialyl-lactose, corresponding to the oligosaccharide moiety of GM3 ganglioside. In addition, E218, beside D46, is proved to be a key catalytic residue, being, together with Y334, the second member of the nucleophile pair required for the catalysis. Overall, our results point out the existence of a dynamic network of interactions that are possibly involved in the recognition of the glycans bearing sialic acid. Proteins 2012; (c) 2011 Wiley Periodicals, Inc

    Studie des Vesikelzyklus während der Exo-und Endozytose mit optischen Methoden

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    Im zentralen Nervensystem tritt die Kommunikation zwischen Nervenzellen mittels chemischer Botenstoffe (Neurotransmitter) hauptsächlich an den Synapsen auf. Bei Stimulierung werden die Botenstoffe durch Ca2+-abhängige Exozytose präsynaptischer Vesikel in den synaptischen Spalt freigesetzt, wo sie postsynaptische Rezeptoren aktivieren. Um den Pool an Vesikeln nach der Freisetzung von Botenstoffen wieder aufzufüllen, werden Vesikelkomponenten nach der Exozytose wieder sortiert und durch kompensatorische Endozytose in die Zelle aufgenommen. In dieser Studie werden sowohl exogene cypHer-basierte und genetisch kodierte GFP-basierte pH-Reporter verwendet, um den Vesikelzyklus in kultivierten hippocampalen Neuronen der Ratte zu untersuchen. Durch die Verwendung cyHher-konjugierter Antikörper gegen die luminalen Domänen von Vesikelproteinen (z.B. Syt1) wird der Zyklus endogener Vesikelproteine visualisiert. Zusätzlich ermöglicht die Verwendung von CypHer-Antikörpern die Überwachung von in der Zellmembran gestrandeten Vesikelproteinen, welche den sogenannte

    Role of NEU3 Overexpression in the Prediction of Efficacy of EGFR-Targeted Therapies in Colon Cancer Cell Lines

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    The epidermal growth factor receptor (EGFR), through the MAP kinase and PI3K-Akt-mTOR axis, plays a pivotal role in colorectal cancer (CRC) pathogenesis. The membrane-associated NEU3 sialidase interacts with and desialylates EGFR by promoting its dimerization and downstream effectors’ activation. Among the targeted therapies against EGFR, the monoclonal antibody cetuximab is active only in a subgroup of patients not carrying mutations in the MAP kinase pathway. In order to better understand the EGFR-NEU3 interplay and the mechanisms of pharmacological resistance, we investigated the role of NEU3 deregulation in cetuximab-treated CRC cell lines transiently transfected with NEU3 using Western blot analysis. Our results indicate that NEU3 overexpression can enhance EGFR activation only if EGFR is overexpressed, indicating the existence of a threshold for NEU3-mediated EGFR activation. This enhancement mainly leads to the constitutive activation of the MAP kinase pathway. Consequently, we suggest that the evaluation of NEU3 expression cannot entirely substitute the evaluation of EGFR because EGFR-negative cases cannot be stimulated by NEU3. Furthermore, NEU3-mediated hyperactivation of EGFR is counterbalanced by the administration of cetuximab, hypothesizing that a combined treatment of NEU3- and EGFR-targeted therapies may represent a valid option for CRC patients, which must be investigated in the future

    Multidisciplinary research in naval archaeology: the shipwreck of Santa Maria in Padovetere (Ferrara, N Italy)

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    none7noneCarlo Beltrame, Alessandra Forti, Michele Maritan, Antonella Miola, Paolo Mozzi, Alessandro A. Rucco, Andrea VavasoriCarlo, Beltrame; Alessandra, Forti; Maritan, Michele; Miola, Antonella; Mozzi, Paolo; Rucco, Alessandro A.; Andrea, Vavasor

    Dating the Emergence of Human Endemic Coronaviruses

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    Four endemic coronaviruses infect humans and cause mild symptoms. Because previous analyses were based on a limited number of sequences and did not control for effects that affect molecular dating, we re-assessed the timing of endemic coronavirus emergence. After controlling for recombination, selective pressure, and molecular clock model, we obtained similar tMRCA (time to the most recent common ancestor) estimates for the four coronaviruses, ranging from 72 (HCoV-229E) to 54 (HCoV-NL63) years ago. The split times of HCoV-229E and HCoV-OC43 from camel alphacoronavirus and bovine coronavirus were dated ~268 and ~99 years ago. The split times of HCoV-HKU1 and HCoV-NL63 could not be calculated, as their zoonoticic sources are unknown. To compare the timing of coronavirus emergence to that of another respiratory virus, we recorded the occurrence of influenza pandemics since 1500. Although there is no clear relationship between pandemic occurrence and human population size, the frequency of influenza pandemics seems to intensify starting around 1700, which corresponds with the initial phase of exponential increase of human population and to the emergence of HCoV-229E. The frequency of flu pandemics in the 19th century also suggests that the concurrence of HCoV-OC43 emergence and the Russian flu pandemic may be due to chance
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