Role of tyrosine phosphorylation of a cellular protein in adeno-associated virus 2-mediated transgene expression

The adeno-associated virus 2 (AAV), a single-stranded DNA-containing, nonpathogenic human parvovirus, has gained attention as a potentially useful vector for human gene therapy. However, the single-stranded nature of the viral genome significantly impacts upon the transduction efficiency, because the second-strand viral DNA synthesis is the rate-limiting step. We hypothesized that a host-cell protein interacts with the single-stranded D sequence within the inverted terminal repeat structure of the AAV genome and prevents the viral second-strand DNA synthesis. Indeed, a cellular protein has been identified that interacts specifically and preferentially with the D sequence at the 3′ end of the AAV genome. This protein, designated the single-stranded D-sequence-binding protein (ssD-BP), is phosphorylated at tyrosine residues and blocks AAV-mediated transgene expression in infected cells by inhibiting the leading strand viral DNA synthesis. Inhibition of cellular protein tyrosine kinases by genistein results in dephosphorylation of the ssD-BP, leading not only to significant augmentation of transgene expression from recombinant AAV but also to autonomous replication of the wild-type AAV genome. Dephosphorylation of the ssD-BP also correlates with adenovirus infection, or expression of the adenovirus E4orf6 protein, which is known to induce AAV DNA replication and gene expression. Thus, phosphorylation state of the ssD-BP appears to play a crucial role in the life cycle of AAV and may prove to be an important determinant in the successful use of AAV-based vectors in human gene therapy.

Cynomolgus monkeys ( Macaca fascicularis ) experimentally infected with B19V and hepatitis A virus: no evidence of the co-infection as a cause of acute liver failure

This study was conducted to analyse the course and the outcome of the liver disease in the co-infected animals in order to evaluate a possible synergic effect of human parvovirus B19 (B19V) and hepatitis A virus (HAV) co-infection. Nine adult cynomolgus monkeys were inoculated with serum obtained from a fatal case of B19V infection and/or a faecal suspension of acute HAV. The presence of specific antibodies to HAV and B19V, liver enzyme levels, viraemia, haematological changes, and necroinflammatory liver lesions were used for monitoring the infections. Seroconversion was confirmed in all infected groups. A similar pattern of B19V infection to human disease was observed, which was characterised by high and persistent viraemia in association with reticulocytopenia and mild to moderate anaemia during the period of investigation (59 days). Additionally, the intranuclear inclusion bodies were observed in pro-erythroblast cell from an infected cynomolgus and B19V Ag in hepatocytes. The erythroid hypoplasia and decrease in lymphocyte counts were more evident in the co-infected group. The present results demonstrated, for the first time, the susceptibility of cynomolgus to B19V infection, but it did not show a worsening of liver histopathology in the co-infected group.

Porcine hokovirus in wild boar in Portugal.

Porcine hokovirus (PHoV), also referred to as porcine parvovirus 4 (P-PARV4), a recently discovered parvovirus of swine that is closely related to human parvovirus 4/5 (H-PARV4/5), was first described in Hong Kong. To evaluate the occurrence of P-PARV4 in Portuguese wild boars in the hunting season of 2011/2012,liver and serum samples were tested. P-PARV4 was detected in 24 % of the wild boars analyzed. Phylogenetic analysis showed a close relationship between the P-PARV4 isolates and other P-PARV4 reference strains. This virus appears to be emerging, with yet unknown implications for public health.

Human bocavirus infection diagnosed serologically among children admitted to hospital with community-acquired pneumonia in a tropical region

Human bocavirus (HBoV) is a human virus associated with respiratory disease in children. Limited information is available on acute infection with HBoV among children admitted to hospital with community-acquired pneumonia in tropical regions and the current diagnosis is inadequate. The aims were to diagnose and describe acute HBoV infections among children hospitalized for community-acquired pneumonia. In Salvador, Brazil, 277 children with community-acquired pneumonia were prospectively enrolled. Paired serum samples were tested by IgG, IgM, and IgG-avidity enzyme immunoassays (EIAs) using recombinant HBoV VP2. HBoV DNA was detected in nasopharyngeal aspirates and serum by a quantitative polymerase-chain reaction (PCR). HBoV DNA was detected in nasopharyngeal aspirates of 62/268 (23%) children and 156/273 (57%) were seropositive. Acute primary HBoV infection was reliably diagnosed (bearing at least two acute markers: Positive IgM, a fourfold increase/conversion of IgG, low IgG avidity or viremia) in 21 (8%) of 273 patients, 90% of 20 had HBoV DNA in nasopharyngeal aspirates, 83% with a high DNA load. The median age of infection with HBoV was 16 months, range 5-36.Community-acquired pneumonia was confirmed radiographically in 85% of 20 patients with acute HBoV infection diagnosed serologically. HBoV DNA was found in nasopharyngeal aspirates of 42/246(17%) children without an acute primary HBoV infection and available nasopharyngeal aspirate. Four children with HBoV secondary immune responses were detected, lacking both IgM and viremia. HBoV infection was diagnosed accurately in children aged 5-36 months with community-acquired pneumonia confirmed radiographically. PCR of nasopharyngeal aspirates is not a reliable marker of acute HBoV infection. J. Med. Virol. 84:253-258, 2012. (C) 2011 Wiley Periodicals, Inc.

Meccanismi replicativi e di regolazione dell'espressione genica di Parvovirus B19

Il Parvovirus B19, virus patogeno umano della famiglia Parvoviridae, mostra uno specifico tropismo per i precursori eritroidi e una limitata replicazione in alcune linee cellulari megacarioblastoidi. Allo scopo di sviluppare sistemi utili allo studio delle caratteristiche biologiche del virus, diversi laboratori si sono occupati della costruzione di cloni genomici di B19 dotati di competenza funzionale e capaci di generare virus infettante. Parte del presente lavoro ha riguardato l’analisi funzionale di diversi cloni genomici di B19 e ha permesso di caratterizzare le regioni terminali del virus e di identificare requisiti essenziali per la loro funzionalità. Nel contesto intracellulare, esistono differenti livelli di restrizione in relazione alla capacità della cellula di supportare la replicazione virale, non ancora del tutto caratterizzati. Inoltre si sono accumulate evidenze circa la capacità del B19 di instaurare persistenza in numerosi tessuti. Non sono ancora note le caratteristiche funzionali del genoma virale in questo stato, è possibile che il virus persista in forma silente e meccanismi epigenetici possano regolare tale silenziamento. In questo studio è stato analizzato lo stato di metilazione del genoma di B19 e il suo possibile effetto sul ciclo replicativo virale ed è stata investigata la possibile associazione del DNA virale agli istoni cellulari nel corso di infezione in vitro. I risultati ottenuti confermano la presenza di questi meccanismi epigenetici, potendo ipotizzare che giochino un importante ruolo nella regolazione della funzionalità virale e nell’interazione B19-cellula e siano un elemento critico per l’adattamento del virus nell’ambiente in cui si trova. Inoltre l’ipotesi che anche i microRNA possano assumere un importante significato nell’interazione B19-cellula è stata proposta da diversi lavori e nel presente studio è stata valutata la produzione di queste piccole molecole durante l'infezione in vitro, ricercando microRNA (cellulari e/o virali) con omologia di sequenza per il genoma di B19 e quindi specifici per il virus.

Analyse der Beteiligung von Toll-like-Rezeptoren an der DC-Aktivierung nach Parvovirus-H-1-Infektion

Ziel dieser Dissertation war es die funktionelle Rolle der Toll-like Rezeptoren (TLRs) und ihrer Signalwege bei der Aktivierung von dendritischen Zellen (DC) durch Parvovirus H-1- rn(H-1PV) induzierte Tumorzelllysate (TCL) zu untersuchen. rnDas angeborene Immunsystem bekämpft die Bildung und das Wachstum von Tumoren, insbesondere durch Interaktion von Effektor-Immunzellen mit Tumorzellen. Die Aktivierung dieser Immunreaktionen in der Antitumortherapie ist wünschenswert, aber in vielen Situationen nicht zufriedenstellend, da sie durch klassische systemische Therapie allein nicht immer erreicht werden kann. Die therapeutische Anwendung von onkolytischen Viren bei Patienten mit malignen Erkrankungen (Virotherapie) ist ein vielversprechendes Gebiet der Forschung. Die onkosuppressive und immunstimulierende Wirkung von H-1PV auf humane Tumor- und Immunzellen spricht für eine Verwendung in der Krebstherapie. Ein Aktivierung des Immunsystems durch H-1PV konnte bereits in unserer Arbeitsgruppe gezeigt werden.rnIn dieser Arbeit wurden wichtige Aspekte bezüglich der Aktivierung von Toll-like Rezeptoren bei einer H-1PV Infektion untersucht. Zunächst wurde die Rolle von TLRs nach der H-1PV Infektion untersucht. Humane embryonale Nierenzellen (HEK293) wurden stabil mit humanen TLRs transfiziert, um die Rolle spezifischer TLRs während der Aktivierung des Immunsystems zu untersuchen. TLR3 und TLR9 wurden durch eine H-1PV Infektion, die mit der NFκB-Translokation in den Zellkern korreliert, aktiviert. Mit Hilfe eines Reporterplasmides (pNiFty-Luc), wurde durch erhöhte Expression eines NFκB-induzierbaren Reportergens die NFκB-Aktivität im Anschluss an eine H-1PV Infektion nachgewiesen. Zudem wurde die immunologische Wirkung von H-1PV-induzierten Tumorzelllysaten (TCL) auf die humane antitumor-gerichtete Immunantworten analysiert. Ein humanes ex vivo-Modell, bestehend aus einer HLA-A2-positiven humanen Melanom-Zelllinie (SK29Mel) wurde verwendet, um Immunreaktionen mit entsprechenden HLA-restringierten humanen DCs zu untersuchen. DCs die mit H-1PV-infizierten SK29Mel Zellen koinkubiert wurden, zeigten eine erhöhte TLR3- und TLR9-Expression. Diese Daten deuten darauf hin, dass H-1PV-induzierte TCLs humane DCs stimulieren und dies zumindest teilweise durch TLR-abhängige Signalwege geschieht. Demnach wird eine DC-Reifung durch Kokultur mit H-1PV-induzierten TCLs über den TLR-Signalweg erreicht und führte u.a. zu einer NFκB-abhängigen Aktivierung des adaptiven Immunsystems. Die onkolytischen Virotherapie mit H-1PV erhöht so durch unterschiedliche Auswirkungen auf DCs die Immunreaktion und verstärkt die Anti-Tumor-Immunität. Diese Ergebnisse zeigen einen neuen potenziellen Ansatz für den Einsatz onkolytischer Viren für TLR-zielgerichtete Therapieoptionen und stellen eine ideale Möglichkeit zur Erweiterung der Krebsbehandlung dar.rn

Parvovirus 4 infection and clinical outcome in high-risk populations

Parvovirus 4 (PARV4) is a DNA virus frequently associated with human immunodeficiency virus (HIV) and hepatitis C virus (HCV) infections, but its clinical significance is unknown. We studied the prevalence of PARV4 antibodies in 2 cohorts of HIV- and HCV-infected individuals (n = 469) and the correlations with disease status. We found that PARV4 infection frequently occurred in individuals exposed to bloodborne viruses (95% in HCV-HIV coinfected intravenous drug users [IDUs]). There were no correlations between PARV4 serostatus and HCV outcomes. There was, however, a significant association with early HIV-related symptoms, although because this was tightly linked to both HCV status and clinical group (IDU), the specific role of PARV4 is not yet clear.

The Expanded Human Kallikrein (KLK) gene family : genomic organisation, tissue specific expression and potential functions

The tissue kallikreins are serine proteases encoded by highly conserved multigene families. The rodent kallikrein (KLK) families are particularly large, consisting of 13 26 genes clustered in one chromosomal locus. It has been recently recognised that the human KLK gene family is of a similar size (15 genes) with the identification of another 12 related genes (KLK4-KLK15) within and adjacent to the original human KLK locus (KLK1-3) on chromosome 19q13.4. The structural organisation and size of these new genes is similar to that of other KLK genes except for additional exons encoding 5 or 3 untranslated regions. Moreover, many of these genes have multiple mRNA transcripts, a trait not observed with rodent genes. Unlike all other kallikreins, the KLK4-KLK15 encoded proteases are less related (25–44%) and do not contain a conventional kallikrein loop. Clusters of genes exhibit high prostatic (KLK2-4, KLK15) or pancreatic (KLK6-13) expression, suggesting evolutionary conservation of elements conferring tissue specificity. These genes are also expressed, to varying degrees, in a wider range of tissues suggesting a functional involvement of these newer human kallikrein proteases in a diverse range of physiological processes.