The African Swine Fever Virus IAP Homolog Is a Late Structural Polypeptide

AbstractThe analysis of the complete nucleotide sequence of the African swine fever virus genome has revealed the existence of a number of genes potentially capable of modifying the host's response to the virus infection. In this report, we describe the results of the characterization of the A224L gene that encodes a novel member of the family of apoptosis inhibitors known as IAP proteins. A224L is expressed during the late phase of the infectious cycle, and its polypeptide product is assembled into virus particles

Antiviral activity of lauryl gallate against animal viruses

BACKGROUND: Antiviral compounds are needed in the control of many animal and human diseases. METHODS: We analysed the effect of the antitumoural drug lauryl gallate on the infectivity of the African swine fever virus among other DNA (herpes simplex and vaccinia) and RNA (influenza, porcine transmissible gastroenteritis and Sindbis) viruses, paying attention to its effect on the viability of the corresponding host cells. RESULTS: Viral production was strongly inhibited in different cell lines at non-toxic concentrations of the drug (1-10 microM), reducing the titres 3->5 log units depending on the multiplicity of infection. In our model system (African swine fever virus in Vero cells), the addition of the drug 1 h before virus adsorption completely abolished virus productivity in a one-step growth virus cycle. Interestingly, no inhibitory effect was observed when lauryl gallate was added after 5-8 h post-infection. Both cellular and viral DNA synthesis and late viral transcription were inhibited by the drug; however, the early viral protein synthesis and the virus-mediated increase of p53 remained unaffected. Activation of the apoptotic effector caspase-3 was not detected after lauryl gallate treatment of Vero cells. Furthermore, the presence of the drug abrogated the activation of this protease induced by the virus infection. CONCLUSIONS: Lauryl gallate is a powerful antiviral agent against several pathogens of clinical and veterinary importance. The overall results indicate that a cellular factor or function might be the target of the antiviral action of alkyl gallates.This work was supported by grants from Ministerio de Educación y Ciencia, Spain (BFU2004-00298/BMC), Laboratorios del Dr Esteve, Barcelona, Spain and by institutional grants from Fundación Ramón Areces, Madrid, Spain and Banco Central Hispano, Madrid, Spain. CH was a fellow from Fundación Ramón Areces. AGG was funded by Centro de Investigación en Sanidad Animal (CISA), Valdeolmos, Spain.N

Characterization of the African swine fever virus decapping enzyme during infection

African swine fever virus (ASFV) infection is characterized by a progressive decrease in cellular protein synthesis with a concomitant increase in viral protein synthesis, though the mechanism by which the virus achieves this is still unknown. Decrease of cellular mRNA is observed during ASFV infection, suggesting that inhibition of cellular proteins is due to an active mRNA degradation process. ASFV carries a gene (Ba71V D250R/Malawi g5R) that encodes a decapping protein (ASFV-DP) that has a Nudix hydrolase motif and decapping activity in vitro. Here, we show that ASFV-DP was expressed from early times and accumulated throughout the infection with a subcellular localization typical of the endoplasmic reticulum, colocalizing with the cap structure and interacting with the ribosomal protein L23a. ASFV-DP was capable of interaction with poly(A) RNA in cultured cells, primarily mediated by the N-terminal region of the protein. ASFV-DP also interacted with viral and cellular RNAs in the context of infection, and its overexpression in infected cells resulted in decreased levels of both types of transcripts. This study points to ASFV-DP as a viral decapping enzyme involved in both the degradation of cellular mRNA and the regulation of viral transcripts

Antiviral activity of lauryl gallate against animal viruses

Suplemmentary material is avalaible at the end of the paperThe effect of the anti-tumoral drug lauryl gallate on the infectivity of the African swine fever virus among other DNA (Herpes simplex and Vaccinia) and RNA (Influenza, Porcine transmissible gastroenteritis and Sindbis) viruses, involved in animal and human diseases, is analyzed. Viral production was strongly inhibited in different cell lines at non-toxic concentrations of the drug (1-10 μM), reducing the titres from 3 to more than 5 log. units depending on the multiplicity of infection. In our model system (African swine fever virus in Vero cells), the addition of the drug 1 h before virus adsorption, completely abolished virus productivity in a one-step growth virus cycle. Interestingly, no inhibitory effect was observed when lauryl gallate was added after 5 to 8 hpi. Both cellular and viral DNA synthesis and late viral transcription were inhibited by the drug, but, however, the early viral protein synthesis and the virus-mediated increasing of p53 remained unaffected. Activation of the apoptotic effector caspase-3 was not detected after lauryl gallate treatment of Vero cells, and, furthermore, the presence of the drug abrogated the activation of this protease induced by the virus infection. The overall results likely indicate that a cellular factor/function might be the target of the antiviral action of alkyl gallatesThis work was supported by grants from Ministerio de Educación y Ciencia (Nº BFU2004-00298/BMC), Laboratorios del Dr. Esteve, and by an institutional grant from the Fundación Ramón Areces. C.Hurtado was a fellow from Fundación Ramón Areces. A.G. Granja was funded by Centro de Investigación en Sanidad Animal (CISA).Peer reviewe

The C-type lectin homologue gene (EP153R) of African swine fever virus inhibits apoptosis both in virus infection and in heterologous expression

The open reading frame EP153R of African swine fever virus (ASFV) encodes a nonessential protein that has been involved in the hemadsorption process induced in virus-infected cells. By the use of a virus deletion mutant lacking the EP153R gene, we have detected, in several virus-sensitive cells, increased levels of caspase-3 and cell death as compared with those obtained after infection with the parental BA71V strain. Both transient and stable expression of the EP153R gene in Vero or COS cells resulted in a partial protection of the transfected lines from the apoptosis induced in response to virus infection or external stimuli. The presence of gene EP153R resulted in a reduction of the transactivating activity of the cellular protein p53 in Vero cell cultures in which apoptosis was induced by virus infection or staurosporine treatment. This is to our knowledge the first description of a viral C-type lectin with anti-apoptotic properties.This work was supported by grants from Ministerio de Ciencia y Tecnologı́a (BMC2000-1485 and AGL2002-10220-E), the European Commission (QLRT-2000-02216), and by an institutional grant from the Fundación Ramón Areces. C. Hurtado was a fellow from Fundación Ramón Areces