Development of a Usutu virus specific real-time reverse transcription PCR assay based on sequenced strains from Africa and Europe.

Usutu virus (USUV) has been isolated in several African and European countries mainly from mosquitoes and birds. However, previous benign and two recent severe cases of human infections point out the need of a tool for the identification of USUV in human samples. A published real-time reverse transcription (RT) PCR assay for the detection of USUV in human blood or cerebrospinal fluid does not take into account the genetic variability of USUV in different geographic regions. Therefore, this article presents a quantitative real-time RT-PCR assay based on sequences from Europe and Africa. Primers and probe were designed in conserved regions among USUV strains that differed from closely related flaviviruses. The specificity of the assay was investigated by testing 16 other flaviviruses circulating in Africa. The sensitivity was determined by testing serial dilutions of virus and RNA standard. Intra- and inter-assay coefficients of variation were evaluated by 10 reactions in a same and in different assays, respectively. The assay provides high analytical specificity for USUV and detection limits of 1.2pfu/reaction for virus dilutions in L-15 medium or human serum and 60 copies/reaction for the RNA standard. The assay needs to be evaluated in a clinical context and integrated in standard diagnosis of flaviviral diseases.

From ancestral infectious retroviruses to bona fide cellular genes: role of the captured syncytins in placentation.

During their replication, infectious retroviruses insert a reverse-transcribed cDNA copy of their genome, a "provirus", into the genome of their host. If the infected cell belongs to the germline, the integrated provirus can become "fixed" within the host genome as an endogenous retrovirus and be transmitted vertically to the progeny in a Mendelian fashion. Based on the numerous proviral sequences that are recovered within the genomic DNA of vertebrates--up to ten percent in the case of mammals--such events must have occurred repeatedly during the course of millions of years of evolution. Although most of the ancient proviral sequences have been disrupted, a few "endogenized" retroviral genes are conserved and still encode functional proteins. In this review, we focus on the recent discovery of genes derived from the envelope glycoprotein-encoding (env) genes of endogenous retroviruses that have been domesticated by mammals to carry out an essential function in placental development. They were called syncytins based on the membrane fusogenic capacity that they have kept from their parental env gene and which contributes to the formation of the placental fused cell layer called the syncytiotrophoblast, at the materno-fetal interface. Remarkably, the capture of syncytin or syncytin-like genes, sometimes as pairs, was found to have occurred independently from different endogenous retroviruses in diverse mammalian lineages such as primates--including humans--, muroids, leporids, carnivores, caviids, and ovis, between around 10 and 85 million years ago. Knocking out one or both mouse syncytin-A and -B genes provided evidence that they indeed play a critical role in placentation. We discuss the possibility that the immunosuppressive domain embedded within retroviral envelope glycoproteins and conserved in syncytin proteins, may be involved in the tolerance of the fetus by the maternal immune system. Finally, we speculate that the capture of a founding syncytin-like gene could have been instrumental in the dramatic transition from egg-laying to placental mammals.

A syncytin-like endogenous retrovirus envelope gene of the guinea pig specifically expressed in the placenta junctional zone and conserved in Caviomorpha.

Syncytins are genes of retroviral origin that have been co-opted by mammalian hosts for a function in placentation. Two such genes have already been identified in simians, as well as two distinct, unrelated ones in Muridae and a fifth in the rabbit. Here we searched for similar genes in the guinea pig, which belongs to the Caviomorpha lineage within the Hystricognathi suborder of rodents and displays a placental structural organization with several characteristic features comparable to those of the human organ, including deep trophoblast invasion of maternal tissues. An in silico search for envelope (env) genes with full coding capacity identified a candidate gene that showed specific expression in the placenta, as revealed by RT-qPCR using RNAs from a large panel of tissues. This gene belongs to an endogenous retroviral element present at a single-copy in the guinea pig genome, still displaying a retroviral organization - with a degenerate gag and pol, but an intact env gene. In situ hybridization of guinea pig placenta sections demonstrated specific expression at the level of the invasive trophoblast-containing junctional zone, as observed in humans for syncytin-1 and consistent with a role in invasion of the maternal uterine tissues. The identified gene displays a conserved open reading frame in the Caviomorpha, consistent with an entry date >30 million years, and sequence analyses showed purifying selection of the gene. Conclusively, despite the absence of a demonstrated fusogenic activity, it is likely that the identified env gene - that we named syncytin-like env-Cav1 - exerts a physiological function possibly related to trophoblast invasion, in the course of caviomorph placentation.

Environmental risk factors of West Nile virus infection of horses in the Senegal River basin.

In 2005, a serological study was carried out on horses in five ecologically contrasted zones of the Senegal River basin (Senegal) to assess West Nile virus (WNV) transmission and investigate underlying environmental risk factors. In each study zone, horses were randomly selected and blood samples taken. A land-cover map of the five study areas was built using two satellite ETM+ images. Blood samples were screened by ELISA for anti-WNV IgM and IgG and positive samples were confirmed by seroneutralization. Environmental data were analysed using a principal components analysis. The overall IgG seroprevalence rate was 85% (n=367; 95% CI 0.81-0.89). The proximity to sea water, flooded banks and salted mudflats were identified as protective factors. These environmental components are unfavourable to the presence of Culex mosquitoes suggesting that in Senegal, the distribution of the vector species is more limiting for WNV transmission than for the hosts' distribution.

Expression of the fusogenic HERV-FRD Env glycoprotein (syncytin 2) in human placenta is restricted to villous cytotrophoblastic cells.

Recently, the expression of a human endogenous retrovirus HERV-FRD, able to encode a fusogenic envelope protein (syncytin 2), has been observed in human placenta. The aim of the present study was to localize the expression of syncytin 2 in first trimester placenta. In addition, we investigated the presence of HERV-FRD transcripts during the in vitro differentiation of isolated villous and extravillous trophoblastic cells from first trimester chorionic villi. Using a monoclonal antibody specifically raised against the HERV-FRD Env protein, syncytin 2 was immunolocalized only in the villous trophoblast of the chorionic villi, at the level of cytotrophoblastic cells. Interestingly, immunostaining was not observed in all cells but only in some of them, and was detected, more frequently, at the membrane level at the interface between the cytotrophoblastic cells and syncytiotrophoblast. Labeling was observed neither in the syncytiotrophoblast nor in the mesenchymal core of the villi nor in the extravillous trophoblast. In vitro detection of HERV-FRD transcripts was restricted to villous trophoblastic cells and decreased significantly with time in culture. These results suggest that syncytin 2 might play a role in human trophoblastic cell fusion.

Identification of four families of yCCR4- and Mg2+-dependent endonuclease-related proteins in higher eukaryotes, and characterization of orthologs of yCCR4 with a conserved leucine-rich repeat essential for hCAF1/hPOP2 binding.

BACKGROUND: The yeast yCCR4 factor belongs to the CCR4-NOT transcriptional regulatory complex, in which it interacts, through its leucine-rich repeat (LRR) motif with yPOP2. Recently, yCCR4 was shown to be a component of the major cytoplasmic mRNA deadenylase complex, and to contain a fold related to the Mg2+-dependent endonuclease core. RESULTS: Here, we report the identification of nineteen yCCR4-related proteins in eukaryotes (including yeast, plants and animals), which all contain the yCCR4 endonuclease-like fold, with highly conserved CCR4-specific residues. Phylogenetic and genomic analyses show that they form four distinct families, one of which contains the yCCR4 orthologs. The orthologs in animals possess a leucine-rich repeat domain. We show, using two-hybrid and far-Western assays, that the human member binds to the human yPOP2 homologs, i.e. hCAF1 and hPOP2, in a LRR-dependent manner. CONCLUSIONS: We have identified the mammalian orthologs of yCCR4 and have shown that the human member binds to the human yPOP2 homologs, thus strongly suggesting conservation of the CCR4-NOT complex from yeast to human. All members of the four identified yCCR4-related protein families show stricking conservation of the endonuclease-like catalytic motifs of the yCCR4 C-terminal domain and therefore constitute a new family of potential deadenylases in mammals.

Characterization of a mammalian gene related to the yeast CCR4 general transcription factor and revealed by transposon insertion.

Murine intracisternal A-particles (IAPs) are reiterated retrovirus-like transposable elements that can act as insertional mutagens. Accordingly, we previously identified a chimeric transcript initiated at an IAP promoter and extending through a 3'-located open reading frame with significant similarity to the C-terminal domain of the yeast CCR4 general transcription factor. In this report, we characterize the corresponding murine gene, mCCR4, and its human homologue, thus providing the first description of CCR4-like factors in mammals. cDNA cloning revealed two mCCR4 mRNAs of 2.7 and 3.1 kilobases, differing by their transcription start sites within the native mCCR4 gene promoter, and encoding a putative 430-amino acid protein. The mCCR4 gene contains three exons and two introns spanning almost 27 kilobases. The IAP insertion, detected only in some laboratory mouse strains, is recent and lies within the first intron. The 5'-region of the gene has features of housekeeping gene promoters. It lacks a TATA box but contains a CpG island and Sp1 sites. This region discloses strong promoter activity in transient transfection assays and also stimulates transcription in the reverse orientation, a feature common to other CpG island-containing promoters. Transcripts were detected in all the organs tested, although at a variable level, and displayed no strain-dependent differences relative to the IAP insertion, suggesting the existence of mechanisms preserving mCCR4 transcription from the usually deleterious effects of intronic transposition. The strong amino acid conservation between the human, murine, and the previously identified Xenopus CCR4-like proteins, is consistent with an important and conserved role for this protein in vertebrates.

Expression of intracisternal A-particle retrotransposons in primary tumors of oncogene-expressing transgenic mice.

Intracisternal A-Particle (IAP) sequences are endogenous retrovirus-like mobile elements, present at 1000 copies in the mouse genome. These elements transpose in a replicative manner via an RNA intermediate and its reverse transcription, and their transposition should therefore be tightly controlled by their transcription level. The in vivo pattern of expression of these potentially mutagenic elements had previously been analysed in normal mice, and we have now investigated their expression in transgenic mice carrying different oncogenes (e.g. c-myc, v-Ha-ras, SV40 T-antigen) under tissue-specific promoters and disclosing tumors within the brain, the mammary or salivary glands, or the lymphoid organs. Northern blot analysis of IAP expression within the resulting tumors demonstrates a lack of significant and/or systematic effect of v-Ha-ras and SV40 T-antigen expression, but a systematic IAP induction in the myc-induced tumors. In this case, however, analysis of double transgenic mice obtained by crossing the tumor-prone mice with previously described transgenic mice carrying IAP reporter genes did not provide any evidence for induction of the IAP transgenes, therefore strongly suggesting that c-myc expression had an effect on only a limited number of IAP sequences--most probably depending on their position and/or methylation state. These results strengthen the importance of in vivo studies for a correct appraisal of complex biological processes, and moderate previous conclusions derived from in vitro analyses on the general activation of IAPs by oncogenes and on the role of these transposable elements in tumorigenesis.

Characterization of two age-induced intracisternal A-particle-related transcripts in the mouse liver. Transcriptional read-through into an open reading frame with similarities to the yeast ccr4 transcription factor.

Intracisternal A-particle (IAP) sequences are endogenous retrovirus-like elements present at 1,000 copies in the mouse genome. We had previously identified IAP-related transcripts of unusual size (6 and 10 kilobases (kb)), which are observed exclusively in the liver of the aging mouse. In this report, using cDNA libraries that we have constructed from the liver mRNAs of an aged DBA/2 mouse, we have cloned and entirely sequenced the corresponding cDNAs. Both are initiated within the 5' long terminal repeat of a type IDelta1 IAP sequence, and correspond to a read-through into a unique flanking cellular sequence containing a 966-nucleotide open reading frame, located 3' to the IAP sequence. The 6-kb IAP-related transcript corresponds to a post-transcriptional modification of the 10-kb mRNA, and is generated by a splicing event with the donor site in the IAP sequence, and the acceptor site 5' to the open reading frame. This open reading frame is located on chromosome 3, is evolutionarily conserved, and discloses significant similarity to the yeast CCR4 transcription factor at the amino acid level. The specific expression of these age-induced transcripts, which account for more than 50% of the IAP-related transcripts in the liver of old mice, is therefore entirely consistent with the induction of a single genomic locus, thus strengthening the importance of position effects for the expression of transposable elements. Characterization of this locus should now allow studies on its chromatin and methylation status, and on the "molecular factors of senescence" possibly involved in its induction.

Germ line-specific expression of intracisternal A-particle retrotransposons in transgenic mice.

Intracisternal A-particle (IAP) sequences are endogenous retrovirus-like mobile elements, or retrotransposons, present at 1,000 copies in the mouse genome. These elements transpose in a replicative manner via an RNA intermediate and its reverse transcription, and their transposition should therefore be tightly controlled by their transcription level. To analyze the in vivo pattern of expression of these retrovirus-like elements, we constructed several independent transgenic mice with either a complete IAP element marked with an intron or with the IAP promoter, or long terminal repeat (LTR), alone controlling the expression of a lacZ reporter gene with a nuclear localization signal. For all transgenic lines analyzed, IAP expression as determined by reverse transcription-PCR analysis was found to be essentially restricted to the male germ line. Furthermore, in situ 5-bromo-4-chloro-3-indolyl-beta-D-galactopyranoside (X-Gal) staining of all organs disclosed specific beta-galactosidase-positive blue cells only within the testis, found as patches along the seminiferous tubules and often organized as assemblies of 2, 4, 8, or 16 cells. Histochemical analyses of tissues from 13.5-day-old embryos to adults demonstrated that this LTR activity is restricted to gonocytes and premeiotic undifferentiated spermatogonia. Finally, analysis of the methylation status of both transgenes and endogenous IAP LTRs demonstrated identical patterns, with methylation in somatic tissues and hypomethylation in the testis. Transgenic mice therefore reveal an intrinsic, highly restricted IAP expression which had escaped detection in previous global Northern (RNA) blot analyses and with possible strong biological relevance, as IAP activation specifically within the germ line might be a way to generate diversity at the evolutionary level without being deleterious to individuals.

IAP retrotransposons in the mouse liver as reporters of ageing.

IAP are endogenous retrovirus-like elements present at a thousand copies in the murine genome. They can modulate the level of expression of the tagged genes into which they have inserted, and conversely their activity could be influenced by the level of activity of the genes and/or DNA sequences into which they are embedded. In this report, we have analysed by Northern blots the pattern of expression of the IAP-related transcripts in the organs of young and ageing mice. We show that IAP transcripts of unexpected size (namely 10 kb and 6 kb) are induced in the liver of ageing mice from all inbred and hybrid strains tested. These transcripts are not detected in young mice, and their intensity disclose variations depending on the strain, as those observed for the two canonical 7.2 and 5.4 kb IAP transcripts. It is suggested that these age-dependent IAP transcripts originate from unique sites within the mouse genome that are 'tagged' by an IAP sequence, which would be sensitive both to strain-dependent cellular factors acting at the level of all IAPs, and to an age-dependent liver-specific cellular factor and/or DNA state, responsible for the position-dependent effect. These age-dependent transcripts should allow the identification of putative genes or factors of 'senescence'.