Charles Hébert

Human Skin Microbiota: High Diversity of DNA Viruses Identified on the Human Skin by High Throughput Sequencing

The human skin is a complex ecosystem that hosts a heterogeneous flora. Until recently, the diversity of the cutaneous microbiota was mainly investigated for bacteria through culture based assays subsequently confirmed by molecular techniques. There are now many evidences that viruses represent a significant part of the cutaneous flora as demonstrated by the asymptomatic carriage of beta and gamma-human papillomaviruses on the healthy skin. Furthermore, it has been recently suggested that some representatives of the Polyomavirus genus might share a similar feature. In the present study, the cutaneous virome of the surface of the normal-appearing skin from five healthy individuals and one patient with Merkel cell carcinoma was investigated through a high throughput metagenomic sequencing approach in an attempt to provide a thorough description of the cutaneous flora, with a particular focus on its viral component. The results emphasize the high diversity of the viral cutaneous flora with multiple polyomaviruses, papillomaviruses and circoviruses being detected on normal-appearing skin. Moreover, this approach resulted in the identification of new Papillomavirus and Circovirus genomes and confirmed a very low level of genetic diversity within human polyomavirus species. Although viruses are generally considered as pathogen agents, our findings support the existence of a complex viral flora present at the surface of healthy-appearing human skin in various individuals. The dynamics and anatomical variations of this skin virome and its variations according to pathological conditions remain to be further studied. The potential involvement of these viruses, alone or in combination, in skin proliferative disorders and oncogenesis is another crucial issue to be elucidated.

Identification of parasitic communities within European ticks using next-generation sequencing.

Background Risk assessment of tick-borne and zoonotic disease emergence necessitates sound knowledge of the particular microorganisms circulating within the communities of these major vectors. Assessment of pathogens carried by wild ticks must be performed without a priori, to allow for the detection of new or unexpected agents. Methodology/Principal Findings We evaluated the potential of Next-Generation Sequencing techniques (NGS) to produce an inventory of parasites carried by questing ticks. Sequences corresponding to parasites from two distinct genera were recovered in Ixodes ricinus ticks collected in Eastern France: Babesia spp. and Theileria spp. Four Babesia species were identified, three of which were zoonotic: B. divergens, Babesia sp. EU1 and B. microti; and one which infects cattle, B. major. This is the first time that these last two species have been identified in France. This approach also identified new sequences corresponding to as-yet unknown organisms similar to tropical Theileria species. Conclusions/Significance Our findings demonstrate the capability of NGS to produce an inventory of live tick-borne parasites, which could potentially be transmitted by the ticks, and uncovers unexpected parasites in Western Europe.

Unbiased analysis by high throughput sequencing of the viral diversity in fetal bovine serum and trypsin used in cell culture

Fetal bovine serum (FBS) and trypsin are reagents used in cell culture and have been the source of viral contamination of pharmaceutical products. We performed high throughput sequencing (HTS) of two pools of commercial batches of FBS and three commercial batches of trypsin. Taxonomies were assigned by comparing sequences of contigs and singletons to the entire NCBI nucleic acid and protein databases. The same major viral species were evidenced between batches of a given reagent but the proportion of viral reads among total reads varied markedly between samples (from 0.002% to 22.7%). In FBS, the sequences found were mainly from bovine viral diarrhea virus (BVDV) 1 to 3 and bovine parvovirus 3 (BPV3). The BVDV sequences derived from FBS showed only minor discrepancies with primers generally used for the screening of BVDV. Viral sequences in trypsin were mainly from porcine circovirus type 2. Other known viral sequences at lower read counts and potential new viral species (bovine parvovirus and bovine pegivirus) were evidenced. The load of some known and new viruses detected by HTS could be quantified by qPCR. Results of HTS provide a framework for evaluating the pertinence of control measures including the design of PCRs, bioassays and inactivation procedures.

Whole Genome: Next-Generation Sequencing as a Virus Safety Test for Biotechnological Products

The availability of next-generation sequencing techniques is about to strongly modify the strategies of control of the viral safety of biologicals products. It is now possible to use the tools of metagenomics, which is the study of the microbial genetic sequences recovered directly from a given sample. In this setting, the sequence of all the nucleic acids species of the sample are determined and compared with those in databases. We describe the pipeline we are currently using and show comparison of its analytical sensitivity with that of polymerase chain reaction together with results of time course experiments in infected cells. We propose to test cell supernatants for viral genomes associated to capsids and testing cells for viral RNA transcripts as the hallmark for virus replication, and we suggest rules of interpretation of the results. We also discuss the applicability of next-generation sequencing for the control of raw materials.

Viral diversity in swine intestinal mucus used for the manufacture of heparin as analyzed by high-throughput sequencing.

Abstract Heparin is one of the main pharmaceutical products manufactured from raw animal material. In order to describe the viral burden associated with this raw material, we performed high-throughput sequencing (HTS) on mucus samples destined for heparin manufacturing, which were collected from European pigs. We identified Circoviridae and Parvoviridae members as the most prevalent contaminating viruses, together with viruses from the Picornaviridae, Astroviridae, Reoviridae, Caliciviridae, Adenoviridae, Birnaviridae, and Anelloviridae families. Putative new viral species were also identified. The load of several known or novel small non-enveloped viruses, which are particularly difficult to inactivate or eliminate during heparin processing, was quantified by qPCR. Analysis of the combined HTS and specific qPCR results will influence the refining and validation of inactivation procedures, as well as aiding in risk analysis of viral heparin contamination.

Analysis by high throughput sequencing of Specific Pathogen Free eggs

Specific Pathogen Free (SPF) embryonated eggs are used for the production of many veterinary and human vaccines. We have used High Throughput Sequencing to screen allantoic fluids and embryos for the presence of encapsidated viral genomes and viral transcripts, respectively. SPF eggs from two different producers were tested. We evidenced sequences corresponding to known endogenous retroviruses and sequences of Avian Leukosis Virus, but no sequence that might suggest a productive infection of eggs with a virus even distant from known viruses. Our results strongly suggest that SPF eggs such as those used for this study represent a safe substrate for the production of vaccines.

Hypoglycemic Toxins and Enteroviruses as Causes of Outbreaks of Acute Encephalitis-Like Syndrome in Children, Bac Giang Province, Northern Vietnam

We investigated the cause of seasonal outbreaks of pediatric acute encephalitis-like syndrome associated with litchi harvests (May–July) in northern Vietnam since 2008. Nineteen cerebrospinal fluid samples were positive for human enterovirus B, and 8 blood samples were positive for hypoglycemic toxins present in litchi fruits. Patients who were positive for hypoglycemic toxins had shorter median times between disease onset and admission, more reports of seizures, more reports of hypoglycemia (glucose level <3 mmol/L), lower median numbers of leukocytes in cerebrospinal fluid, and higher median serum levels of alanine aminotransferase and aspartate transaminase than did patients who were positive for enteroviruses. We suggest that children with rapidly progressing acute encephalitis-like syndrome at the time of the litchi harvest have intoxication caused by hypoglycemic toxins, rather than viral encephalitis, as previously suspected. These children should be urgently treated for life-threatening hypoglycemia.