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18 results on '"Beller, Leen"'

2. Benchmark of thirteen bioinformatic pipelines for metagenomic virus diagnostics using datasets from clinical samples

Author

de Vries, Jutte J.C., Brown, Julianne R., Fischer, Nicole, Sidorov, Igor A., Morfopoulou, Sofia, Huang, Jiabin, Munnink, Bas B. Oude, Sayiner, Arzu, Bulgurcu, Alihan, Rodriguez, Christophe, Gricourt, Guillaume, Keyaerts, Els, Beller, Leen, Bachofen, Claudia, Kubacki, Jakub, Cordey, Samuel, Laubscher, Florian, Schmitz, Dennis, Beer, Martin, Hoeper, Dirk, Huber, Michael, Kufner, Verena, Zaheri, Maryam, Lebrand, Aitana, Papa, Anna, van Boheemen, Sander, Kroes, Aloys C.M., Breuer, Judith, Lopez-Labrador, F. Xavier, and Claas, Eric C.J.

Published
2021
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8. The virota and its transkingdom interactions in the healthy infant gut.

Author

Beller, Leen, Deboutte, Ward, Vieira-Silva, Sara, Falony, Gwen, Tito, Raul Yhossef, Rymenans, Leen, Yinda, Claude Kwe, Vanmechelen, Bert, Van Espen, Lore, Jansen, Daan, Chenyan Shi, Zeller, Mark, Maes, Piet, Faust, Karoline, Van Ranst, Marc, Raes, Jeroen, and Matthijnssens, Jelle

Subjects
*PLANT viruses, *INFANTS, *IDENTIFICATION of fungi, *GUT microbiome, *BACTERIOPHAGES
Abstract

Virome and 16/18S analyses were performed on 304 longitudinal fecal samples of eight infants. The gut virota--the collection of all viruses present in the gut--was dominated by bacteriophages, which were nearly absent at birth and emerged rapidly within the first weeks after birth. Over 85% of phage reads correspond to 305 near-complete genomes, most of which (70.5%) were individual infant-specific, including two crAs-sphages, whereas 7.8% of phages were present in at least 50% of infants. Bacterial hosts could be predicted for 80% of phages, mainly infecting Firmicutes. Strong temporal correlations between phages and their predicted bacterial hosts were identified for >40% of our phages, and together with the observation of a decreasing fraction of phages with a temperate lifestyle further suggest that phages are induced from early-colonizing bacteria. The vast majority (>86%) of identified eukaryotic viruses, known to cause gastroenteritis, occurred without clinical signs, and an increase in the rate of infection occurred after day-care entrance. On average, 112 genomic contigs of distinct anelloviruses could be identified per infant, some of which were shed at > 1 y. The identified plant viruses reflected the infant diet. Finally, the sporadic identification of fungi and parasites argues against the presence of such stable communities in the study population. Overall, this work provides a very high temporal resolution on how the different members of the infant gut microbiota, and especially the virome, develop over time in the gut of healthy infants, and might serve as valuable baseline knowledge for further studies investigating the effect of perturbations in the infant gut microbiota. [ABSTRACT FROM AUTHOR]

Published
2022
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9. A Previously Undescribed Highly Prevalent Phage Identified in a Danish Enteric Virome Catalog.

Author

Van Espen, Lore, Bak, Emilie Glad, Beller, Leen, Close, Lila, Deboutte, Ward, Juel, Helene Bæk, Nielsen, Trine, Sinar, Deniz, De Coninck, Lander, Frithioff-Bøjsøe, Christine, Fonvig, Cilius Esmann, Jacobsen, Suganya, Kjærgaard, Maria, Thiele, Maja, Fullam, Anthony, Kuhn, Michael, Holm, Jens-Christian, Bork, Peer, Krag, Aleksander, and Hansen, Torben

Published
2021
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12. Modular approach to customise sample preparation procedures for viral metagenomics: a reproducible protocol for virome analysis.

Author

Conceição-Neto, Nádia, Zeller, Mark, Lefrère, Hanne, De Bruyn, Pieter, Beller, Leen, Deboutte, Ward, Yinda, Claude Kwe, Lavigne, Rob, Maes, Piet, Ranst, Marc Van, Heylen, Elisabeth, and Matthijnssens, Jelle

Subjects
METAGENOMICS, MICROBIAL genomics, ASYMPTOTIC homogenization, CENTRIFUGATION, FILTERS & filtration, CHLOROFORM
Abstract

A major limitation for better understanding the role of the human gut virome in health and disease is the lack of validated methods that allow high throughput virome analysis. To overcome this, we evaluated the quantitative effect of homogenisation, centrifugation, filtration, chloroform treatment and random amplification on a mock-virome (containing nine highly diverse viruses) and a bacterial mock-community (containing four faecal bacterial species) using quantitative PCR and next-generation sequencing. This resulted in an optimised protocol that was able to recover all viruses present in the mock-virome and strongly alters the ratio of viral versus bacterial and 16S rRNA genetic material in favour of viruses (from 43.2% to 96.7% viral reads and from 47.6% to 0.19% bacterial reads). Furthermore, our study indicated that most of the currently used virome protocols, using small filter pores and/or stringent centrifugation conditions may have largely overlooked large viruses present in viromes. We propose NetoVIR (Novel enrichment technique of VIRomes), which allows for a fast, reproducible and high throughput sample preparation for viral metagenomics studies, introducing minimal bias. This procedure is optimised mainly for faecal samples, but with appropriate concentration steps can also be used for other sample types with lower initial viral loads. [ABSTRACT FROM AUTHOR]

Published
2015
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13. Bidirectional Interactions between Arboviruses and the Bacterial and Viral Microbiota in Aedes aegypti and Culex quinquefasciatus.

Author

Shi C, Beller L, Wang L, Rosales Rosas A, De Coninck L, Héry L, Mousson L, Pagès N, Raes J, Delang L, Vega-Rúa A, Failloux AB, and Matthijnssens J

Subjects
Humans, Animals, Female, Mosquito Vectors, Bacteria, Sucrose, Water, Culex, Aedes, Arboviruses, Zika Virus, Zika Virus Infection, West Nile virus, Viruses, Microbiota
Abstract

Mosquitoes are important vectors for many arboviruses. It is becoming increasingly clear that various symbiotic microorganisms (including bacteria and insect-specific viruses; ISVs) in mosquitoes have the potential to modulate the ability of mosquitoes to transmit arboviruses. In this study, we compared the bacteriome and virome (both eukaryotic viruses and bacteriophages) of female adult Aedes aegypti and Culex quinquefasciatus mosquitoes fed with sucrose/water, blood, or blood spiked with Zika virus (ZIKV) or West Nile virus (WNV), respectively. Furthermore, we investigated associations between the microbiota and vector competence. We show that the influence of arboviruses on the mosquito microbiome-and vice versa-is distinct for each combination of arbovirus/mosquito species. The presence of ZIKV resulted in a temporarily increased Aedes ISV diversity. However, this effect was distinct for different ISVs: some ISVs decreased following the blood meal (Aedes aegypti totivirus), whereas other ISVs increased only when the blood contained ZIKV (Guadeloupe mosquito virus). Also, the diversity of the Aedes bacteriome depended on the diet and the presence of ZIKV, with a lower diversity observed for mosquitoes receiving blood without ZIKV. In Cx. quinquefasciatus , some ISVs increased in WNV-infected mosquitoes (Guadeloupe Culex tymo-like virus). Particularly, the presence of Wenzhou sobemo-like virus 3 (WSLV3) was associated with the absence of infectious WNV in mosquito heads, suggesting that WSLV3 might affect vector competence for WNV. Distinct profiles of bacteriophages were identified in Culex mosquitoes depending on diet, despite the lack of clear changes in the bacteriome. Overall, our data demonstrate a complex three-way interaction among arboviruses, resident microbiota, and the host, which is distinct for different arbovirus-mosquito combinations. A better understanding of these interactions may lead to the identification of microbiota able to suppress the ability of arbovirus transmission to humans, and hence improved arbovirus control measures. IMPORTANCE In this study, we first utilized the single mosquito microbiome analysis, demonstrating a complex three-way interaction among arboviruses, resident microbiota, and the host, which is distinct for different arbovirus-mosquito combinations. Some of the previously described "core virus" increased in the mosquitos receiving viral blood meal, like Guadeloupe mosquito virus and Guadeloupe Culex tymo-like virus, suggesting their potential roles in ZIKV and WNV infection. Notably, Wenzhou sobemo-like virus 3 was associated with the absence of infectious WNV in heads of Culex mosquitoes, which might affect vector competence for WNV. A better understanding of these interactions will lead to the identification of microbiota able to suppress the ability of arbovirus transmission to humans, and hence improved arbovirus control measures.

Published
2022
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14. Successional Stages in Infant Gut Microbiota Maturation.

Author

Beller L, Deboutte W, Falony G, Vieira-Silva S, Tito RY, Valles-Colomer M, Rymenans L, Jansen D, Van Espen L, Papadaki MI, Shi C, Yinda CK, Zeller M, Faust K, Van Ranst M, Raes J, and Matthijnssens J

Subjects
Bacteria classification, Bacteria genetics, Cohort Studies, Feces microbiology, Female, Gastrointestinal Tract microbiology, Humans, Infant, Male, Bacteria isolation & purification, Gastrointestinal Microbiome, Infant, Newborn growth & development
Abstract

Disturbances in the primary colonization of the infant gut can result in lifelong consequences and have been associated with a range of host conditions. Although early-life factors have been shown to affect infant gut microbiota development, our current understanding of human gut colonization in early life remains limited. To gain more insights into the unique dynamics of this rapidly evolving ecosystem, we investigated the microbiota over the first year of life in eight densely sampled infants ( n  = 303 total samples). To evaluate the gut microbiota maturation transition toward an adult configuration, we compared the microbiome composition of the infants to that of the Flemish Gut Flora Project (FGFP) population ( n  = 1,106). We observed the infant gut microbiota to mature through three distinct, conserved stages of ecosystem development. Across these successional gut microbiota maturation stages, the genus predominance was observed to shift from Escherichia over Bifidobacterium to Bacteroides . Both disease and antibiotic treatment were observed to be associated occasionally with gut microbiota maturation stage regression, a transient setback in microbiota maturation dynamics. Although the studied microbiota trajectories evolved to more adult-like constellations, microbiome community typing against the background of the FGFP cohort clustered all infant samples within the (in adults) potentially dysbiotic Bacteroides 2 (Bact2) enterotype. We confirmed the similarities between infant gut microbial colonization and adult dysbiosis. Profound knowledge about the primary gut colonization process in infants might provide crucial insights into how the secondary colonization of a dysbiotic adult gut can be redirected. IMPORTANCE After birth, microbial colonization of the infant intestinal tract is important for health later in life. However, this initial process is highly dynamic and influenced by many factors. Studying this process in detail requires a dense longitudinal sampling effort. In the current study, the bacterial microbiota of >300 stool samples was analyzed from 8 healthy infants, suggesting that the infant gut microbial population matures along a path involving distinct microbial constellations and that the timing of these transitions is infant specific and can temporarily retrace upon external events. We also showed that the infant microbial populations show similarities to suboptimal bacterial populations in the guts of adults. These insights are crucial for a better understanding of the dynamics and characteristics of a "healthy gut microbial population" in both infants and adults and might allow the identification of intervention targets in cases of microbial disturbances or disease.

Published
2021
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15. High Prevalence of Coinfecting Enteropathogens in Suspected Rotavirus Vaccine Breakthrough Cases.

Author

Simsek C, Bloemen M, Jansen D, Beller L, Descheemaeker P, Reynders M, Van Ranst M, and Matthijnssens J

Subjects
Child, Feces, Humans, Prevalence, Real-Time Polymerase Chain Reaction, Rotavirus Vaccines
Abstract

Despite the global use of rotavirus vaccines, vaccine breakthrough cases remain a pediatric health problem. In this study, we investigated suspected rotavirus vaccine breakthrough cases using next-generation sequencing (NGS)-based viral metagenomics ( n  = 102) and a panel of semiquantitative reverse transcription-PCR (RT-qPCR) ( n  = 92) targeting known enteric pathogens. Overall, we identified coinfections in 80% of the cases. Enteropathogens such as adenovirus (32%), enterovirus (15%), diarrheagenic Escherichia coli (1 to 14%), astrovirus (10%), Blastocystis spp. (10%), parechovirus (9%), norovirus (9%), Clostridioides (formerly Clostridium ) difficile (9%), Dientamoeba fragilis (9%), sapovirus (8%), Campylobacter jejuni (4%), and Giardia lamblia (4%) were detected. Except for a few reassortant rotavirus strains, unusual genotypes or genotype combinations were not present. However, in addition to well-known enteric viruses, divergent variants of enteroviruses and nonclassic astroviruses were identified using NGS. We estimated that in 31.5% of the patients, rotavirus was likely not the cause of gastroenteritis, and in 14.1% of the patients, it contributed together with another pathogen(s) to disease. The remaining 54.4% of the patients likely had a true vaccine breakthrough infection. The high prevalence of alternative enteropathogens in the suspected rotavirus vaccine breakthrough cases suggests that gastroenteritis is often the result of a coinfection and that rotavirus vaccine effectiveness might be underestimated in clinical and epidemiological studies.

Published
2021
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16. At Least Seven Distinct Rotavirus Genotype Constellations in Bats with Evidence of Reassortment and Zoonotic Transmissions.

Author

Simsek C, Corman VM, Everling HU, Lukashev AN, Rasche A, Maganga GD, Binger T, Jansen D, Beller L, Deboutte W, Gloza-Rausch F, Seebens-Hoyer A, Yordanov S, Sylverken A, Oppong S, Sarkodie YA, Vallo P, Leroy EM, Bourgarel M, Yinda KC, Van Ranst M, Drosten C, Drexler JF, and Matthijnssens J

Subjects
Animals, COVID-19 transmission, COVID-19 virology, Diarrhea virology, Genetic Variation, Genome, Viral, Genotype, Horses, Humans, Metagenomics, Middle East Respiratory Syndrome Coronavirus isolation & purification, Phylogeny, SARS-CoV-2 isolation & purification, Chiroptera virology, Rotavirus genetics, Rotavirus Infections transmission, Rotavirus Infections virology, Zoonoses transmission, Zoonoses virology
Abstract

Bats host many viruses pathogenic to humans, and increasing evidence suggests that rotavirus A (RVA) also belongs to this list. Rotaviruses cause diarrheal disease in many mammals and birds, and their segmented genomes allow them to reassort and increase their genetic diversity. Eighteen out of 2,142 bat fecal samples (0.8%) collected from Europe, Central America, and Africa were PCR-positive for RVA, and 11 of those were fully characterized using viral metagenomics. Upon contrasting their genomes with publicly available data, at least 7 distinct bat RVA genotype constellations (GCs) were identified, which included evidence of reassortments and 6 novel genotypes. Some of these constellations are spread across the world, whereas others appear to be geographically restricted. Our analyses also suggest that several unusual human and equine RVA strains might be of bat RVA origin, based on their phylogenetic clustering, despite various levels of nucleotide sequence identities between them. Although SA11 is one of the most widely used reference strains for RVA research and forms the backbone of a reverse genetics system, its origin remained enigmatic. Remarkably, the majority of the genotypes of SA11-like strains were shared with Gabonese bat RVAs, suggesting a potential common origin. Overall, our findings suggest an underexplored genetic diversity of RVAs in bats, which is likely only the tip of the iceberg. Increasing contact between humans and bat wildlife will further increase the zoonosis risk, which warrants closer attention to these viruses. IMPORTANCE The increased research on bat coronaviruses after severe acute respiratory syndrome coronavirus (SARS-CoV) and Middle East respiratory syndrome coronavirus (MERS-CoV) allowed the very rapid identification of SARS-CoV-2. This is an excellent example of the importance of knowing viruses harbored by wildlife in general, and bats in particular, for global preparedness against emerging viral pathogens. The current effort to characterize bat rotavirus strains from 3 continents sheds light on the vast genetic diversity of rotaviruses and also hints at a bat origin for several atypical rotaviruses in humans and animals, implying that zoonoses of bat rotaviruses might occur more frequently than currently realized., (Copyright © 2021 Simsek et al.)

Published
2021
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17. Clinical relevance of plasma virome dynamics in liver transplant recipients.

Author

Thijssen M, Tacke F, Beller L, Deboutte W, Yinda KC, Nevens F, Laleman W, Van Ranst M, and Pourkarim MR

Subjects
Adult, Aged, Antiviral Agents pharmacology, Antiviral Agents therapeutic use, Coinfection, Computational Biology methods, Female, Humans, Liver Transplantation methods, Male, Metagenome, Metagenomics methods, Middle Aged, Phylogeny, Viremia diagnosis, Virus Diseases diagnosis, Virus Diseases drug therapy, Liver Transplantation adverse effects, Transplant Recipients, Viremia etiology, Virome, Virus Diseases etiology
Abstract

Background: The role of the microbiome in liver transplantation (LT) outcome has received a growing interest in the past decades. In contrast to bacteria, the role of endogenous viral communities, known as the virome, is poorly described. Here, we applied a viral metagenomic approach to study the dynamic evolution of circulating viruses in the plasma of LT recipients and its effect on the clinical course of patients., Methods: Patients chronically infected with hepatitis B virus (HBV) that received a LT due to endstage liver disease were included in this study. Longitudinal plasma samples were collected pre- and post-LT. Intact viral particles were isolated and sequenced on an Illumina HiSeq 2500 platform. Short read libraries were analysed with an in-house bioinformatics pipeline. Key endpoints were the dynamics of viral families and post-LT complications., Findings: The initiation of immunosuppression induced a bloom of the Anelloviridae that dominated the post-LT plasma virome. A variety of post-LT complication were observed. Nephrotoxicity was reported in 38% of the patients and was associated with a high abundance of anelloviruses. Besides nephrotoxicity, 16 (67%) patients experienced flares of viral or bacterial infections in post-transplant follow-up. These flares were recognized by an increased burden of anelloviruses (p < 0.05). Interestingly, no mortality was observed in patients infected with human pegivirus., Interpretation: These findings suggest a diagnostic potential for the Anelloviridae family in post-LT complications. Furthermore, the impact of human pegivirus infection on post-transplant survival should be further investigated., Funding: This trial was supported by Gilead Sciences grant number BE-2017-000133., (Copyright © 2020 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2020
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18. Cameroonian fruit bats harbor divergent viruses, including rotavirus H, bastroviruses, and picobirnaviruses using an alternative genetic code.

Author

Yinda CK, Ghogomu SM, Conceição-Neto N, Beller L, Deboutte W, Vanhulle E, Maes P, Van Ranst M, and Matthijnssens J

Abstract

Most human emerging infectious diseases originate from wildlife and bats are a major reservoir of viruses, a few of which have been highly pathogenic to humans. In some regions of Cameroon, bats are hunted and eaten as a delicacy. This close proximity between human and bats provides ample opportunity for zoonotic events. To elucidate the viral diversity of Cameroonian fruit bats, we collected and metagenomically screened eighty-seven fecal samples of Eidolon helvum and Epomophorus gambianus fruit bats. The results showed a plethora of known and novel viruses. Phylogenetic analyses of the eleven gene segments of the first complete bat rotavirus H genome, showed clearly separated clusters of human, porcine, and bat rotavirus H strains, not indicating any recent interspecies transmission events. Additionally, we identified and analyzed a bat bastrovirus genome (a novel group of recently described viruses, related to astroviruses and hepatitis E viruses), confirming their recombinant nature, and provide further evidence of additional recombination events among bat bastroviruses. Interestingly, picobirnavirus-like RNA-dependent RNA polymerase gene segments were identified using an alternative mitochondrial genetic code, and further principal component analyses suggested that they may have a similar lifestyle to mitoviruses, a group of virus-like elements known to infect the mitochondria of fungi. Although identified bat coronavirus, parvovirus, and cyclovirus strains belong to established genera, most of the identified partitiviruses and densoviruses constitute putative novel genera in their respective families. Finally, the results of the phage community analyses of these bats indicate a very diverse geographically distinct bat phage population, probably reflecting different diets and gut bacterial ecosystems.

Published
2018
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