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1.
BMC Vet Res ; 20(1): 228, 2024 May 25.
Article in English | MEDLINE | ID: mdl-38796429

ABSTRACT

BACKGROUND: Tick-borne encephalitis (TBE) is a severe human neuroinfection caused by TBE virus (TBEV). TBEV is transmitted by tick bites and by the consumption of unpasteurized dairy products from infected asymptomatic ruminants. In France, several food-borne transmission events have been reported since 2020, raising the question of the level of exposure of domestic ungulates to TBEV. In this study, our objectives were (i) to estimate TBEV seroprevalence and quantify antibodies titres in cattle in the historical endemic area of TBEV in France using the micro virus neutralisation test (MNT) and (ii) to compare the performance of two veterinary cELISA kits with MNT for detecting anti-TBEV antibodies in cattle in various epidemiological contexts. A total of 344 cattle sera from four grid cells of 100 km² in Alsace-Lorraine (endemic region) and 84 from western France, assumed to be TBEV-free, were investigated. RESULTS: In Alsace-Lorraine, cattle were exposed to the virus with an overall estimated seroprevalence of 57.6% (95% CI: 52.1-62.8%, n = 344), varying locally from 29.9% (95% CI: 21.0-40.0%) to 92.1% (95% CI: 84.5-96.8%). Seroprevalence did not increase with age, with one- to three-year-old cattle being as highly exposed as older ones, suggesting a short-life duration of antibodies. The proportion of sera with MNT titres lower than 1:40 per grid cell decreased with increased seroprevalence. Both cELISA kits showed high specificity (> 90%) and low sensitivity (less than 78.1%) compared with MNT. Sensitivity was lower for sera with neutralising antibodies titres below 1:40, suggesting that sensitivity of these tests varied with local virus circulation intensity. CONCLUSIONS: Our results highlight that cattle were highly exposed to TBEV. Screening strategy and serological tests should be carefully chosen according to the purpose of the serological study and with regard to the limitations of each method.


Subject(s)
Antibodies, Viral , Cattle Diseases , Encephalitis Viruses, Tick-Borne , Encephalitis, Tick-Borne , Animals , Cattle , Encephalitis, Tick-Borne/epidemiology , Encephalitis, Tick-Borne/veterinary , Encephalitis, Tick-Borne/virology , Encephalitis Viruses, Tick-Borne/immunology , Encephalitis Viruses, Tick-Borne/isolation & purification , France/epidemiology , Seroepidemiologic Studies , Cattle Diseases/epidemiology , Cattle Diseases/virology , Antibodies, Viral/blood , Female , Male , Neutralization Tests/veterinary , Endemic Diseases/veterinary
2.
J Gen Virol ; 104(12)2023 12.
Article in English | MEDLINE | ID: mdl-38112154

ABSTRACT

Jingchuvirales is an order of negative-sense RNA viruses with genomes of 9.1-15.3 kb that have been associated with arachnids, barnacles, crustaceans, insects, fish and reptiles in Africa, Asia, Australia, Europe, North America and South America. The jingchuviral genome has two to four open reading frames (ORFs) that encode a glycoprotein (GP), a nucleoprotein (NP), a large (L) protein containing an RNA-directed RNA polymerase (RdRP) domain, and/or proteins of unknown function. Viruses in the order are only known from their genome sequences. This is a summary of the International Committee on Taxonomy of Viruses (ICTV) Report on the order Jingchuvirales and on the families Aliusviridae, Chuviridae, Crepuscuviridae, Myriaviridae and Natareviridae, which are available at ictv.global/report/jingchuvirales, ictv.global/report/aliusviridae, ictv.global/report/chuviridae, ictv.global/report/crepuscuviridae, ictv.global/report/myriaviridae and ictv.global/report/natareviridae, respectively.


Subject(s)
Genome, Viral , RNA Viruses , Humans , Animals , RNA Viruses/genetics , Phylogeny , Nucleoproteins/genetics , Negative-Sense RNA Viruses , Virus Replication , Virion
3.
J Gen Virol ; 104(8)2023 08.
Article in English | MEDLINE | ID: mdl-37622664

ABSTRACT

In April 2023, following the annual International Committee on Taxonomy of Viruses (ICTV) ratification vote on newly proposed taxa, the phylum Negarnaviricota was amended and emended. The phylum was expanded by one new family, 14 new genera, and 140 new species. Two genera and 538 species were renamed. One species was moved, and four were abolished. This article presents the updated taxonomy of Negarnaviricota as now accepted by the ICTV.


Subject(s)
Negative-Sense RNA Viruses , RNA Viruses , RNA Viruses/genetics , RNA-Dependent RNA Polymerase/genetics
4.
Vet Res ; 54(1): 66, 2023 Aug 22.
Article in English | MEDLINE | ID: mdl-37608341

ABSTRACT

Cryptosporidium spp. remain a major cause of waterborne diarrhea and illness in developing countries and represent a significant burden to farmers worldwide. Cryptosporidium parvum virus 1 (CSpV1), of the genus Cryspovirus, was first reported to be present in the cytoplasm of C. parvum in 1997. Full-length genome sequences have been obtained from C. parvum from Iowa (Iowa), Kansas (KSU) and China. We aimed at characterizing the genome of CSpV1 from France and used sequence analysis from Cryptosporidium isolates to explore whether CSpV1 genome diversity varies over time, with geographical sampling location, C. parvum genetic diversity, or ruminant host species. A total of 123 fecal samples of cattle, sheep and goats were collected from 17 different French departments (57 diseased animal fecal samples and 66 healthy animal fecal samples). Subtyping analysis of the C. parvum isolates revealed the presence of two zoonotic subtype families IIa and IId. Sequence analysis of CSpV1 revealed that all CSpV1 from France, regardless of the subtype of C. parvum (IIaA15G2R1, IIaA17G2R1 and IIdA18G1R1) are more closely related to CSpV1 from Turkey, and cluster on a distinct branch from CSpV1 collected from C. parvum subtype IIaA15G2R1 from Asia and North America. We also found that samples collected on a given year or successive years in a given location are more likely to host the same subtype of C. parvum and the same CSpV1 strain. Yet, there is no distinct clustering of CSpV1 per French department or ruminants, probably due to trade, and transmission of C. parvum among host species. Our results point towards (i) a close association between CSpV1 movement and C. parvum movement, (ii) recent migrations of C. parvum among distantly located departments and (iii) incidental transmission of C. parvum between ruminants. All together, these results provide insightful information regarding CSpV1 evolution and suggest the virus might be used as an epidemiological tracer for C. parvum. Future studies need to investigate CSpV1's role in C. parvum virulence and on subtype ability to infect different species.


Subject(s)
Cattle Diseases , Cryptosporidiosis , Cryptosporidium parvum , Cryptosporidium , Goat Diseases , Sheep Diseases , Sheep , Animals , Cattle , Goats , Cryptosporidium parvum/genetics , Cryptosporidiosis/epidemiology , France/epidemiology , Cattle Diseases/epidemiology , Goat Diseases/epidemiology , Sheep Diseases/epidemiology
5.
Biol Lett ; 19(6): 20230091, 2023 06.
Article in English | MEDLINE | ID: mdl-37282491

ABSTRACT

For parasites with complex multi-host life cycles, the facultative truncation of the cycle represents an adaptation to challenging conditions for transmission. However, why certain individuals are capable of abbreviating their life cycle while other conspecifics are not remains poorly understood. Here, we test whether conspecific trematodes that either follow the normal three-host life cycle or skip their final host by reproducing precociously (via progenesis) in an intermediate host differ in the composition of their microbiomes. Characterization of bacterial communities based on sequencing of the V4 hypervariable region of the 16S SSU rRNA gene revealed that the same bacterial taxa occur in both normal and progenetic individuals, independent of host identity and temporal variation. However, all bacterial phyla recorded in our study, and two-thirds of bacterial families, differed in abundance between the two morphs, with some achieving higher abundance in the normal morph and others in the progenetic morph. Although the evidence is purely correlative, our results reveal a weak association between microbiome differences and intraspecific plasticity in life cycle pathways. Advances in functional genomics and experimental microbiome manipulation will allow future tests of the significance of these findings.


Subject(s)
Host-Parasite Interactions , Trematoda , Humans , Animals , Life Cycle Stages , Trematoda/genetics , Adaptation, Physiological
6.
Appl Environ Microbiol ; 88(6): e0195421, 2022 03 22.
Article in English | MEDLINE | ID: mdl-35108077

ABSTRACT

Technical advances in metagenomics and metatranscriptomics have dramatically accelerated virus discovery in recent years. "Chuviruses" were first described in 2015 as obscure negative-sense RNA viruses of diverse arthropods. Although "chuviruses" first appeared to be members of the negarnaviricot order Mononegavirales in phylogenetic analyses using RNA-directed RNA polymerase sequences, further characterization revealed unusual gene orders in genomes that are nonsegmented, segmented, and/or possibly circular. Consequently, a separate order, Jingchuvirales, was established to include a monospecific family, Chuviridae. Recently, it has become apparent that jingchuvirals are broadly distributed and are therefore likely of ecological and economic importance. Here, we describe recent and ongoing efforts to create the necessary taxonomic framework to accommodate the expected flood of novel viruses belonging to the order.


Subject(s)
Arthropods , RNA Viruses , Viruses , Animals , Genome, Viral , Metagenomics , Phylogeny , RNA Viruses/genetics , Viruses/genetics
7.
Mol Ecol ; 31(21): 5608-5617, 2022 11.
Article in English | MEDLINE | ID: mdl-36004565

ABSTRACT

Division of labour through the formation of morphologically and functionally distinct castes is a recurring theme in the evolution of animal sociality. The mechanisms driving the differentiation of individuals into distinct castes remain poorly understood, especially for animals forming clonal colonies. We test the association between microbiomes and caste formation within the social trematode Philophthalmus attenuatus, using a metabarcoding approach targeting the bacterial 16S SSU rRNA gene. Clonal colonies of this trematode within snail hosts comprise large reproductive individuals which produce dispersal stages, and small, non-reproducing soldiers which defend the colony against invaders. In colonies extracted directly from field-collected snails, reproductives harboured more diverse bacterial communities than soldiers, and reproductives and soldiers harboured distinct bacterial communities, at all taxonomic levels considered. No single bacterial taxon showed high enough prevalence in either soldiers or reproductives to be singled out as a key driver, indicating that the whole microbial community contributes to these differences. Other colonies were experimentally exposed to antibiotics to alter their bacterial communities, and sampled shortly after treatment and weeks later after allowing for turnover of colony members. At those time points, bacterial communities of the two castes still differed across all antibiotic treatments; however, the caste ratio within colonies changed: after antibiotic disruption and turnover of individuals, new individuals were more likely to become reproductives than in undisturbed control colonies. Our results reveal that each caste has a distinct microbiome; whether the social context affects the microbiota, or whether microbes contribute to modulating the phenotype of individuals, remains to be determined.


Subject(s)
Microbiota , Parasites , Trematoda , Animals , Anti-Bacterial Agents , Microbiota/genetics , Snails/genetics , Snails/parasitology , Trematoda/genetics
8.
Mol Ecol ; 31(5): 1577-1594, 2022 03.
Article in English | MEDLINE | ID: mdl-35000227

ABSTRACT

A growing literature demonstrates the impact of helminths on their host gut microbiome. We investigated whether the stickleback host microbiome depends on ecoevolutionary variables by testing the impact of exposure to the cestode parasite Schistocephalus solidus with respect to infection success, host genotype, parasite genotype, and parasite microbiome composition. We observed constitutive differences in the microbiome of sticklebacks of different origin, and those differences increased when sticklebacks exposed to the parasite resisted infection. In contrast, the microbiome of successfully infected sticklebacks varied with parasite genotype. More specifically, we revealed that the association between microbiome and immune gene expression increased in infected individuals and varied with parasite genotype. In addition, we showed that S. solidus hosts a complex endomicrobiome and that bacterial abundance in the parasite correlates with expression of host immune genes. Within this comprehensive analysis we demonstrated that (i) parasites contribute to modulating the host microbiome through both successful and unsuccessful infection, (ii) when infection is successful, the host microbiome varies with parasite genotype due to genotype-dependent variation in parasite immunomodulation, and (iii) the parasite-associated microbiome is distinct from its host and impacts the host immune response to infection.


Subject(s)
Cestoda , Cestode Infections , Fish Diseases , Microbiota , Parasites , Smegmamorpha , Animals , Cestoda/genetics , Cestode Infections/genetics , Cestode Infections/parasitology , Fish Diseases/genetics , Fish Diseases/parasitology , Genotype , Host-Parasite Interactions/genetics , Microbiota/genetics , Phenotype , Smegmamorpha/genetics , Smegmamorpha/parasitology
9.
Microb Ecol ; 83(3): 724-738, 2022 Apr.
Article in English | MEDLINE | ID: mdl-34136952

ABSTRACT

Microbial communities within metazoans are increasingly linked with development, health and behaviour, possibly functioning as integrated evolutionary units with the animal in which they live. This would require microbial communities to show some consistency both ontogenetically (across life stages) and geographically (among populations). We characterise the bacteriome of the parasitic trematode Philophthalmus attenuatus, which undergoes major life cycle transitions, and test whether its bacteriome remains consistent on developmental and spatial scales. Based on sequencing the prokaryotic 16S SSU rRNA gene, we compared the parasite bacteriome (i) across three life stages (rediae in snails, cercariae exiting snails, adults in birds) in one locality and (ii) among three geographic localities for rediae only. We found that each life stage harbours a bacteriome different from that of its host (except the adult stage) and the external environment. Very few bacterial taxa were shared among life stages, suggesting substantial ontogenetic turnover in bacteriome composition. Rediae from the three different localities also had different bacteriomes, with dissimilarities increasing with geographical distance. However, rediae from different localities nevertheless shared more bacterial taxa than did different life stages from the same locality. Changes in the bacteriome along the parasite's developmental history but some degree of geographical stability within a given life stage point toward non-random, stage-specific acquisition, selection and/or propagation of bacteria.


Subject(s)
Trematoda , Animals , Bacteria/genetics , Birds , Life Cycle Stages , Snails , Trematoda/genetics
10.
Arch Virol ; 167(12): 2857-2906, 2022 Dec.
Article in English | MEDLINE | ID: mdl-36437428

ABSTRACT

In March 2022, following the annual International Committee on Taxonomy of Viruses (ICTV) ratification vote on newly proposed taxa, the phylum Negarnaviricota was amended and emended. The phylum was expanded by two new families (bunyaviral Discoviridae and Tulasviridae), 41 new genera, and 98 new species. Three hundred forty-nine species were renamed and/or moved. The accidentally misspelled names of seven species were corrected. This article presents the updated taxonomy of Negarnaviricota as now accepted by the ICTV.


Subject(s)
Mononegavirales , Viruses , Humans , Mononegavirales/genetics , Phylogeny
11.
Food Microbiol ; 104: 104003, 2022 Jun.
Article in English | MEDLINE | ID: mdl-35287822

ABSTRACT

The transmission of tick-borne encephalitis virus (TBEV) through food is rare, but can occur through the consumption of raw milk products from animals infected by tick bites. In 2020, France faced a TBEV outbreak linked to the consumption of unpasteurized goat cheese. The aim of this study was to develop and characterize a molecular method for the detection of TBEV in raw milk products based on the recent international standard PR ISO/DIS 16140-4. The TBEV recovery rates varied with the inoculation level and settings. The LOD50 and LOD95 of TBEV were 6.40 × 103 genome copies per g or per mL and 2.84 × 104 genome copies per g or per mL, respectively. The percentages of RT-qPCR inhibitions were lower than 75% and the murine norovirus (MNV-1), used as process control, was detected in all samples with a recovery rate higher than 1%, as recommended in ISO 15216. We conclude that the described method is appropriate to detect TBEV in raw milk products for routine diagnosis, and to assess potential health risks.


Subject(s)
Cheese , Encephalitis Viruses, Tick-Borne , Encephalitis, Tick-Borne , Animals , Encephalitis Viruses, Tick-Borne/genetics , Encephalitis, Tick-Borne/diagnosis , Encephalitis, Tick-Borne/epidemiology , Goats , Mice , Milk
12.
J Fish Dis ; 45(5): 707-716, 2022 May.
Article in English | MEDLINE | ID: mdl-35172021

ABSTRACT

Gilthead seabream represents a species of importance in Mediterranean aquaculture. The larval stage is particularly sensitive and frequently impacted in suboptimal environmental or sanitary conditions. In the present study, investigations were carried out in a seabream hatchery following an unusual mortality reaching 70% among 50-day post-hatching. Anorexia, loss of appetite and abnormal swimming behaviour were observed in absence of parasites or pathogenic bacteria. Proliferation of rod-shaped bacteria in the gut lumen was associated with focal degeneration in the intestinal mucosa. Cytopathic effects on an EK-1 cell line after 21 days of culture at 14°C and 20°C in contact with homogenized affected larvae revealed the presence of a viral agent. Molecular characterization by high-throughput sequencing showed a typical picornavirus genome organization with a polyprotein precursor of 2276 amino acids sharing 46.3% identity with that of the Eel Picornavirus-1. A specific real-time PCR confirmed the presence of the viral genome in affected larval homogenate and corresponding cell culture supernatant. We propose the name Potamipivirus daurada for this novel species within the genus Potamipivirus. The etiological role of this virus remains uncertain at this time, and future studies will be necessary to investigate its prevalence in natural and aquaculture-reared populations as well as its ability to cause diseases in gilthead seabream.


Subject(s)
Fish Diseases , Sea Bream , Animals , DNA Viruses/genetics , Larva , Real-Time Polymerase Chain Reaction , Sea Bream/genetics
13.
Proc Biol Sci ; 288(1959): 20211758, 2021 09 29.
Article in English | MEDLINE | ID: mdl-34547906

ABSTRACT

Epidemiological traits of host-parasite associations depend on the effects of the host, the parasite and their interaction. Parasites evolve mechanisms to infect and exploit their hosts, whereas hosts evolve mechanisms to prevent infection and limit detrimental effects. The reasons why and how these traits differ across populations still remain unclear. Using experimental cross-infection of three-spined stickleback Gasterosteus aculeatus and their species-specific cestode parasites Schistocephalus solidus from Alaskan and European populations, we disentangled host, parasite and interaction effects on epidemiological traits at different geographical scales. We hypothesized that host and parasite main effects would dominate both within and across continents, although interaction effects would show geographical variation of natural selection within and across continents. We found that mechanisms preventing infection (qualitative resistance) occurred only in a combination of hosts and parasites from different continents, while mechanisms limiting parasite burden (quantitative resistance) and reducing detrimental effects of infection (tolerance) were host-population specific. We conclude that evolution favours distinct defence mechanisms on different geographical scales and that it is important to distinguish concepts of qualitative resistance, quantitative resistance and tolerance in studies of macroparasite infections.


Subject(s)
Cestoda , Cestode Infections , Fish Diseases , Parasites , Smegmamorpha , Animals , Cestode Infections/veterinary , Host-Parasite Interactions
14.
PLoS Pathog ; 15(3): e1007647, 2019 03.
Article in English | MEDLINE | ID: mdl-30893368

ABSTRACT

Selective pressures between hosts and their parasites can result in reciprocal evolution or adaptation of specific life history traits. Local adaptation of resident hosts and parasites should lead to increase parasite infectivity/virulence (higher compatibility) when infecting hosts from the same location (in sympatry) than from a foreign location (in allopatry). Analysis of geographic variations in compatibility phenotypes is the most common proxy used to infer local adaptation. However, in some cases, allopatric host-parasite systems demonstrate similar or greater compatibility than in sympatry. In such cases, the potential for local adaptation remains unclear. Here, we study the interaction between Schistosoma and its vector snail Biomphalaria in which such discrepancy in local versus foreign compatibility phenotype has been reported. Herein, we aim at bridging this gap of knowledge by comparing life history traits (immune cellular response, host mortality, and parasite growth) and molecular responses in highly compatible sympatric and allopatric Schistosoma/Biomphalaria interactions originating from different geographic localities (Brazil, Venezuela and Burundi). We found that despite displaying similar prevalence phenotypes, sympatric schistosomes triggered a rapid immune suppression (dual-RNAseq analyses) in the snails within 24h post infection, whereas infection by allopatric schistosomes (regardless of the species) was associated with immune cell proliferation and triggered a non-specific generalized immune response after 96h. We observed that, sympatric schistosomes grow more rapidly. Finally, we identify miRNAs differentially expressed by Schistosoma mansoni that target host immune genes and could be responsible for hijacking the host immune response during the sympatric interaction. We show that despite having similar prevalence phenotypes, sympatric and allopatric snail-Schistosoma interactions displayed strong differences in their immunobiological molecular dialogue. Understanding the mechanisms allowing parasites to adapt rapidly and efficiently to new hosts is critical to control disease emergence and risks of Schistosomiasis outbreaks.


Subject(s)
Biomphalaria/genetics , Schistosoma/genetics , Sympatry/physiology , Adaptation, Physiological , Animals , Biological Evolution , Biomphalaria/immunology , Biomphalaria/parasitology , Disease Vectors , Evolution, Molecular , Gene Expression Profiling , Host-Parasite Interactions , Immune System Phenomena , Immunity, Cellular/genetics , Immunity, Cellular/immunology , Prevalence , Schistosoma/parasitology , Sympatry/genetics , Virulence
15.
J Virol ; 93(9)2019 05 01.
Article in English | MEDLINE | ID: mdl-30760574

ABSTRACT

The complete genome sequence of an RNA virus was assembled from RNA sequencing of virus particles purified from threespine stickleback intestine tissue samples. This new virus is most closely related to the Eel picornavirus and can be assigned to the genus Potamipivirus in the family Picornaviridae Its unique genetic properties are enough to establish a new species, dubbed the Threespine Stickleback picornavirus (TSPV). Due to their broad geographic distribution throughout the Northern Hemisphere and parallel adaptation to freshwater, threespine sticklebacks have become a model in evolutionary ecology. Further analysis using diagnostic PCRs revealed that TSPV is highly prevalent in both anadromous and freshwater populations of threespine sticklebacks, infects almost all fish tissues, and is transmitted vertically to offspring obtained from in vitro fertilization in laboratory settings. Finally, TSPV was found in Sequence Reads Archives of transcriptome of Gasterosteus aculeatus, further demonstrating its wide distribution and unsought prevalence in samples. It is thus necessary to test the impact of TSPV on the biology of threespine sticklebacks, as this widespread virus could interfere with the behavioral, physiological, or immunological studies that employ this fish as a model system.IMPORTANCE The threespine stickleback species complex is an important model system in ecological and evolutionary studies because of the large number of isolated divergent populations that are experimentally tractable. For similar reasons, its coevolution with the cestode parasite Schistocephalus solidus, its interaction with gut microbes, and the evolution of its immune system are of growing interest. Herein we describe the discovery of an RNA virus that infects both freshwater and anadromous populations of sticklebacks. We show that the virus is transmitted vertically in laboratory settings and found it in Sequence Reads Archives, suggesting that experiments using sticklebacks were conducted in the presence of the virus. This discovery can serve as a reminder that the presence of viruses in wild-caught animals is possible, even when animals appear healthy. Regarding threespine sticklebacks, the impact of Threespine Stickleback picornavirus (TSPV) on the fish biology should be investigated further to ensure that it does not interfere with experimental results.


Subject(s)
Fish Diseases , Genome, Viral , Perciformes/virology , Picornaviridae , Animals , Fish Diseases/epidemiology , Fish Diseases/genetics , Fish Diseases/transmission , Fish Diseases/virology , Picornaviridae/pathogenicity , Picornaviridae/physiology , Prevalence
16.
Ecotoxicol Environ Saf ; 203: 110934, 2020 Oct 15.
Article in English | MEDLINE | ID: mdl-32888599

ABSTRACT

Pharmaceuticals and personal care products are emerging contaminants that are increasingly detected in the environment worldwide. Certain classes of pharmaceuticals, such as selective serotonin reuptake inhibitors (SSRIs), are a major environmental concern due to their widespread use and the fact that these compounds are designed to have biological effects at low doses. A complication in predicting toxic effects of SSRIs in nontarget organisms is that their mechanism of action is not fully understood. To better understand the potential toxic effects of SSRIs, we employed an ultra-low input RNA-sequencing method to identify potential pathways that are affected by early exposure to two SSRIs (fluoxetine and paroxetine). We exposed wildtype zebrafish (Danio rerio) embryos to 100 µg/L of either fluoxetine or paroxetine for 6 days before extracting and sequencing mRNA from individual larval brains. Differential gene expression analysis identified 1550 genes that were significantly affected by SSRI exposure with a core set of 138 genes altered by both SSRIs. Weighted gene co-expression network analysis identified 7 modules of genes whose expression patterns were significantly correlated with SSRI exposure. Functional enrichment analysis of differentially expressed genes as well as network module genes repeatedly identified various terms associated with mitochondrial and neuronal structures, mitochondrial respiration, and neurodevelopmental processes. The enrichment of these terms indicates that toxic effects of SSRI exposure are likely caused by mitochondrial dysfunction and subsequent neurodevelopmental effects. To our knowledge, this is the first effort to study the tissue-specific transcriptomic effects of SSRIs in developing zebrafish, providing specific, high resolution molecular data regarding the sublethal effects of SSRI exposure.


Subject(s)
Brain/drug effects , Larva/drug effects , Mitochondria/drug effects , Selective Serotonin Reuptake Inhibitors/toxicity , Transcriptome/drug effects , Water Pollutants, Chemical/toxicity , Zebrafish , Animals , Brain/embryology , Computational Biology , Embryo, Nonmammalian/drug effects , Embryonic Development/drug effects , Humans , Larva/genetics , Sequence Analysis, RNA , Zebrafish/genetics
17.
PLoS Pathog ; 12(1): e1005361, 2016 Jan.
Article in English | MEDLINE | ID: mdl-26735307

ABSTRACT

Discoveries made over the past ten years have provided evidence that invertebrate antiparasitic responses may be primed in a sustainable manner, leading to the failure of a secondary encounter with the same pathogen. This phenomenon called "immune priming" or "innate immune memory" was mainly phenomenological. The demonstration of this process remains to be obtained and the underlying mechanisms remain to be discovered and exhaustively tested with rigorous functional and molecular methods, to eliminate all alternative explanations. In order to achieve this ambitious aim, the present study focuses on the Lophotrochozoan snail, Biomphalaria glabrata, in which innate immune memory was recently reported. We provide herein the first evidence that a shift from a cellular immune response (encapsulation) to a humoral immune response (biomphalysin) occurs during the development of innate memory. The molecular characterisation of this process in Biomphalaria/Schistosoma system was undertaken to reconcile mechanisms with phenomena, opening the way to a better comprehension of innate immune memory in invertebrates. This prompted us to revisit the artificial dichotomy between innate and memory immunity in invertebrate systems.


Subject(s)
Biomphalaria/immunology , Host-Parasite Interactions/immunology , Immunity, Cellular/immunology , Immunity, Humoral/immunology , Immunologic Memory/immunology , Animals , Biomphalaria/parasitology , Disease Vectors , Immunity, Innate/immunology , RNA, Small Interfering , Real-Time Polymerase Chain Reaction , Schistosoma mansoni/immunology , Schistosomiasis mansoni/immunology , Schistosomiasis mansoni/veterinary , Transfection
20.
Proc Biol Sci ; 282(1803): 20142773, 2015 Mar 22.
Article in English | MEDLINE | ID: mdl-25673681

ABSTRACT

Many parasites modify their host behaviour to improve their own transmission and survival, but the proximate mechanisms remain poorly understood. An original model consists of the parasitoid Dinocampus coccinellae and its coccinellid host, Coleomegilla maculata; during the behaviour manipulation, the parasitoid is not in contact with its host anymore. We report herein the discovery and characterization of a new RNA virus of the parasitoid (D. coccinellae paralysis virus, DcPV). Using a combination of RT-qPCR and transmission electron microscopy, we demonstrate that DcPV is stored in the oviduct of parasitoid females, replicates in parasitoid larvae and is transmitted to the host during larval development. Next, DcPV replication in the host's nervous tissue induces a severe neuropathy and antiviral immune response that correlate with the paralytic symptoms characterizing the behaviour manipulation. Remarkably, virus clearance correlates with recovery of normal coccinellid behaviour. These results provide evidence that changes in ladybeetle behaviour most likely result from DcPV replication in the cerebral ganglia rather than by manipulation by the parasitoid. This offers stimulating prospects for research on parasitic manipulation by suggesting for the first time that behaviour manipulation could be symbiont-mediated.


Subject(s)
Coleoptera/parasitology , Coleoptera/virology , RNA Viruses/physiology , Wasps/virology , Animals , Coleoptera/physiology , Female , Host-Parasite Interactions , Larva/parasitology , Larva/virology , Molecular Sequence Data , Oviducts/virology , Wasps/physiology
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