Your search keyword '"Host-Parasite Interactions"' showing total 1,891 results

1. Hypermigration of macrophages through the concerted action of GRA effectors on NF-κB/p38 signaling and host chromatin accessibility potentiates Toxoplasma dissemination

Author

Hoeve, Arne L ten, Rodriguez, Matias E, Säflund, Martin, Michel, Valentine, Magimel, Lucas, Ripoll, Albert, Yu, Tianxiong, Hakimi, Mohamed-Ali, Saeij, Jeroen PJ, Ozata, Deniz M, and Barragan, Antonio

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Infectious Diseases, Genetics, Biodefense, Emerging Infectious Diseases, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Infection, Toxoplasma, Animals, Macrophages, Mice, NF-kappa B, Humans, Chromatin, p38 Mitogen-Activated Protein Kinases, Signal Transduction, Protozoan Proteins, Toxoplasmosis, Mice, Inbred C57BL, Host-Parasite Interactions, Chemotaxis, cell signaling pathway, host-pathogen, immune cell migration, intracellular parasitism, mononuclear phagocyte, Microbiology, Biochemistry and cell biology, Medical microbiology

Abstract

Mononuclear phagocytes facilitate the dissemination of the obligate intracellular parasite Toxoplasma gondii. Here, we report how a set of secreted parasite effector proteins from dense granule organelles (GRA) orchestrates dendritic cell-like chemotactic and pro-inflammatory activation of parasitized macrophages. These effects enabled efficient dissemination of the type II T. gondii lineage, a highly prevalent genotype in humans. We identify novel functions for effectors GRA15 and GRA24 in promoting CCR7-mediated macrophage chemotaxis by acting on NF-κB and p38 mitogen-activated protein kinase signaling pathways, respectively, with contributions by GRA16/18 and counter-regulation by effector TEEGR. Furthermore, GRA28 boosted chromatin accessibility and GRA15/24/NF-κB-dependent transcription at the Ccr7 gene locus in primary macrophages. In vivo, adoptively transferred macrophages infected with wild-type T. gondii outcompeted macrophages infected with a GRA15/24 double mutant in migrating to secondary organs in mice. The data show that T. gondii, rather than being passively shuttled, actively promotes its dissemination by inducing a finely regulated pro-migratory state in parasitized human and murine phagocytes via co-operating polymorphic GRA effectors.ImportanceIntracellular pathogens can hijack the cellular functions of infected host cells to their advantage, for example, for intracellular survival and dissemination. However, how microbes orchestrate the hijacking of complex cellular processes, such as host cell migration, remains poorly understood. As such, the common parasite Toxoplasma gondii actively invades the immune cells of humans and other vertebrates and modifies their migratory properties. Here, we show that the concerted action of a number of secreted effector proteins from the parasite, principally GRA15 and GRA24, acts on host cell signaling pathways to activate chemotaxis. Furthermore, the protein effector GRA28 selectively acted on chromatin accessibility in the host cell nucleus to selectively boost host gene expression. The joint activities of GRA effectors culminated in pro-migratory signaling within the infected phagocyte. We provide a molecular framework delineating how T. gondii can orchestrate a complex biological phenotype, such as the migratory activation of phagocytes to boost dissemination.

Published

2024

2. Leishmania major-induced alteration of host cellular and systemic copper homeostasis drives the fate of infection.

Author

Paul, Rupam, Chakrabarty, Adrija, Samanta, Suman, Dey, Swastika, Pandey, Raviranjan, Maji, Saptarshi, Pezacki, Aidan, Chang, Christopher, Datta, Rupak, and Gupta, Arnab

Subjects

Animals, Copper, Leishmania major, Homeostasis, Mice, Leishmaniasis, Cutaneous, Copper-Transporting ATPases, Macrophages, Copper Transporter 1, Female, Host-Pathogen Interactions, Host-Parasite Interactions

Abstract

Copper plays a key role in host-pathogen interaction. We find that during Leishmania major infection, the parasite-harboring macrophage regulates its copper homeostasis pathway in a way to facilitate copper-mediated neutralization of the pathogen. Copper-ATPase ATP7A transports copper to amastigote-harboring phagolysosomes to induce stress on parasites. Leishmania in order to evade the copper stress, utilizes a variety of manipulative measures to lower the host-induced copper stress. It induces deglycosylation and degradation of host-ATP7A and downregulation of copper importer, CTR1 by cysteine oxidation. Additionally, Leishmania induces CTR1 endocytosis that arrests copper uptake. In mouse model of infection, we report an increase in systemic bioavailable copper in infected animals. Heart acts as the major organ for diverting its copper reserves to systemic circulation to fight-off infection by downregulating its CTR1. Our study explores reciprocal mechanism of manipulation of host copper homeostasis pathway by macrophage and Leishmania to gain respective advantages in host-pathogen interaction.

Published

2024

3. Root-knot nematodes exploit the catalase-like effector to manipulate plant reactive oxygen species levels by directly degrading H2O2.

Author

Zhu, Zhaolu, Dai, Dadong, Zheng, Mengzhuo, Shi, Yiling, Siddique, Shahid, Wang, Feifan, Zhang, Shurong, Xie, Chuanshuai, Bo, Dexin, Hu, Boyan, Chen, Yangyang, Peng, Donghai, Sun, Ming, and Zheng, Jinshui

Subjects

Meloidogyne incognita, CATLe, catalase, effector, reactive oxygen species, Animals, Hydrogen Peroxide, Tylenchoidea, Reactive Oxygen Species, Nicotiana, Catalase, Plant Diseases, Plant Roots, Phylogeny, Helminth Proteins, Host-Parasite Interactions

Abstract

Plants produce reactive oxygen species (ROS) upon infection, which typically trigger defence mechanisms and impede pathogen proliferation. Root-knot nematodes (RKNs, Meloidogyne spp.) represent highly detrimental pathogens capable of parasitizing a broad spectrum of crops, resulting in substantial annual agricultural losses. The involvement of ROS in RKN parasitism is well acknowledged. In this study, we identified a novel effector from Meloidogyne incognita, named CATLe, that contains a conserved catalase domain, exhibiting potential functions in regulating host ROS levels. Phylogenetic analysis revealed that CATLe is conserved across RKNs. Temporal and spatial expression assays showed that the CATLe gene was specifically up-regulated at the early infection stages and accumulated in the subventral oesophageal gland cells of M. incognita. Immunolocalization demonstrated that CATLe was secreted into the giant cells of the host plant during M. incognita parasitism. Transient expression of CATLe significantly dampened the flg22-induced ROS production in Nicotiana benthamiana. In planta assays confirmed that M. incognita can exploit CATLe to manipulate host ROS levels by directly degrading H2O2. Additionally, interfering with expression of the CATLe gene through double-stranded RNA soaking and host-induced gene silencing significantly attenuated M. incognita parasitism, highlighting the important role of CATLe. Taken together, our results suggest that RKNs can directly degrade ROS products using a functional catalase, thereby manipulating host ROS levels and facilitating parasitism.

Published

2024

4. Trichomonas vaginalis extracellular vesicles up-regulate and directly transfer adherence factors promoting host cell colonization.

Author

Kochanowsky, Joshua, Mira, Portia, Elikaee, Samira, Muratore, Katherine, Rai, Anand, Riestra, Angelica, and Johnson, Patricia

Subjects

Trichomonas vaginalis, dSTORM, extracellular vesicles, host:pathogen interactions, Extracellular Vesicles, Trichomonas vaginalis, Humans, Host-Parasite Interactions, Up-Regulation, Cell Adhesion, Female, Protozoan Proteins

Abstract

Trichomonas vaginalis, a common sexually transmitted parasite that colonizes the human urogenital tract, secretes extracellular vesicles (TvEVs) that are taken up by human cells and are speculated to be taken up by parasites as well. While the crosstalk between TvEVs and human cells has led to insight into host:parasite interactions, roles for TvEVs in infection have largely been one-sided, with little known about the effect of TvEV uptake by T. vaginalis. Approximately 11% of infections are found to be coinfections of multiple T. vaginalis strains. Clinical isolates often differ in their adherence to and cytolysis of host cells, underscoring the importance of understanding the effects of TvEV uptake within the parasite population. To address this question, our lab tested the ability of a less adherent strain of T. vaginalis, G3, to take up fluorescently labeled TvEVs derived from both itself (G3-EVs) and TvEVs from a more adherent strain of the parasite (B7RC2-EVs). Here, we showed that TvEVs generated from the more adherent strain are internalized more efficiently compared to the less adherent strain. Additionally, preincubation of G3 parasites with B7RC2-EVs increases parasite aggregation and adherence to host cells. Transcriptomics revealed that TvEVs up-regulate expression of predicted parasite membrane proteins and identified an adherence factor, heteropolysaccharide binding protein (HPB2). Finally, using comparative proteomics and superresolution microscopy, we demonstrated direct transfer of an adherence factor, cadherin-like protein, from TvEVs to the recipient parasites surface. This work identifies TvEVs as a mediator of parasite:parasite communication that may impact pathogenesis during mixed infections.

Published

2024

5. Cynipid wasps systematically reprogram host metabolism and restructure cell walls in developing galls

Author

Markel, Kasey, Novak, Vlastimil, Bowen, Benjamin P, Tian, Yang, Chen, Yi-Chun, Sirirungruang, Sasilada, Zhou, Andy, Louie, Katherine B, Northen, Trent R, Eudes, Aymerick, Scheller, Henrik V, and Shih, Patrick M

Subjects

Plant Biology, Biological Sciences, Animals, Cell Wall, Wasps, Plant Tumors, Host-Parasite Interactions, Quercus, Plant Leaves, Lignin, Agricultural and Veterinary Sciences, Plant Biology & Botany, Plant biology

Abstract

Many insects have evolved the ability to manipulate plant growth to generate extraordinary structures called galls, in which insect larva can develop while being sheltered and feeding on the plant. In particular, cynipid (Hymenoptera: Cynipidae) wasps have evolved to form morphologically complex galls and generate an astonishing array of gall shapes, colors, and sizes. However, the biochemical basis underlying these remarkable cellular and developmental transformations remains poorly understood. A key determinant in plant cellular development is cell wall deposition that dictates the physical form and physiological function of newly developing cells, tissues, and organs. However, it is unclear to what degree cell walls are restructured to initiate and support the formation of new gall tissue. Here, we characterize the molecular alterations underlying gall development using a combination of metabolomic, histological, and biochemical techniques to elucidate how valley oak (Quercus lobata) leaf cells are reprogrammed to form galls. Strikingly, gall development involves an exceptionally coordinated spatial deposition of lignin and xylan to form de novo gall vasculature. Our results highlight how cynipid wasps can radically change the metabolite profile and restructure the cell wall to enable the formation of galls, providing insights into the mechanism of gall induction and the extent to which plants can be entirely reprogrammed to form unique structures and organs.

Published

2024

6. Climate heterogeneity, season variation, and sexual dimorphism modulate the association between MHC II diversity and parasite variation in striped hamster.

Author

LIU, Pengbo, LI, Guichang, ZHAO, Ning, LIU, Qiyong, LIU, Xiaobo, SONG, Xiuping, SHI, Xinfei, LUN, Xinchang, ZHANG, Lu, WANG, Jun, and LU, Liang

Subjects

*SEXUAL dimorphism, *POLYMORPHISM (Zoology), *SPATIAL variation, *HAMSTERS, *CLIMATE change, *MAJOR histocompatibility complex

Abstract

Parasite‐mediated selection is widely believed to play a crucial role in maintaining the diversity of the major histocompatibility complex (MHC) genes, which is thought to be maintained through heterozygote advantage, rare‐allele advantage, and fluctuating selection. However, the relationship between parasite pressure and MHC diversity has yielded inconsistent findings. These inconsistencies may arise from the influence of environmental factors and individual variations in traits on host–parasite interactions. To address these issues, our study extensively investigated populations of striped hamsters inhabiting regions characterized by environmental heterogeneity. The primary objective was to examine the universality of parasite‐mediated selection mechanisms. Our observations revealed the presence of multiple parasite infections, accompanied by spatial and temporal variations in parasite communities and infection patterns among individual hamsters. Specifically, the temperature was found to influence all four parasite indices, while the presence of gamasid mites and parasite richness decreased with increasing precipitation. We also noted significant seasonal variation in parasite dynamics. Moreover, a significant sexual dimorphism was observed with males exhibiting a considerably higher parasite burden compared to their female counterparts. Lastly, we identified the maintenance of MHC polymorphism in striped hamsters as being driven by the heterozygote advantage and fluctuating selection mechanisms. This study underscores the significance of ecological processes in comprehending host–parasite systems and highlights the necessity of considering environmental factors and individual traits when elucidating the mechanisms underlying MHC diversity mediated by parasites. [ABSTRACT FROM AUTHOR]

Published

2024

7. Citizen science observations shed light on how anthropogenic food sources influence wildlife disease.

Author

Sauer, Erin L.

Subjects

*ANIMAL ecology, *DIET in disease, *WILDLIFE diseases, *CITIZEN science, *INFECTIOUS disease transmission

Abstract

Research Highlight: Knutie, S., Bahouth, R., Bertone, M., Webb, C., Mehta, M., Nahom, M., Barta, R., Ghai, S., Love, A., Horan, S., Soldo, A., Cochrane, E., Bartholomew, J., Cowan, E., Bjerke, H., Balenger, S., Butler, M., Cornell, A., Kennedy, A., Rolland, V., Schultz, E., Stanback, M., Taff, C., Albery, G. (2024). Understanding spatiotemporal effects of food supplementation on host–parasite interactions using community‐based science. Journal of Animal Ecology. https://doi.org/10.1111/1365‐2656.14155. Wildlife have become increasingly dependent on anthropogenic food supplementation, resulting in altered nutritional intake and inter‐ and intraspecific interactions. Subsequently, supplemental feeding can affect both the immunological function of individuals and transmission dynamics among individuals and species. The magnitude of the effect supplemental feeding has on disease is likely to vary across time and space with the nutritional demands of hosts. However, the broad temporal or spatial scale effects of supplementation are poorly understood. Recently, Knutie et al. (2024) introduced their citizen science program, the Nest Parasite Community Project, a broadscale coordinated effort by scientists and the public to monitor box nesting wild birds and their ectoparasites across the eastern United States. The authors amassed an impressive 4‐year data set with hundreds of nests spanning the entire US breeding range of Eastern bluebirds (Sialia sialis). In the first study to come from the project, the authors demonstrate that the effects of food supplementation on host–parasite interactions vary across time and space and do not consistently influence host–parasite outcomes, highlighting that host–parasite interactions are often context dependent and influenced by many environmental factors (e.g. weather and habitat quality). The authors also found that supplemental feeding increases host fitness, regardless of parasitism. The study provides strong evidence that citizen science projects can help broaden our understanding of how human food sources influence wildlife disease in various environmental contexts. [ABSTRACT FROM AUTHOR]

Published

2024

8. Population genomics of seal lice provides insights into the postglacial history of northern European seals.

Author

Sromek, Ludmila, Johnson, Kevin P., Kunnasranta, Mervi, Ylinen, Eeva, Virrueta Herrera, Stephany, Andrievskaya, Elena, Alexeev, Vyacheslav, Rusinek, Olga, Rosing‐Asvid, Aqqalu, and Nyman, Tommi

Subjects

*RINGED seal, *GRAY seal, *GENETIC variation, *CLIMATE change, *LICE, *SUBSPECIES, *GENE flow

Abstract

Genetic analyses of host‐specific parasites can elucidate the evolutionary histories and biological features of their hosts. Here, we used population‐genomic analyses of ectoparasitic seal lice (Echinophthirius horridus) to shed light on the postglacial history of seals in the Arctic Ocean and the Baltic Sea region. One key question was the enigmatic origin of relict landlocked ringed seal populations in lakes Saimaa and Ladoga in northern Europe. We found that that lice of four postglacially diverged subspecies of the ringed seal (Pusa hispida) and Baltic gray seal (Halichoerus grypus), like their hosts, form genetically differentiated entities. Using coalescent‐based demographic inference, we show that the sequence of divergences of the louse populations is consistent with the geological history of lake formation. In addition, local effective population sizes of the lice are generally proportional to the census sizes of their respective seal host populations. Genome‐based reconstructions of long‐term effective population sizes revealed clear differences among louse populations associated with gray versus ringed seals, with apparent links to Pleistocene and Holocene climatic variation as well as to the isolation histories of ringed seal subspecies. Interestingly, our analyses also revealed ancient gene flow between the lice of Baltic gray and ringed seals, suggesting that the distributions of Baltic seals overlapped to a greater extent in the past than is the case today. Taken together, our results demonstrate how genomic information from specialized parasites with higher mutation and substitution rates than their hosts can potentially illuminate finer scale population genetic patterns than similar data from their hosts. [ABSTRACT FROM AUTHOR]

Published

2024

9. Semen adaptation to microbes in an insect.

Author

Otti, Oliver, Rossel, Natacha, and Reinhardt, Klaus

Subjects

*SEXUALLY transmitted diseases, *FERTILITY, *SEXUAL selection, *INSECT adaptation, *SPERMATOZOA

Abstract

Sperm function is suggested to evolve by sexual selection but is also reduced by microbial damage. Here, we provide experimental evidence that male fertility can adapt to microbes. We found that in vivo, male fertility was reduced by one-fifth if sperm encountered microbes in the females that they had not previously been exposed to, compared to sperm from males that coevolved with these microbes. The female immune system activation reduced male fertility by an additional 13 percentage points. For noncoevolved males, fertility was larger if microbes were injected into females after they had stored away the sperm, indicating microbial protection as a previously unrecognized benefit of female sperm storage. Both medical and evolutionary research on reproductive health and fertility will benefit from considering our findings that the impact of microbes on sperm depends on their joint evolutionary history. Our results may assist in reconciling contradictory results of sexually transmitted disease effects on sperm and bring empirical realism to a recently proposed role of locally adapted reproductive microbiomes to speciation. [ABSTRACT FROM AUTHOR]

Published

2024

10. The latitudinal specialization gradient of bird–malarial parasite networks in South America: lower connectance, but more evenly distributed interactions towards the equator.

Author

Pinheiro, Rafael B. P., Felix, Gabriel M. F., Bell, Jeffrey A., and Fecchio, Alan

Subjects

*STRUCTURAL equation modeling, *BIRD surveys, *BIRD diversity, *MACROECOLOGY, *LATITUDE

Abstract

Whereas the latitudinal diversity gradient has been shown for a diverse set of taxa, a related macroecological pattern, the latitudinal specialization gradient (LSG), remains controversial. A classical expectation is that species should present more specialized interactions towards the equator, however, recent studies have provided conflicting evidence for this hypothesis. Here, we tested the LSG in a set of bird–malarial parasite networks across South America. Our analyses comprise 9763 individual birds surveyed in 52 communities, within eight biomes and spanning a gradient of 4700 km. We measured network‐level specialization through indices that account for increasingly comprehensive information. Binary specialization considers the occurrence/absence of interactions between each host–parasite pair; quantitative specialization is also affected by the frequency of interactions between each host–parasite pair; and phylogenetic specialization takes into account the phylogeny and abundances of host species. We found that, while binary specialization increases towards the equator, quantitative specialization decreases. Thus, despite each parasite lineage infecting a more restricted set from the available host species in low latitudes, infections were more evenly distributed among host species, than in higher latitudes. Additionally, using a structural equation model, we show that both direct and indirect effects contribute to this unexpected relationship. Direct effects are weak, and network‐specialization was mostly explained by host species and parasite lineage richness, evidencing that changes in network specialization along latitude are in a large part explained by the latitudinal diversity gradient for birds and malarial‐parasites. In the light of the accumulated evidence over the past years, reinforced by our findings, we suggest that the classical latitudinal specialization hypothesis should be reevaluated, making room for a theoretical framework able to encompass the conflicting results. [ABSTRACT FROM AUTHOR]

Published

2024

11. From coral reefs into the abyss: the evolution of corallivory in the Coralliophilinae (Neogastropoda, Muricidae).

Author

Nocella, Elisa, Fassio, Giulia, Zuccon, Dario, Puillandre, Nicolas, Modica, Maria Vittoria, and Oliverio, Marco

Subjects

CORAL reefs & islands, MOLECULAR phylogeny, FOOD chains, CNIDARIA, SCLERACTINIA

Abstract

In this study, we delved into the interaction between corallivorous marine gastropods, the muricid Coralliophilinae Chenu, 1859, and their cnidarian food targets. Coralliophilinae is a subfamily of specialised corallivorous caenogastropods that feed by browsing on octocorals or hexacorals. Only sparse information is available on the phylogenetic relationships and the degree of specificity of the trophic relationships within this corallivorous lineage. To address these gaps, we generated the largest molecular dataset to date, comprising two mitochondrial (cox1 and 16S rDNA) and one nuclear gene (ITS2 rDNA) from 586 specimens collected worldwide. The coral hosts of coralliophilines were identified through an integrative approach, combining literature data with new records, employing morphological and/or molecular markers, and incorporating data from DNA barcoding of the snail stomach content. Our comprehensive approach unveiled the existence of numerous cryptic species in Coralliophilinae, while the phylogeny showed that most of the currently accepted genera are not monophyletic. The molecular dating confirmed the origin of the Coralliophilinae in Middle Eocene, with diversification of most lineages during the Miocene. Our results indicate that the subfamily's ancestor evolved in shallow waters in association with Scleractinia. Through the evolutionary history of Coralliophilinae, multiple host shifts to other cnidarian orders were observed, not correlated with changes in the depth range. The results of diversification analyses within the subfamily further suggest that the association with the host has influenced the evolutionary patterns of Coralliophilinae, but not vice versa. [ABSTRACT FROM AUTHOR]

Published

2024

12. Microbial artists: the role of parasite microbiomes in explaining colour polymorphism among amphipods and potential link to host manipulation.

Author

Koellsch, Célia, Poulin, Robert, and Salloum, Priscila M

Subjects

*POLYMORPHISM (Zoology), *DIGITAL images, *MICROBIAL communities, *AMPHIPODA, *TAPEWORMS

Abstract

Parasite infections are increasingly reported to change the microbiome of the parasitized hosts, while parasites bring their own microbes to what can be a multi-dimensional interaction. For instance, a recent hypothesis suggests that the microbial communities harboured by parasites may play a role in the well-documented ability of many parasites to manipulate host phenotype, and explain why the degree to which host phenotype is altered varies among conspecific parasites. Here, we explored whether the microbiomes of both hosts and parasites are associated with variation in host manipulation by parasites. Using colour quantification methods applied to digital images, we investigated colour variation among uninfected Transorchestia serrulata amphipods, as well as amphipods infected with Plagiorhynchus allisonae acanthocephalans and with a dilepidid cestode. We then characterized the bacteriota of amphipod hosts and of their parasites, looking for correlations between host phenotype and the bacterial taxa associated with hosts and parasites. We found large variation in amphipod colours, and weak support for a direct impact of parasites on the colour of their hosts. Conversely, and most interestingly, the parasite's bacteriota was more strongly correlated with colour variation among their amphipod hosts, with potential impact of amphipod-associated bacteria as well. Some bacterial taxa found associated with amphipods and parasites may have the ability to synthesize pigments, and we propose they may interact with colour determination in the amphipods. This study provides correlational support for an association between the parasite's microbiome and the evolution of host manipulation by parasites and host–parasite interactions more generally. [ABSTRACT FROM AUTHOR]

Published

2024

13. Niche partitioning and host specialisation in fish‐parasitising isopods: Trait‐dependent patterns from three ecosystems on the east coast of India.

Author

Mohapatra, Sandeep Kumar, Swain, Anshuman, Ray, Dipanjan, Behera, Rajesh Kumar, Tripathy, Basudev, Seth, Jaya Kishor, and Mohapatra, Anil

Subjects

*LIFE history theory, *FISH parasites, *BIPARTITE graphs, *PELAGIC fishes, *ISOPODA

Abstract

Due to their large size and obligate nature, Cymothoid isopods inflict a high degree of tissue damage to fish. Still, they are understudied at an ecosystem level despite their global presence and ecological role. In this work, we collected fish host‐isopod parasite data, along with their life history and ecological traits, from the northern part of the east coast of India and investigated patterns in host specialisation and preference of isopod parasites using a trait‐based network perspective. We observed that the region of attachment of the parasite (buccal cavity, branchial cavity, and skin) and host fish ecology (schooling behaviour and habitat characteristics) influenced host specialisation and preference. We found that branchial cavity‐attaching parasites preferred schooling, pelagic fishes, whereas buccal cavity‐attaching parasites preferred mostly non‐schooling, demersal fishes. Skin‐attaching parasites were found to be generalists and had no preference based on our examined host traits. [ABSTRACT FROM AUTHOR]

Published

2024

14. Double trouble: host behaviour influences and is influenced by co-infection with parasites.

Author

Gradito, Maryane, Dubois, Frédérique, Noble, Daniel W.A., and Binning, Sandra A.

Subjects

*TAPEWORM infections, *LIFE cycles (Biology), *FRESHWATER fishes, *FISH diseases, *PARASITES

Abstract

Parasitism is increasingly seen as an ecological factor contributing to behavioural variation among individuals. Yet, the causal direction of the relationship between animal personality and parasites remains unclear. We measured behavioural traits (i.e. exploration, activity, boldness) in pumpkinseed sunfish, Lepomis gibbosus , before and after an experimental infection using cages in a lake where sunfish were naturally exposed to trematode and cestode infection for 1 month. Despite our initial assumptions (i.e. that all individuals would have the same risk of infection within a cage), we found that initial behavioural traits strongly influenced infection susceptibility: initially bolder and less active fish acquired a higher density of trematode and cestode parasites during the infection period. Following infection, fish body condition decreased with increasing cestode density, suggesting that infection is costly to hosts. Body condition was positively correlated with distance moved, a measure of activity, regardless of individual infection status. The repeatability of exploration and activity behaviour and the strength of the activity–exploration correlation (i.e. behavioural syndrome) were reduced following parasite exposure. Distance moved and trematode density were negatively correlated, suggesting that this infection decreases host activity levels. Since trematodes have a complex life cycle with piscivorous birds as a final host, a decrease in activity following infection may make infected fish more susceptible to bird predation, benefiting the parasite. Our results highlight the close links between behaviour and parasitism. We propose that two mechanisms may simultaneously operate: initial host behaviour influences their risk of infection, and infection introduces variation in the behavioural traits of infected hosts. • We infected pumpkinseed sunfish using cages in a lake with high parasite prevalence. • We measured exploration, activity and boldness before and after parasite exposure. • Less active and bolder fish were more susceptible to infection within cages. • Fish body condition decreased with high density of a parasite causing liver damage. • Fish activity was reduced with trematode infection causing black spot disease. [ABSTRACT FROM AUTHOR]

Published

2024

15. Gut microbiota and immune profiling of microbiota-humanised versus wildtype mouse models of hepatointestinal schistosomiasis

Author

K. A. Stark, G. Rinaldi, A. Costain, S. Clare, C. Tolley, A. Almeida, C. McCarthy, K. Harcourt, C. Brandt, T. D. Lawley, M. Berriman, A. S. MacDonald, J. E. Forde-Thomas, B. J. Hulme, K. F. Hoffmann, C. Cantacessi, and A. Cortés

Subjects

Host-parasite interactions, Baseline gut microbiota, Schistosoma mansoni, Human-microbiota associated mouse model, Bacterial 16S rRNA gene sequencing, Gut microbial diversity, Veterinary medicine, SF600-1100, Microbiology, QR1-502

Abstract

Abstract Mounting evidence of the occurrence of direct and indirect interactions between the human blood fluke, Schistosoma mansoni, and the gut microbiota of rodent models raises questions on the potential role(s) of the latter in the pathophysiology of hepatointestinal schistosomiasis. However, substantial differences in both the composition and function between the gut microbiota of laboratory rodents and that of humans hinders an in-depth understanding of the significance of such interactions for human schistosomiasis. Taking advantage of the availability of a human microbiota-associated mouse model (HMA), we have previously highlighted differences in infection-associated changes in gut microbiota composition between HMA and wildtype (WT) mice. To further explore the dynamics of schistosome-microbiota relationships in HMA mice, in this study we (i) characterize qualitative and quantitative changes in gut microbiota composition of a distinct line of HMA mice (D2 HMA) infected with S. mansoni prior to and following the onset of parasite egg production; (ii) profile local and systemic immune responses against the parasite in HMA as well as WT mice and (iii) assess levels of faecal inflammatory markers and occult blood as indirect measures of gut tissue damage. We show that patent S. mansoni infection is associated with reduced bacterial alpha diversity in the gut of D2 HMA mice, alongside expansion of hydrogen sulphide-producing bacteria. Similar systemic humoral responses against S. mansoni in WT and D2 HMA mice, as well as levels of faecal lipocalin and markers of alternatively activated macrophages, suggest that these are independent of baseline gut microbiota composition. Qualitative comparative analyses between faecal microbial profiles of S. mansoni-infected WT and distinct lines of HMA mice reveal that, while infection-induced alterations of the gut microbiota composition are highly dependent on the baseline flora, bile acid composition and metabolism may represent key elements of schistosome-microbiota interactions through the gut-liver axis.

Published

2024

16. High prevalence and low intensity of Echinophthirius horridus infection in seals revealed by high effort sampling

Author

Insa Herzog, Ursula Siebert, and Kristina Lehnert

Subjects

Phoca vitulina, Halichoerus grypus, Seal louse, Arthropod reproduction, Vector dynamics, Host-parasite interactions, Medicine, Science

Abstract

Abstract Seal lice (Echinophthirius horridus) are bloodsucking ectoparasites of phocid seals and vectors of pathogens like the heartworm, Acanthocheilonema spirocauda. Grey and harbour seal populations are recovering in German waters and wildlife health surveillance is crucial for wildlife conservation. A new, high effort sampling protocol for seal lice was applied for grey and harbour seals along the German North- and Baltic Sea coast. Freshly dead seals were systematically sampled within a health monitoring of stranded seals over 12 months. Prevalence, intensity and distribution patterns of seal lice were analysed. 58% of harbour seals (n = 71) and 70% of grey seals (n = 10) were infected with seal lice. A majority of harbour seals displayed mild levels of infection, while three were moderately and two were severely infected. The head was the preferred predilection site, indicating that E. horridus prefers body areas with frequent access to atmospheric oxygen. Nits and different developmental stages were recorded in all age classes in grey and harbour seals in all seasons. For the first time, copulating specimens of E. horridus were recorded on a dead harbour seal, highlighting that E. horridus reproduces throughout the year on seals of all age classes in German waters.

Published

2024

17. Ecto- and endoparasites of common reedbuck, Redunca arundinum, at 2 localities in KwaZulu-Natal Province, South Africa: community and network structure

Author

Kerstin Junker, Joop Boomker, Ivan G. Horak, and Boris R. Krasnov

Subjects

helminths, host–parasite interactions, infracommunities, lice, nestedness, ticks, Biochemistry, QD415-436, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Parasite community structure is governed by functional traits of hosts and parasites. Notably, parasite populations and communities respond to host social and spatial behaviour. Many studies demonstrating these effects dealt with small-bodied host species, while the influence of host social patterns on parasite communities in large hosts remains understudied. In an earlier study on nyalas (Tragelaphus angasii), host age was more important than sex in structuring helminth communities and networks, but the influence of both was mediated by local environmental conditions, creating different locality patterns. Common reedbuck (Redunca arundinum) differ from nyalas in spatial and social behaviour. Based on helminth and ectoparasite data from 56 reedbuck examined at 2 localities in KwaZulu-Natal Province, we asked which patterns are similar and which differ between the 2 host species. Similar to nyalas, reedbuck age was more important than sex in structuring communities and networks. However, local environmental conditions exerted the strongest influence on transmission patterns, especially in ectoparasites. Complex interactions between reedbuck traits, parasite traits and local environmental conditions modulated the risk of infection differently at the 2 sites, confirming our earlier findings in nyalas that pooling data from different locations may obscure location-specific parasite community patterns. Similarities between patterns in reedbuck and nyalas, despite their behavioural differences, suggest some common patterns in parasite community ecology that, in turn, are determined mostly by parasite traits and population dynamics.

Published

2024

18. Editorial: Conference research topic: 16th international symposium on schistosomiasis NEW ('th') presented in superscript.

Author

Moraes Mourão, Marina, Lima Caldeira, Roberta, Almeida Pereira, Thiago, and Toscano Fonseca, Cristina

Subjects

PROTEIN arginine methyltransferases, PROTECTION motivation theory, RESOURCE-limited settings, ENDEMIC diseases, MITOGEN-activated protein kinases

Abstract

The 16th International Symposium on Schistosomiasis, held in Brazil, focused on disease control and elimination. Participants from 11 countries discussed various aspects of schistosomiasis, including the development of disease control tools and health education. The symposium featured keynote speeches, poster presentations, panel discussions, and abstract submissions. A Research Topic dedicated to the symposium aimed to disseminate selected studies presented during the event, covering topics such as diagnostic tests, host-parasite interactions, potential drug targets, and vaccine development. These studies contribute to the search for new strategies to combat schistosomiasis. The text also highlights the importance of education and diagnostic development in achieving the World Health Organization's guidelines for controlling and eliminating the disease. [Extracted from the article]

Published

2024

19. Coinfection accelerates transmission to new hosts despite no effects on virulence and parasite growth.

Author

Godinho, Diogo P., Rodrigues, Leonor R., Lefèvre, Sophie, Magalhães, Sara, and Duncan, Alison B.

Subjects

*ADULT children, *TWO-spotted spider mite, *SPIDER mites, *MIXED infections, *ARTHROPODA

Abstract

One of the fundamental aims of ecological, epidemiological and evolutionary studies of host–parasite interactions is to unravel which factors affect parasite virulence. Theory predicts that virulence and transmission are correlated by a trade-off, as too much virulence is expected to hamper transmission owing to excessive host damage. Coinfections may affect each of these traits and/or their correlation. Here, we used inbred lines of the spider mite Tetranychus urticae to test how coinfection with T. evansi impacted virulence–transmission relationships at different conspecific densities. The presence of T. evansi on a shared host did not change the relationship between virulence (leaf damage) and the number of transmitting stages (i.e. adult daughters). The relationship between these traits was hump-shaped across densities, both in single and coinfections, which corresponds to a trade-off. Moreover, transmission to adjacent hosts increased in coinfection, but only at low T. urticae densities. Finally, we tested whether virulence and the number of daughters were correlated with measures of transmission to adjacent hosts, in single and coinfections at different conspecific densities. Traits were mostly independent, meaning that interspecific competitors may increase transmission without affecting virulence. Thus, coinfections may impact epidemiology and parasite trait evolution, but not necessarily the virulence–transmission trade-off. This article is part of the theme issue 'Diversity-dependence of dispersal: interspecific interactions determine spatial dynamics'. [ABSTRACT FROM AUTHOR]

Published

2024

20. Species interactions affect dispersal: a meta-analysis.

Author

Bestion, Elvire, Legrand, Delphine, Baines, Celina B., Bonte, Dries, Coulon, Aurelie, Dahirel, Maxime, Delgado, María, Deshpande, Jhelam N., Duncan, Alison B., Fronhofer, Emanuel A., Gounand, Isabelle, Jacob, Staffan, Kaltz, Oliver, Massol, François, Mathyssen, Erik, Parmentier, Thomas, Saade, Camille, Schtickzelle, Nicolas, Zilio, Giacomo, and Cote, Julien

Subjects

*BIOTIC communities, *PROTISTA, *SPECIES, *EMIGRATION & immigration, *ARTHROPODA

Abstract

Context-dependent dispersal allows organisms to seek and settle in habitats improving their fitness. Despite the importance of species interactions in determining fitness, a quantitative synthesis of how they affect dispersal is lacking. We present a meta-analysis asking (i) whether the interaction experienced and/or perceived by a focal species (detrimental interaction with predators, competitors, parasites or beneficial interaction with resources, hosts, mutualists) affects its dispersal; and (ii) how the species' ecological and biological background affects the direction and strength of this interaction-dependent dispersal. After a systematic search focusing on actively dispersing species, we extracted 397 effect sizes from 118 empirical studies encompassing 221 species pairs; arthropods were best represented, followed by vertebrates, protists and others. Detrimental species interactions increased the focal species' dispersal (adjusted effect: 0.33 [0.06, 0.60]), while beneficial interactions decreased it (−0.55 [−0.92, −0.17]). The effect depended on the dispersal phase, with detrimental interactors having opposite impacts on emigration and transience. Interaction-dependent dispersal was negatively related to species' interaction strength, and depended on the global community composition, with cues of presence having stronger effects than the presence of the interactor and the ecological complexity of the community. Our work demonstrates the importance of interspecific interactions on dispersal plasticity, with consequences for metacommunity dynamics. This article is part of the theme issue 'Diversity-dependence of dispersal: interspecific interactions determine spatial dynamics'. [ABSTRACT FROM AUTHOR]

Published

2024

21. Analysis of bamboo fibres and their associated dye on a freshwater fish host-parasite system.

Author

MacAulay, Scott, Masud, Numair, and Cable, Jo

Subjects

ORGANIC textiles, ENVIRONMENTAL impact analysis, GUPPIES, FRESHWATER fishes, NATURAL immunity, PLASTIC marine debris

Abstract

With the growth of the fashion and textile industries into the twenty-first century, associated pollution has become pervasive. Fibre-based microplastics are the most common types of plastics recovered from aquatic ecosystems encouraging the move towards organic fibre usage. Often marketed as biodegradable and 'environmentally friendly', organic textile fibres are seen as less harmful, but their impacts are understudied. Here, we assess the health effects of reconstituted bamboo-viscose fibres, processed bamboo-elastane fibres (both at 700 fibres/L) and their associated dye (Reactive Black-5, at 1 mg/L) on fish, with an emphasis on disease resistance utilising an established host-parasite system: the freshwater guppy host (Poecilia reticulata) and Gyrodactylus turnbulli (monogenean ectoparasite). Following 3 weeks exposure to the bamboo fibres and associated dye, half the experimental fish were infected with G. turnbulli, after which individual parasite trajectories were monitored for a further 17 days. Overall, exposures to reconstituted bamboo-viscose fibres, processed bamboo-elastane fibres or dye were not associated with any change in host mortality nor any significant changes in parasite infection burdens. When analysing the routine metabolic rate (RMR) of fish, uninfected fish had, on average, significantly impacted RMR when exposed to processed bamboo-elastane (increased RMR) and reconstituted bamboo-viscose (decreased RMR). Hosts exposed to reconstituted bamboo-viscose and the associated dye treatment showed significant changes in RMR pre- and post-infection. This study bolsters the growing and needed assessment of the potential environmental impacts of alternative non-plastic fibres; nevertheless, more research is needed in this field to prevent potential greenwashing. [ABSTRACT FROM AUTHOR]

Published

2024

22. Parasites and the ecology of fear: Nonconsumptive effects of ectoparasites on larvae reduce growth in simulated Drosophila populations.

Author

Horn, Collin J., Luong, Lien T., and Visscher, Darcy R.

Subjects

*DROSOPHILA, *COMPUTER simulation, *ECTOPARASITES, *PARASITES, *LARVAE

Abstract

Predators negatively affect prey outside of direct attack, and these nonconsumptive effects (NCEs) may cause over half the impacts of predators on prey populations. This "ecology of fear" framework has been extended to host–parasite interactions. The NCEs of parasites are thought to be small relative to those of predators. However, recent research shows ectoparasites exert NCEs on multiple life stages of Drosophila. In this study, we apply recent data to a matrix‐based model of fly populations experiencing infection/consumption and NCEs from an ectoparasitic mite. We found the NCEs of parasites on larvae, which are not actively parasitized, decreased the size of simulated host populations. By contrast, the NCEs on adult flies increased population size through compensatory egg production. The negative NCEs on larvae outweighed the positive effects on adults to reduce population size. This study suggests that parasitic NCEs can suppress host populations independent of infection. [ABSTRACT FROM AUTHOR]

Published

2024

23. Oesophagostomum stephanostomum causing parasitic granulomas in wild chimpanzees (Pan troglodytes verus) of Taï National Park, Côte d'Ivoire.

Author

Jaffe, Jenny E., Metzger, Sonja, Mätz‐Rensing, Kerstin, Ribas, Alexis, Wittig, Roman M., and Leendertz, Fabian H.

Subjects

*CHIMPANZEES, *HELMINTHS, *DNA sequencing, *NATIONAL parks & reserves, *PRIMATES

Abstract

Nematodes belonging to the genus Oesophagostomum frequently infect wild chimpanzees (Pan troglodytes) across widely separated field sites. Nodular lesions (granulomas) containing Oesophagostomum are commonly seen in the abdomen of infected chimpanzees post‐mortem. At Taï National Park, Côte d'Ivoire, previous studies have identified larvae of a variety of Oesophagostomum spp. in wild chimpanzee stool, based on sequencing of larval DNA, and nodular lesions associated with Oesophagostomum, identified morphologically to the genus level but not sequenced. Here we present three recent cases of parasitic granulomas found post‐mortem in chimpanzees at Taï. We complement descriptions of gross pathology, histopathology and parasitology with PCR and sequencing of DNA isolated from the parasitic nodules and from adult worms found inside the nodules. In all three cases, we identify Oesophagostomum stephanostomum as the causative agent. The sequences from this study were identical to the only other published sequences from nodules in nonhuman primates—those from the wild chimpanzees of Gombe, Tanzania. Research highlights: Chimpanzees in Taï National Park (Côte d'Ivoire) commonly have a small number of abdominal parasitic nodules, observed post‐mortem.A variety of Oesophagostum spp. has been found in the stool of Taï chimps.The nodules are caused by Oesophagostomum stephanostomum, and the ITS‐2 sequence is identical to the only other sequence obtained from chimp nodules (in Gombe, Tanzania). [ABSTRACT FROM AUTHOR]

Published

2024

24. The macrophage polarization in Entamoeba histolytica infection modulation by the C fragment of the intermediate subunit of Gal/GalNAc-inhibitable lectin.

Author

Dai Dong, Yuhan Zhang, Wenjie Li, Hongze Zhang, Xunjia Cheng, and Meng Feng

Subjects

TRANSCRIPTION factors, IMMUNOREGULATION, ENTAMOEBA histolytica, IMMUNE system, AMEBIASIS

Abstract

The protozoan parasite Entamoeba histolytica is the causative agent of amebiasis, with clinical outcomes ranging from asymptomatic infections to severe invasive diseases. The innate immune system, particularly macrophages, is of paramount importance in resisting the invasion of host tissues and organs by the trophozoites of E. histolytica. Parasite-derived pathogenic factors, such as lectins, play a pivotal role in the promotion of macrophage polarization phenotypes that have undergone alteration. Nevertheless, the precise mechanisms by which E. histolytica modulates immune polarization remain largely unknown. The current study focused on the immunomodulatory effects of the Igl-C fragment of E. histolytica Gal/GalNAc lectin on macrophage polarization. These results demonstrated that Igl-C could induce the secretion of IL-1b, IL-6, and other cytokines, activating a mixed M1/M2 polarization state. M1 polarization of macrophages occurs in the early stages and gradually transitions to M2 polarization in the later stages, which may contribute to the persistence of the infection. Igl-C induces the macrophage M1 phenotype and causes the release of immune effector molecules, including iNOS and cytokines, by activating the NF-kB p65 and JAK-STAT1 transcription factor signaling pathways. Furthermore, Igl-C supports the macrophage M2 phenotype via JAK-STAT3 and IL-4-STAT6 pathways, which activate arginase expression in later stages, contributing to the tissue regeneration and persistence of the parasite. The involvement of distinct signaling pathways in mediating this response highlights the complex interplay between the parasite and the host immune system. These findings enhance our understanding of the Igl-Cmediated pathogenic mechanisms during E. histolytica infection. [ABSTRACT FROM AUTHOR]

Published

2024

25. Understanding spatiotemporal effects of food supplementation on host–parasite interactions using community‐based science.

Author

Knutie, Sarah A., Bahouth, Rachel, Bertone, Matthew A., Webb, Caroline, Mehta, Mahima, Nahom, Mia, Barta, Rachael M., Ghai, Sharan, Love, Ashley C., Horan, Sydney, Soldo, Alexandria, Cochrane, Elizabeth, Bartholomew, Jenna, Cowan, Emily, Bjerke, Heather, Balenger, Susan L., Butler, Michael W., Cornell, Allison, Kennedy, Ashley C., and Rolland, Virginie

Subjects

*DIETARY supplements, *BIRD nests, *ANIMAL health, *SCIENCE projects, *BIRDHOUSES, *BIRD food, *ENRICHED foods

Abstract

Supplemental feeding can increase the overall health of animals but also can have variable effects on how animals defend themselves against parasites. However, the spatiotemporal effects of food supplementation on host–parasite interactions remain poorly understood, likely because large‐scale, coordinated efforts to investigate them are difficult. Here, we introduce the Nest Parasite Community Science Project, which is a community‐based science project that coordinates studies with bird nest box ‘stewards’ from the public and scientific community. This project was established to understand broad ecological patterns between hosts and their parasites. The goal of this study was to determine the effect of food supplementation on eastern bluebirds (Sialia sialis) and their nest parasite community across the geographic range of the bluebirds from 2018 to 2021. We received 674 nests from 69 stewards in 26 states in the eastern United States. Nest box stewards reported whether or not they provided mealworms or suet near nesting bluebirds, then they followed the nesting success of the birds (number of eggs laid and hatched, proportion that hatched, number and proportion of nestlings that successfully fledged). We then identified and quantified parasites in the nests. Overall, we found that food supplementation increased fledging success. The most common nest parasite taxon was the parasitic blow fly (Protocalliphora sialia), but a few nests contained fleas (Ceratophyllus idius, C. gallinae and Orchopeas leucopus) and mites (Dermanyssus spp. and Ornithonyssus spp.). Blow flies were primarily found at northern latitudes, where food supplementation affected blow fly prevalence. However, the direction of this effect varied substantially in direction and magnitude across years. More stewards fed bluebirds at southern latitudes than at northern latitudes, which contradicts the findings of other community‐based science projects. Overall, food supplementation of birds was associated with increased host fitness but did not appear to play a consistent role in defence against these parasites across all years. Our study demonstrates the importance of coordinated studies across years and locations to understand the effects of environmental heterogeneity, including human‐based food supplementation, on host–parasite dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

26. Enhanced Genomic and Transcriptomic Resources for Trichinella pseudospiralis and T. spiralis to Underpin the Discovery of Molecular Differences between Stages and Species.

Author

Korhonen, Pasi K., La Rosa, Giuseppe, Sumanam, Sunita B., Gomez Morales, Maria Angeles, Ludovisi, Alessandra, Pozio, Edoardo, Tonanzi, Daniele, Chang, Bill C. H., Young, Neil D., and Gasser, Robin B.

Subjects

*TRICHINELLA, *TRANSCRIPTOMES, *SPECIES, *NUCLEOTIDE sequence, *GENOME size, *TRYPANOSOMA cruzi

Abstract

Nematodes of the genus Trichinella are important pathogens of humans and animals. This study aimed to enhance the genomic and transcriptomic resources for T. pseudospiralis (non-encapsulated phenotype) and T. spiralis (encapsulated phenotype) and to explore transcriptional profiles. First, we improved the assemblies of the genomes of T. pseudospiralis (code ISS13) and T. spiralis (code ISS534), achieving genome sizes of 56.6 Mb (320 scaffolds, and an N50 of 1.02 Mb) and 63.5 Mb (568 scaffolds, and an N50 value of 0.44 Mb), respectively. Then, for each species, we produced RNA sequence data for three key developmental stages (first-stage muscle larvae [L1s], adults, and newborn larvae [NBLs]; three replicates for each stage), analysed differential transcription between stages, and explored enriched pathways and processes between species. Stage-specific upregulation was linked to cellular processes, metabolism, and host–parasite interactions, and pathway enrichment analysis showed distinctive biological processes and cellular localisations between species. Indeed, the secreted molecules calmodulin, calreticulin, and calsyntenin—with possible roles in modulating host immune responses and facilitating parasite survival—were unique to T. pseudospiralis and not detected in T. spiralis. These insights into the molecular mechanisms of Trichinella–host interactions might offer possible avenues for developing new interventions against trichinellosis. [ABSTRACT FROM AUTHOR]

Published

2024

27. Gut microbiota and immune profiling of microbiota-humanised versus wildtype mouse models of hepatointestinal schistosomiasis.

Author

Stark, K. A., Rinaldi, G., Costain, A., Clare, S., Tolley, C., Almeida, A., McCarthy, C., Harcourt, K., Brandt, C., Lawley, T. D., Berriman, M., MacDonald, A. S., Forde-Thomas, J. E., Hulme, B. J., Hoffmann, K. F., Cantacessi, C., and Cortés, A.

Subjects

LABORATORY mice, SCHISTOSOMIASIS, ANIMAL disease models, SCHISTOSOMA mansoni, LABORATORY rodents, GUT microbiome

Abstract

Mounting evidence of the occurrence of direct and indirect interactions between the human blood fluke, Schistosoma mansoni, and the gut microbiota of rodent models raises questions on the potential role(s) of the latter in the pathophysiology of hepatointestinal schistosomiasis. However, substantial differences in both the composition and function between the gut microbiota of laboratory rodents and that of humans hinders an in-depth understanding of the significance of such interactions for human schistosomiasis. Taking advantage of the availability of a human microbiota-associated mouse model (HMA), we have previously highlighted differences in infection-associated changes in gut microbiota composition between HMA and wildtype (WT) mice. To further explore the dynamics of schistosome-microbiota relationships in HMA mice, in this study we (i) characterize qualitative and quantitative changes in gut microbiota composition of a distinct line of HMA mice (D2 HMA) infected with S. mansoni prior to and following the onset of parasite egg production; (ii) profile local and systemic immune responses against the parasite in HMA as well as WT mice and (iii) assess levels of faecal inflammatory markers and occult blood as indirect measures of gut tissue damage. We show that patent S. mansoni infection is associated with reduced bacterial alpha diversity in the gut of D2 HMA mice, alongside expansion of hydrogen sulphide-producing bacteria. Similar systemic humoral responses against S. mansoni in WT and D2 HMA mice, as well as levels of faecal lipocalin and markers of alternatively activated macrophages, suggest that these are independent of baseline gut microbiota composition. Qualitative comparative analyses between faecal microbial profiles of S. mansoni-infected WT and distinct lines of HMA mice reveal that, while infection-induced alterations of the gut microbiota composition are highly dependent on the baseline flora, bile acid composition and metabolism may represent key elements of schistosome-microbiota interactions through the gut-liver axis. [ABSTRACT FROM AUTHOR]

Published

2024

28. Pleiotropy alleviates the fitness costs associated with resource allocation trade-offs in immune signalling networks.

Author

Martin, Reese A. and Tate, Ann T.

Subjects

*GENETIC pleiotropy, *LIFE history theory, *CELLULAR signal transduction, *RESOURCE allocation, *COEVOLUTION

Abstract

Many genes and signalling pathways within plant and animal taxa drive the expression of multiple organismal traits. This form of genetic pleiotropy instigates trade-offs among life-history traits if a mutation in the pleiotropic gene improves the fitness contribution of one trait at the expense of another. Whether or not pleiotropy gives rise to conflict among traits, however, likely depends on the resource costs and timing of trait deployment during organismal development. To investigate factors that could influence the evolutionary maintenance of pleiotropy in gene networks, we developed an agent-based model of co-evolution between parasites and hosts. Hosts comprise signalling networks that must faithfully complete a developmental programme while also defending against parasites, and trait signalling networks could be independent or share a pleiotropic component as they evolved to improve host fitness. We found that hosts with independent developmental and immune networks were significantly more fit than hosts with pleiotropic networks when traits were deployed asynchronously during development. When host genotypes directly competed against each other, however, pleiotropic hosts were victorious regardless of trait synchrony because the pleiotropic networks were more robust to parasite manipulation, potentially explaining the abundance of pleiotropy in immune systems despite its contribution to life history trade-offs. [ABSTRACT FROM AUTHOR]

Published

2024

29. Sympatry in a nightingale contact zone has no effect on host-specific blood parasite prevalence and lineage diversity.

Author

Jones, William, Reifová, Radka, Reif, Jiří, Synek, Petr, Šíma, Michal, and Munclinger, Pavel

Subjects

*BLOOD parasites, *SYMPATRIC speciation, *NIGHTINGALE, *BIOTIC communities, *VICARIANCE, *HOST-parasite relationships

Abstract

[Display omitted] • Host contact zone dynamics can be influenced by parasites. • Luscinia nightingales have significantly different haemosporidian prevalence. • Differential prevalence did not change in sympatry versus allopatry. • Community structure was significantly different between hosts, even in sympatry. • Parasites are unlikely to drive contact zone dynamics in nightingales. Parasites are a key driving force behind many ecological and evolutionary processes. Prevalence and diversity of parasites, as well as their effects on hosts, are not uniform across host species. As such, the potential parasite spillover between species can significantly influence outcomes of interspecific interactions. We screened two species of Luscinia nightingales for haemosporidian blood parasites (Plasmodium, Leucocytozoon and Haemoproteus) along an approximately 3000 km transect in Europe, incorporating areas of host distant allopatry, close allopatry and sympatry. We found significant differences in infection rates between the two host species, with common nightingales having much lower parasite prevalence than thrush nightingales (36.7% versus 83.8%). This disparity was mostly driven by Haemoproteus prevalence, which was significantly higher in thrush nightingales while common nightingales had a small, but significantly higher, Plasmodium prevalence. Furthermore, we found no effect of proximity to the contact zone on infection rate in either host species. Despite having lower infection prevalence, common nightingales were infected with a significantly higher diversity of parasite lineages than thrush nightingales, and lineage assemblages differed considerably between the two species, even in sympatry. This pattern was mostly driven by the large diversity of comparatively rare lineages, while the most abundant lineages were shared between the two host species. This suggests that, despite the close evolutionary relationships between the two nightingales, there are significant differences in parasite prevalence and diversity, regardless of the distance from the contact zone. This suggests that spillover of haemosporidian blood parasites is unlikely to contribute towards interspecific interactions in this system. [ABSTRACT FROM AUTHOR]

Published

2024

30. Do cuckoo calls affects red-backed shrike settlement pattern? An experimental approach.

Author

Tryjanowski, P., Golawski, A., Jankowiak, Ł., Osiejuk, T. S., Kwieciński, Z., Møller, A. P., Grzywaczewski, G., and Jerzak, L.

Subjects

*CUCKOOS, *LAND settlement patterns, *BROOD parasitism, *BIRD breeding, *BROOD parasites, *TIME pressure, *ANIMAL clutches, *BIRD eggs

Abstract

Birds select breeding territories by assessing territory quality and considering predation pressure. However, in many small passerines, brood parasitism may also play an important role in territory occupancy. Settlement decisions are made under time pressure, especially for late migrants. An example of late migrants is the red-backed shrike Lanius collurio, a species wintering in sub-tropical Africa, which serves as a host for the common cuckoo Cuculus canorus and arrives in territories a few days later than their brood parasite. We expected that arriving red-backed shrikes avoided territories with common cuckoo presence. Then, we tested how experimentally provided artificial playback calls of the common cuckoo and woodpigeon (treated as control) affected the probability of red-backed shrike settlement. In the breeding season 2021, we observed 279 red-backed shrike territories to assess the effect of playback of common cuckoo calls on their host presence. Moreover, we adopt information on shrike territories collected in previous years to establish territory quality, measured by occupancy pattern over years. Each of these places was also checked for the presence of corvids, which are predators of shrike nests. We did not find difference with lower preference of shrikes towards cuckoo calls and to pigeon calls Columba columbus, what suggest the human presence and manipulation in the territories during experiments with recorders should be incorporated as an important factor to understanding shrikes' settlement behaviour. What is interesting we found no negative effect of corvids (jay Garrulus glandarius) in control territories. However, shrike territories where cuckoo calls were emitted and where the presence of corvids was found were less likely to be inhabited by shrikes. Therefore, territory quality, human presence enhanced by nest predators, is an important factor affecting host–parasite interactions. [ABSTRACT FROM AUTHOR]

Published

2024

31. Two new species of parasitic demodecid mites in the European polecat Mustela putorius and their co-infestation with Miridex putorii (Acariformes: Demodecidae).

Author

Izdebska, J. N., Rolbiecki, L., and Rehbein, S.

Subjects

*ACARIFORMES, *SPECIES, *CATS, *DEMODEX, *MITES, *ANIMAL species, *DOGS

Abstract

The biodiversity of parasitic mites of the Demodecidae, infesting mammalian carnivorans, is poorly understood. To date, 18 host-specific species have been described, including four each from domestic dogs and cats, and only 10 from wild carnivores, known from single or duplicate reports. No data is available on the level of infestation of wild populations, or the co-occurrence of different demodecids in the same host, as only single species have been identified in individual hosts. A convenient model for such studies turned out to be the European polecat Mustela putorius, in which a new genus and species, Miridex putorii, was recently described in the vibrissae region of the skin of the head. Our study reveals that M. putorii co-occur with other species: Demodex putorii sp. nov. (associated with the hairless skin of the head) and Demodex foetorii sp. nov. (associated with hairy skin). Thus, the present study provides descriptions of species new to science. It also provides the first analysis of the occurrence of Demodecidae in wild mammalian carnivorans at the species and individual animal level based on the co-occurrence of three demodecid mite species in the skin of the head in M. putorius. Demodecid mites were found in 75.7% of 37 polecats; M. putorii showed the highest prevalence (56.8%), and D. putorii showed the highest abundance in the skin (mean 10.8 mites in 9 cm2). The three species co-occurred in 5.4% of the polecats, and two species in 27.0%. Despite the very high abundances, infestation was not associated with gross skin pathology (a feature of stable parasite–host systems formed by long-term co-evolution). The co-occurrence of several species and the separation of microhabitats are also typical of Demodecidae of other mammalian groups and illustrate the optimal use of the host body as a habitat and food source with limited impact. urn:lsid:zoobank.org:act:4D12FF6B-5A9E-4346-A496-52AC8448E7FE urn:lsid:zoobank.org:act:07C533F5-9392-4FD3-BF9A-E1058C0FC1D6 [ABSTRACT FROM AUTHOR]

Published

2024

32. Littorina snails and Microphallus trematodes: Diverse consequences of the trematode-induced metabolic shifts.

Author

Repkin, Egor A., Gafarova, Elizaveta R., Varfolomeeva, Marina A., Kurjachii, Dmitrii S., Polev, Dmitrii E., Shavarda, Alexei L., Maslakov, Georgiy P., Mullakhmetov, Roman I., Zubova, Ekaterina V., Bariev, Timur B., Granovitch, Andrei I., and Maltseva, Arina L.

Subjects

*TREMATODA, *SNAILS, *NITROGEN cycle, *HOST-parasite relationships, *INTERTIDAL zonation, *NEUROMUSCULAR transmission, *UREA, *CONOTOXINS

Abstract

The intricate relationships between parasites and hosts encompass a wide range of levels, from molecular interactions to population dynamics. Parasites influence not only the physiological processes in the host organism, but also the entire ecosystem, affecting mortality of individuals, the number of offspring through parasitic castration, and matter and energy cycles. Understanding the molecular mechanisms that govern host-parasite relationships and their impact on host physiology and environment remains challenging. In this study, we analyzed how infection with Microphallus trematodes affects the metabolome of two Littorina snail species inhabiting different intertidal zone shore levels. We applied non-targeted GC–MS-based metabolomics to analyze biochemical shifts induced by trematode infection in a host organism. We have identified changes in energy, amino acid, sugar, and lipid metabolism. In particular, we observed intensified amino acid catabolism and nitrogenous catabolites (glutamine, urea) production. These changes primarily correlated with infection and interspecies differences of the hosts rather than shore level. The changes detected in the host metabolism indicate that other aspects of life may have been affected, both within the host organism and at a supra-organismal level. Therefore, we explored changes in microbiota composition, deviations in the host molluscs behavior, and acetylcholinesterase activity (ACE, an enzyme involved in neuromuscular transmission) in relation to infection. Infected snails displayed changes in their microbiome composition. Decreased ACE activity in snails was associated with reduced mobility, but whether it is associated with trematode infection remains unclear. The authors suggest a connection between the identified biochemical changes and the deformation of the shell of molluscs, changes in their behavior, and the associated microbiome. The role of parasitic systems formed by microphallid trematodes and Littorina snails in the nitrogen cycle at the ecosystem level is also assumed. [ABSTRACT FROM AUTHOR]

Published

2024

33. The Nuances of Plant Disease Severity Estimation Using Quantitative Ordinal Scales-Lessons Learned over Four Decades.

Author

Bock, Clive H., Del Ponte, Emerson M., and Kuo-Szu Chiang

Subjects

*WEBER-Fechner law, *PLANT diseases, *VISUAL perception, *PEST control, *ERROR rates

Abstract

We revisit the foundations of the Horsfall-Barratt (HB) scale, a widely cited and applied plant disease visual assessment tool introduced in 1945, a full 37 years prior to T. T. Hebert's 1982 critique that raised concerns regarding the scale's rationale, particularly its reliance on the Weber-Fechner law and visual perception assumptions. Although use of the HB scale and similar ordinal scales persists, comprehensive studies have revealed that direct visual estimation using percentage scales often proves more accurate and reliable. Challenges remain, such as biases due to estimator subjectivity and the potential for misclassification. The logarithmic assumptions of the HB scale have been debunked, and the importance of choosing appropriate interval sizes and numbers of classes in developing ordinal scales is emphasized. Analyzing ordinal scale data appropriately is crucial, and recent advances offer promising methods that reduce type II error rates. The closely related disease severity index is noted to have its shortcomings and potential for misuse. The letter underscores the need for continuous refinement and critical evaluation of disease assessment methodologies. [ABSTRACT FROM AUTHOR]

Published

2024

34. Host-parasite coevolution and the stability of genetic kin recognition.

Author

Grafen, Alan, West, Stuart, and Scott, Thomas

Subjects

Hamilton’s Rule, evolution of altruism, genetic kin recognition, host–parasite coevolution, kin discrimination, Animals, Parasites, Selection, Genetic, Adaptation, Physiological, Virulence, Host-Parasite Interactions, Biological Evolution

Abstract

Croziers paradox suggests that genetic kin recognition will not be evolutionarily stable. The problem is that more common tags (markers) are more likely to be recognized and helped. This causes common tags to increase in frequency, eliminating the genetic variability that is required for genetic kin recognition. Two potential solutions to this problem have been suggested: host-parasite coevolution and multiple social encounters. We show that the host-parasite coevolution hypothesis does not work as commonly assumed. Host-parasite coevolution only stabilizes kin recognition at a parasite resistance locus if parasites adapt rapidly to hosts and cause intermediate or high levels of damage (virulence). Additionally, when kin recognition is stabilized at a parasite resistance locus, this can have an additional cost of making hosts more susceptible to parasites. However, we show that if the genetic architecture is allowed to evolve, meaning natural selection can choose the recognition locus, genetic kin recognition is more likely to be stable. The reason for this is that host-parasite coevolution can maintain tag diversity at another (neutral) locus by genetic hitchhiking, allowing that other locus to be used for genetic kin recognition. These results suggest a way that host-parasite coevolution can resolve Croziers paradox, without making hosts more susceptible to parasites. However, the opportunity for multiple social encounters may provide a more robust resolution of Croziers paradox.

Published

2023

35. EXPERIMENTAL INFECTIONS WITH EUHAPLORCHIS CALIFORNIENSIS AND A SMALL CYATHOCOTYLID INCREASE CONSPICUOUS BEHAVIORS IN CALIFORNIA KILLIFISH (FUNDULUS PARVIPINNIS).

Author

Weinersmith, Kelly, Nadler, Lauren, Bengston, Erik, Turner, Andrew, Birda, Abhinav, Cobian, Karina, Dusto, Jennifer, Helland-Riise, Siri, Terhall, Jasmine, Øverli, Øyvind, and Hechinger, Ryan

Subjects

Euhaplorchis californiensis, Fundulus parvipinnis, California killifish, Conspicuous behaviors, Darting, Dashing, Flashing, Host behavior, Parasite manipulation, Scratching, Surfacing, Trophic transmission, Animals, Trematode Infections, Fish Diseases, Trematoda, Brain, Fundulidae, Host-Parasite Interactions

Abstract

Some parasites manipulate their hosts phenotype to enhance predation rates by the next host in the parasites life cycle. Our understanding of this parasite-increased trophic transmission is often stymied by study-design challenges. A recurring difficulty has been obtaining uninfected hosts with a coevolutionary history with the parasites, and conducting experimental infections that mimic natural processes. In 1996, Lafferty and Morris provided what has become a classic example of parasite-increased trophic transmission; they reported a positive association between the intensity of a brain-infecting trematode (Euhaplorchis californiensis) in naturally infected California killifish (Fundulus parvipinnis) and the frequency of conspicuous behaviors, which was thought to explain the documented 10-30× increase in predation by the final host birds. Here, we address the primary gap in that study by using experimental infections to assess the causality of E. californiensis infection for increased conspicuous behaviors in F. parvipinnis. We hatched and reared uninfected F. parvipinnis from a population co-occurring with E. californiensis, and infected them 1-2 times/week over half their life span with E. californiensis and a small cyathocotylid trematode (SMCY) that targets the hosts muscle tissue. At 3 time points throughout the hosts lives, we quantified several conspicuous behaviors: contorting, darting, scratching, surfacing, and vertical positioning relative to the waters surface. Euhaplorchis californiensis and SMCY infection caused 1.8- and 2.5-fold overall increases in conspicuous behaviors, respectively. Each parasite was also associated with increases in specific conspicuous behaviors, particularly 1.9- and 1.4-fold more darting. These experimental findings help solidify E. californiensis-F. parvipinnis as a classic example of behavioral manipulation. Yet our findings for E. californiensis infection-induced behavioral change were less consistent and strong than those previously documented. We discuss potential explanations for this discrepancy, particularly the idea that behavioral manipulation may be most apparent when fish are actively attacked by predators. Our findings concerning the other studied trematode species, SMCY, highlight that trophically transmitted parasites infecting various host tissues are known to be associated with conspicuous behaviors, reinforcing calls for research examining how communities of trophically transmitted parasites influence host behavior.

Published

2023

36. Niche partitioning and host specialisation in fish‐parasitising isopods: Trait‐dependent patterns from three ecosystems on the east coast of India

Author

Sandeep Kumar Mohapatra, Anshuman Swain, Dipanjan Ray, Rajesh Kumar Behera, Basudev Tripathy, Jaya Kishor Seth, and Anil Mohapatra

Subjects

bipartite network, cymothoid isopods, fish parasites, host–parasite interactions, trait‐based analysis, Ecology, QH540-549.5

Abstract

Abstract Due to their large size and obligate nature, Cymothoid isopods inflict a high degree of tissue damage to fish. Still, they are understudied at an ecosystem level despite their global presence and ecological role. In this work, we collected fish host‐isopod parasite data, along with their life history and ecological traits, from the northern part of the east coast of India and investigated patterns in host specialisation and preference of isopod parasites using a trait‐based network perspective. We observed that the region of attachment of the parasite (buccal cavity, branchial cavity, and skin) and host fish ecology (schooling behaviour and habitat characteristics) influenced host specialisation and preference. We found that branchial cavity‐attaching parasites preferred schooling, pelagic fishes, whereas buccal cavity‐attaching parasites preferred mostly non‐schooling, demersal fishes. Skin‐attaching parasites were found to be generalists and had no preference based on our examined host traits.

Published

2024

37. Dynamics of “trematode – edible cockle (Cerastoderma edule)” parasite – host systems in three coastal ecosystems along a North-Eastern Atlantic gradient

Author

Alfeddy, Nazik, Bazairi, Hocein, Gam, Mériame, and de Montaudouin, Xavier

Published

2024

38. Ecto- and endoparasites of common reedbuck, Redunca arundinum , at 2 localities in KwaZulu-Natal Province, South Africa: community and network structure.

Author

Junker, Kerstin, Boomker, Joop, Horak, Ivan G., and Krasnov, Boris R.

Subjects

*BIOTIC communities, *POPULATION dynamics, *SOCIAL influence, *ENDOPARASITES, *ECTOPARASITES, *HELMINTHS

Abstract

Parasite community structure is governed by functional traits of hosts and parasites. Notably, parasite populations and communities respond to host social and spatial behaviour. Many studies demonstrating these effects dealt with small-bodied host species, while the influence of host social patterns on parasite communities in large hosts remains understudied. In an earlier study on nyalas (Tragelaphus angasii), host age was more important than sex in structuring helminth communities and networks, but the influence of both was mediated by local environmental conditions, creating different locality patterns. Common reedbuck (Redunca arundinum) differ from nyalas in spatial and social behaviour. Based on helminth and ectoparasite data from 56 reedbuck examined at 2 localities in KwaZulu-Natal Province, we asked which patterns are similar and which differ between the 2 host species. Similar to nyalas, reedbuck age was more important than sex in structuring communities and networks. However, local environmental conditions exerted the strongest influence on transmission patterns, especially in ectoparasites. Complex interactions between reedbuck traits, parasite traits and local environmental conditions modulated the risk of infection differently at the 2 sites, confirming our earlier findings in nyalas that pooling data from different locations may obscure location-specific parasite community patterns. Similarities between patterns in reedbuck and nyalas, despite their behavioural differences, suggest some common patterns in parasite community ecology that, in turn, are determined mostly by parasite traits and population dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

39. Parasitic nematode secreted phospholipase A2 suppresses cellular and humoral immunity by targeting hemocytes in Drosophila melanogaster

Author

Parks, Sophia C, Okakpu, Ogadinma K, Azizpor, Pakeeza, Nguyen, Susan, Martinez-Beltran, Stephanie, Claudio, Isaiah, Anesko, Kyle, Bhatia, Anil, Dhillon, Harpal S, and Dillman, Adler R

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Genetics, Immunology, Infectious Diseases, 2.2 Factors relating to the physical environment, Generic health relevance, Animals, Drosophila melanogaster, Hemocytes, Immunity, Humoral, Host-Parasite Interactions, Nematoda, Phospholipases A2, Secretory, sPLA2, Steinernema carpocapsae, immune modulation, Drosophila, host-parasite interactions, Medical Microbiology, Biochemistry and cell biology

Abstract

A key aspect of parasitic nematode infection is the nematodes' ability to evade and/or suppress host immunity. This immunomodulatory ability is likely driven by the release of hundreds of excretory/secretory proteins (ESPs) during infection. While ESPs have been shown to display immunosuppressive effects on various hosts, our understanding of the molecular interactions between individual proteins released and host immunity requires further study. We have recently identified a secreted phospholipase A2 (sPLA2) released from the entomopathogenic nematode (EPN) Steinernema carpocapsae we have named Sc-sPLA2. We report that Sc-sPLA2 increased mortality of Drosophila melanogaster infected with Streptococcus pneumoniae and promoted increased bacterial growth. Furthermore, our data showed that Sc-sPLA2 was able to downregulate both Toll and Imd pathway-associated antimicrobial peptides (AMPs) including drosomycin and defensin, in addition to suppressing phagocytosis in the hemolymph. Sc-sPLA2 was also found to be toxic to D. melanogaster with the severity being both dose- and time-dependent. Collectively, our data highlighted that Sc-sPLA2 possessed both toxic and immunosuppressive capabilities.

Published

2023

40. Demographic fluctuations and selection during host–parasite co‐evolution interactively increase genetic diversity.

Author

Le Pennec, Guénolé, Retel, Cas, Kowallik, Vienna, Becks, Lutz, and Feulner, Philine G. D.

Subjects

*GENETIC variation, *WHOLE genome sequencing, *COEVOLUTION, *ALGAL populations, *PARASITES, *CHLORELLA, *ALGAL growth

Abstract

Host–parasite interactions can cause strong demographic fluctuations accompanied by selective sweeps of resistance/infectivity alleles. Both demographic bottlenecks and frequent sweeps are expected to reduce the amount of segregating genetic variation and therefore might constrain adaptation during co‐evolution. Recent studies, however, suggest that the interaction of demographic and selective processes is a key component of co‐evolutionary dynamics and may rather positively affect levels of genetic diversity available for adaptation. Here, we provide direct experimental testing of this hypothesis by disentangling the effects of demography, selection and their interaction in an experimental host–parasite system. We grew 12 populations of a unicellular, asexually reproducing algae (Chlorella variabilis) that experienced either growth followed by constant population sizes (three populations), demographic fluctuations (three populations), selection induced by exposure to a virus (three populations), or demographic fluctuations together with virus‐induced selection (three populations). After 50 days (~50 generations), we conducted whole‐genome sequencing of each algal host population. We observed more genetic diversity in populations that jointly experienced selection and demographic fluctuations than in populations where these processes were experimentally separated. In addition, in those three populations that jointly experienced selection and demographic fluctuations, experimentally measured diversity exceeds expected values of diversity that account for the cultures' population sizes. Our results suggest that eco‐evolutionary feedbacks can positively affect genetic diversity and provide the necessary empirical measures to guide further improvements of theoretical models of adaptation during host–parasite co‐evolution. [ABSTRACT FROM AUTHOR]

Published

2024

41. Virulence is associated with daily rhythms in the within‐host replication of the malaria parasite Plasmodium chabaudi.

Author

Owolabi, Alíz T. Y., Schneider, Petra, and Reece, Sarah E.

Subjects

*PLASMODIUM, *CIRCADIAN rhythms, *ERYTHROCYTES, *DRUG tolerance, *MOSQUITO vectors, *RHYTHM, *SYMPTOMS

Abstract

Most malaria (Plasmodium spp.) parasite species undergo asexual replication synchronously within the red blood cells of their vertebrate host. Rhythmicity in this intraerythrocytic developmental cycle (IDC) enables parasites to maximise exploitation of the host and align transmission activities with the time of day that mosquito vectors blood feed. The IDC is also responsible for the major pathologies associated with malaria, and plasticity in the parasite's rhythm can confer tolerance to antimalarial drugs. Both the severity of infection (virulence) and synchrony of the IDC vary across species and between genotypes of Plasmodium; however, this variation is poorly understood. The theory predicts that virulence and IDC synchrony are negatively correlated, and we tested this hypothesis using two closely related genotypes of the rodent malaria model Plasmodium chabaudi that differ markedly in virulence. We also test the predictions that, in response to perturbations to the timing (phase) of the IDC schedule relative to the phase of host rhythms (misalignment), the virulent parasite genotype recovers the correct phase relationship faster, incurs less fitness losses and so hosts benefit less from misalignment when infected with a virulent genotype. Our predictions are partially supported by results suggesting that the virulent parasite genotype is less synchronous in some circumstances and recovers faster from misalignment. While hosts were less anaemic when infected by misaligned parasites, the extent of this benefit did not depend on parasite virulence. Overall, our results suggest that interventions to perturb the alignment between the IDC schedule, and host rhythms and increase synchrony between parasites within each IDC, could alleviate disease symptoms. However, virulent parasites, which are better at withstanding conventional antimalarial treatment, would also be intrinsically better able to tolerate such interventions. [ABSTRACT FROM AUTHOR]

Published

2024

42. Melatonin: A look at protozoal and helminths.

Author

Ribeiro Franco, Pablo Igor, do Carmo Neto, José Rodrigues, Guerra, Rhanoica Oliveira, Ferreira da Silva, Priscilla Elias, Braga, Yarlla Loyane Lira, Nunes Celes, Mara Rúbia, de Menezes, Liliana Borges, Miguel, Marina Pacheco, and Machado, Juliana Reis

Subjects

*G protein coupled receptors, *MELATONIN, *PROTOZOAN diseases, *CIRCADIAN rhythms, *HELMINTHIASIS, *PINEAL gland, *PARASITIC diseases

Abstract

Melatonin is a pleiotropic neurohormone found in different animal, plant, and microorganism species. It is a product resulting from tryptophan metabolism in the pineal gland and is widely known for its ability to synchronize the circadian rhythm to antitumor functions in different types of cancers. The molecular mechanisms responsible for its immunomodulatory, antioxidant and cytoprotective effects involve binding to high-affinity G protein-coupled receptors and interactions with intracellular targets that modulate signal transduction pathways. In vitro and in vivo studies have reported the therapeutic potential of melatonin in different infectious and parasitic diseases. In this review, the protective and pathophysiological roles of melatonin in fighting protozoan and helminth infections and the possible mechanisms involved against these stressors will be discussed. • Melatonin is an indole hormone with different functions, from antioxidant activity to immunomodulation. • Melatonin has activity against protozoa by acting, above all, directly and indirectly in the infectious process. • Melatonin reduces the impact of the infectious process caused by helminths, especially by inducing protection against oxidative stress. [ABSTRACT FROM AUTHOR]

Published

2024

43. Host avian species and environmental conditions influence the microbial ecology of brood parasitic brown‐headed cowbird nestlings: What rules the roost?

Author

Rudzki, Elizabeth N., Antonson, Nicholas D., Jones, Todd M., Schelsky, Wendy M., Trevelline, Brian K., Hauber, Mark E., and Kohl, Kevin D.

Subjects

*COWBIRDS, *BROWN-headed cowbird, *BROOD parasitism, *MICROBIAL ecology, *BROOD parasites, *GUT microbiome, *BIOTIC communities, *PARENTAL influences, *NEST predation

Abstract

The role of species interactions, as well as genetic and environmental factors, all likely contribute to the composition and structure of the gut microbiome; however, disentangling these independent factors under field conditions represents a challenge for a functional understanding of gut microbial ecology. Avian brood parasites provide unique opportunities to investigate these questions, as brood parasitism results in parasite and host nestlings being raised in the same nest, by the same parents. Here we utilized obligate brood parasite brown‐headed cowbird nestlings (BHCO; Molothrus ater) raised by several different host passerine species to better understand, via 16S rRNA sequencing, the microbial ecology of brood parasitism. First, we compared faecal microbial communities of prothonotary warbler nestlings (PROW; Protonotaria citrea) that were either parasitized or non‐parasitized by BHCO and communities among BHCO nestlings from PROW nests. We found that parasitism by BHCO significantly altered both the community membership and community structure of the PROW nestling microbiota, perhaps due to the stressful nest environment generated by brood parasitism. In a second dataset, we compared faecal microbiotas from BHCO nestlings raised by six different host passerine species. Here, we found that the microbiota of BHCO nestlings was significantly influenced by the parental host species and the presence of an inter‐specific nestmate. Thus, early rearing environment is important in determining the microbiota of brood parasite nestlings and their companion nestlings. Future work may aim to understand the functional effects of this microbiota variability on nestling performance and fitness. [ABSTRACT FROM AUTHOR]

Published

2024

44. Parasites and the ecology of fear: Nonconsumptive effects of ectoparasites on larvae reduce growth in simulated Drosophila populations

Author

Collin J. Horn, Lien T. Luong, and Darcy R. Visscher

Subjects

computer simulation, Drosophila, ecology of fear, host‐parasite interactions, host population, Macrocheles, Ecology, QH540-549.5

Abstract

Abstract Predators negatively affect prey outside of direct attack, and these nonconsumptive effects (NCEs) may cause over half the impacts of predators on prey populations. This “ecology of fear” framework has been extended to host–parasite interactions. The NCEs of parasites are thought to be small relative to those of predators. However, recent research shows ectoparasites exert NCEs on multiple life stages of Drosophila. In this study, we apply recent data to a matrix‐based model of fly populations experiencing infection/consumption and NCEs from an ectoparasitic mite. We found the NCEs of parasites on larvae, which are not actively parasitized, decreased the size of simulated host populations. By contrast, the NCEs on adult flies increased population size through compensatory egg production. The negative NCEs on larvae outweighed the positive effects on adults to reduce population size. This study suggests that parasitic NCEs can suppress host populations independent of infection.

Published

2024

45. Editorial: Conference research topic: 16th international symposium on schistosomiasis NEW ('th') presented in superscript

Author

Marina Moraes Mourão, Roberta Lima Caldeira, Thiago Almeida Pereira, and Cristina Toscano Fonseca

Subjects

International Symposium on Schistosomiasis, host-parasite interactions, vaccines, immunobiology, Biomphalaria sp., Schistosoma sp, Immunologic diseases. Allergy, RC581-607

Published

2024

46. Two new species of parasitic demodecid mites in the European polecat Mustela putorius and their co-infestation with Miridex putorii (Acariformes: Demodecidae)

Author

J. N. Izdebska, L. Rolbiecki, and S. Rehbein

Subjects

host-parasite interactions, skin mites, taxonomy, wild mammals, Zoology, QL1-991

Abstract

The biodiversity of parasitic mites of the Demodecidae, infesting mammalian carnivorans, is poorly understood. To date, 18 host-specific species have been described, including four each from domestic dogs and cats, and only 10 from wild carnivores, known from single or duplicate reports. No data is available on the level of infestation of wild populations, or the co-occurrence of different demodecids in the same host, as only single species have been identified in individual hosts. A convenient model for such studies turned out to be the European polecat Mustela putorius, in which a new genus and species, Miridex putorii, was recently described in the vibrissae region of the skin of the head. Our study reveals that M. putorii co-occur with other species: Demodex putorii sp. nov. (associated with the hairless skin of the head) and Demodex foetorii sp. nov. (associated with hairy skin). Thus, the present study provides descriptions of species new to science. It also provides the first analysis of the occurrence of Demodecidae in wild mammalian carnivorans at the species and individual animal level based on the co-occurrence of three demodecid mite species in the skin of the head in M. putorius. Demodecid mites were found in 75.7% of 37 polecats; M. putorii showed the highest prevalence (56.8%), and D. putorii showed the highest abundance in the skin (mean 10.8 mites in 9 cm2). The three species co-occurred in 5.4% of the polecats, and two species in 27.0%. Despite the very high abundances, infestation was not associated with gross skin pathology (a feature of stable parasite–host systems formed by long-term co-evolution). The co-occurrence of several species and the separation of microhabitats are also typical of Demodecidae of other mammalian groups and illustrate the optimal use of the host body as a habitat and food source with limited impact.urn:lsid:zoobank.org:act:4D12FF6B-5A9E-4346-A496-52AC8448E7FEhttps://zoobank.org/NomenclaturalActs/4D12FF6B-5A9E-4346-A496-52AC8448E7FEurn:lsid:zoobank.org:act:07C533F5-9392-4FD3-BF9A-E1058C0FC1D6https://zoobank.org/NomenclaturalActs/07C533F5-9392-4FD3-BF9A-E1058C0FC1D6

Published

2024

47. Do cuckoo calls affects red-backed shrike settlement pattern? An experimental approach

Author

P. Tryjanowski, A. Golawski, Ł. Jankowiak, T. S. Osiejuk, Z. Kwieciński, A. P. Møller, G. Grzywaczewski, and L. Jerzak

Subjects

Birds, experimental approach, host-parasite interactions, nest parasitism, predation, Zoology, QL1-991

Abstract

Birds select breeding territories by assessing territory quality and considering predation pressure. However, in many small passerines, brood parasitism may also play an important role in territory occupancy. Settlement decisions are made under time pressure, especially for late migrants. An example of late migrants is the red-backed shrike Lanius collurio, a species wintering in sub-tropical Africa, which serves as a host for the common cuckoo Cuculus canorus and arrives in territories a few days later than their brood parasite. We expected that arriving red-backed shrikes avoided territories with common cuckoo presence. Then, we tested how experimentally provided artificial playback calls of the common cuckoo and woodpigeon (treated as control) affected the probability of red-backed shrike settlement. In the breeding season 2021, we observed 279 red-backed shrike territories to assess the effect of playback of common cuckoo calls on their host presence. Moreover, we adopt information on shrike territories collected in previous years to establish territory quality, measured by occupancy pattern over years. Each of these places was also checked for the presence of corvids, which are predators of shrike nests. We did not find difference with lower preference of shrikes towards cuckoo calls and to pigeon calls Columba columbus, what suggest the human presence and manipulation in the territories during experiments with recorders should be incorporated as an important factor to understanding shrikes’ settlement behaviour. What is interesting we found no negative effect of corvids (jay Garrulus glandarius) in control territories. However, shrike territories where cuckoo calls were emitted and where the presence of corvids was found were less likely to be inhabited by shrikes. Therefore, territory quality, human presence enhanced by nest predators, is an important factor affecting host–parasite interactions.

Published

2024

48. Assessing the microbiota of the snail intermediate host of trematodes, Galba truncatula

Author

Peter McCann, Christopher McFarland, Julianne Megaw, Karen Siu-Ting, Cinzia Cantacessi, Gabriel Rinaldi, and Geoffrey N. Gobert

Subjects

Microbiota, 16S-sequencing, Microbiome, Snail, Parasite, Host-Parasite interactions, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background The microbiome is known to play key roles in health and disease, including host susceptibility to parasite infections. The freshwater snail Galba truncatula is the intermediate host for many trematode species, including the liver and rumen flukes Fasciola hepatica and Calicophoron daubneyi, respectively. The snail-parasite system has previously been investigated. However, the specific interaction between the snail-associated microbiota and intra-snail developmental stages of trematodes has yet to be explored. Methods Galba truncatula snails were collected from farms in Northern Ireland and trematode infection was diagnosed using PCR. High-throughput sequencing analysis of the bacterial 16S ribosomal DNA V3-V4 hypervariable regions was subsequently applied to characterise the microbiota of both uninfected and infected snails. Results We first showed that the snail harboured microbiota that was distinct for its environment. The microbiota of infected snails was found to differ significantly from that of uninfected snails. In particular, the bacterial genera Mycoplasma and Methylotenera were significantly more abundant in infected snails, while genera Sphingomonas and Nocardioides were predominantly associated with uninfected snails. Conclusion These findings pave the way to future studies on the functional roles of bacteria in host-parasite relationships. Graphical Abstract

Published

2024

49. Distinct transcriptomic signatures define febrile malaria depending on initial infective states, asymptomatic or uninfected

Author

Kelvin M. Kimenyi, Mercy Y. Akinyi, Kioko Mwikali, Tegan Gilmore, Shaban Mwangi, Elisha Omer, Bonface Gichuki, Juliana Wambua, James Njunge, George Obiero, Philip Bejon, Jean Langhorne, Abdirahman Abdi, and Lynette Isabella Ochola-Oyier

Subjects

Malaria, Asymptomatic Plasmodium falciparum infection, Immunity, Host-parasite interactions, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Cumulative malaria parasite exposure in endemic regions often results in the acquisition of partial immunity and asymptomatic infections. There is limited information on how host-parasite interactions mediate the maintenance of chronic symptomless infections that sustain malaria transmission. Methods Here, we determined the gene expression profiles of the parasite population and the corresponding host peripheral blood mononuclear cells (PBMCs) from 21 children (

Published

2024

50. Geography, phylogeny and host switch drive the coevolution of parasitic Gyrodactylus flatworms and their hosts

Author

Hong-Peng Lei, Ivan Jakovlić, Shun Zhou, Xiang Liu, Chuan Yan, Xiao Jin, Bo Wang, Wen-Xiang Li, Gui-Tang Wang, and Dong Zhang

Subjects

Host-parasite interactions, Host specificity, Host use, Co-phylogeny, Coevolutionary events, Bipartite network, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Gyrodactylus is a lineage of monogenean flatworm ectoparasites exhibiting many features that make them a suitable model to study the host-parasite coevolutionary dynamics. Previous coevolutionary studies of this lineage mainly relied on low-power datasets (a small number of samples and a single molecular marker) and (now) outdated algorithms. Methods To investigate the coevolutionary relationship of gyrodactylids and their fish hosts in high resolution, we used complete mitogenomes (including two newly sequenced Gyrodactylus species), a large number of species in the single-gene dataset, and four different coevolutionary algorithms. Results The overall coevolutionary fit between the parasites and hosts was consistently significant. Multiple indicators confirmed that gyrodactylids are generally highly host-specific parasites, but several species could parasitize either multiple (more than 5) or phylogenetically distant fish hosts. The molecular dating results indicated that gyrodactylids tend to evolve towards high host specificity. Speciation by host switch was identified as a more important speciation mode than co-speciation. Assuming that the ancestral host belonged to Cypriniformes, we inferred four major host switch events to non-Cypriniformes hosts (mostly Salmoniformes), all of which occurred deep in the evolutionary history. Despite their relative rarity, these events had strong macroevolutionary consequences for gyrodactylid diversity. For example, in our dataset, 57.28% of all studied gyrodactylids parasitized only non-Cypriniformes hosts, which implies that the evolutionary history of more than half of all included lineages could be traced back to these major host switch events. The geographical co-occurrence of fishes and gyrodactylids determined the host use by these gyrodactylids, and geography accounted for most of the phylogenetic signal in host use. Conclusions Our findings suggest that the coevolution of Gyrodactylus flatworms and their hosts is largely driven by geography, phylogeny, and host switches. Graphical Abstract

Published

2024