25 results on '"Auguste, Manon"'
Search Results
2. Genome‐resolved metagenomics revealed novel microbial taxa with ancient metabolism from macroscopic microbial mat structures inhabiting anoxic deep reefs of a Maldivian Blue Hole.
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Doni, Lapo, Azzola, Annalisa, Oliveri, Caterina, Bosi, Emanuele, Auguste, Manon, Morri, Carla, Bianchi, Carlo Nike, Montefalcone, Monica, and Vezzulli, Luigi
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Blue holes are vertical water‐filled openings in carbonate rock that exhibit complex morphology, ecology, and water chemistry. In this study, macroscopic microbial mat structures found in complete anoxic conditions in the Faanu Mudugau Blue Hole (Maldives) were studied by metagenomic methods. Such communities have likely been evolutionary isolated from the surrounding marine environment for more than 10,000 years since the Blue Hole formation during the last Ice Age. A total of 48 high‐quality metagenome‐assembled genomes (MAGs) were recovered, predominantly composed of the phyla Chloroflexota, Proteobacteria and Desulfobacterota. None of these MAGs have been classified to species level (<95% ANI), suggesting the discovery of several new microbial taxa. In particular, MAGs belonging to novel bacterial genera within the order Dehalococcoidales accounted for 20% of the macroscopic mat community. Genome‐resolved metabolic analysis of this dominant microbial fraction revealed a mixotrophic lifestyle based on energy conservation via fermentation, hydrogen metabolism and anaerobic CO2 fixation through the Wood–Ljungdahl pathway. Interestingly, these bacteria showed a high proportion of ancestral genes in their genomes providing intriguing perspectives on mechanisms driving microbial evolution in this peculiar environment. Overall, our results provide new knowledge for understanding microbial life under extreme conditions in blue hole environments. [ABSTRACT FROM AUTHOR]
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- 2024
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3. Polyester Microfibers Exposure Modulates Mytilus galloprovincialis Hemolymph Microbiome.
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Auguste, Manon, Leonessi, Martina, Doni, Lapo, Oliveri, Caterina, Jemec Kokalj, Anita, Drobne, Damjana, Vezzulli, Luigi, and Canesi, Laura
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MYTILUS galloprovincialis , *POLYETHYLENE terephthalate , *GENE amplification , *BACTERIAL communities , *MICROBIAL communities - Abstract
Microplastic (MP) contamination in the aquatic environment is a cause of concern worldwide since MP can be taken up by different organisms, altering different biological functions. In particular, evidence is accumulating that MP can affect the relationship between the host and its associated microbial communities (the microbiome), with potentially negative health consequences. Synthetic microfibers (MFs) represent one of the main MPs in the marine environment, which can be accumulated by filter-feeding invertebrates, such as bivalves, with consequent negative effects and transfer through the food chain. In the mussel Mytilus galloprovincialis, polyethylene terephthalate (PET) MFs, with a size distribution resembling that of an MF released from textile washing, have been previously shown to induce multiple stress responses. In this work, in the same experimental conditions, the effects of exposure to PET-MF (96 h, 10, and 100 μg/L) on mussel hemolymph microbiome were evaluated by 16S rRNA gene amplification and sequencing. The results show that PET-MF affects the composition of bacterial communities at the phylum, family and genus level, with stronger effects at the lowest concentration tested. The relationship between MF-induced changes in hemolymph microbial communities and responses observed at the whole organism level are discussed. [ABSTRACT FROM AUTHOR]
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- 2024
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4. Pan-Genome Provides Insights into Vibrio Evolution and Adaptation to Deep-Sea Hydrothermal Vents.
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Bosi, Emanuele, Taviani, Elisa, Avesani, Alessia, Doni, Lapo, Auguste, Manon, Oliveri, Caterina, Leonessi, Martina, Martinez-Urtaza, Jaime, Vetriani, Costantino, and Vezzulli, Luigi
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HYDROTHERMAL vents ,GENOMICS ,VIBRIO alginolyticus ,COMPARATIVE genomics ,PAN-genome - Abstract
This study delves into the genomic features of 10 Vibrio strains collected from deep-sea hydrothermal vents in the Pacific Ocean, providing insights into their evolutionary history and ecological adaptations. Through sequencing and pan-genome analysis involving 141 Vibrio species, we found that deep-sea strains exhibit larger genomes with unique gene distributions, suggesting adaptation to the vent environment. The phylogenomic reconstruction of the investigated isolates revealed the presence of 2 main clades: The first is monophyletic, consisting exclusively of Vibrio alginolyticus , while the second forms a monophyletic clade comprising both Vibrio antiquarius and Vibrio diabolicus species, which were previously isolated from deep-sea vents. All strains carry virulence and antibiotic resistance genes related to those found in human pathogenic Vibrio species which may play a wider ecological role other than host infection in these environments. In addition, functional genomic analysis identified genes potentially related to deep-sea survival and stress response, alongside candidate genes encoding for novel antimicrobial agents. Ultimately, the pan-genome we generated represents a valuable resource for future studies investigating the taxonomy, evolution, and ecology of Vibrio species. [ABSTRACT FROM AUTHOR]
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- 2024
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5. Impact of nanoplastics on hemolymph immune parameters and microbiota composition in Mytilus galloprovincialis
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Auguste, Manon, Lasa, Aide, Balbi, Teresa, Pallavicini, Alberto, Vezzulli, Luigi, and Canesi, Laura
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- 2020
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6. Plankton and marine aggregates as transmission vectors for V. aestuarianus 02/041 infecting the pacific oyster Crassostrea gigas.
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Doni, Lapo, Tassistro, Giovanni, Oliveri, Caterina, Balbi, Teresa, Auguste, Manon, Pallavicini, Alberto, Canesi, Laura, Pruzzo, Carla, and Vezzulli, Luigi
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PACIFIC oysters ,MARINE plankton ,BACTERIAL genes ,VIBRIO parahaemolyticus ,BIVALVES ,SHELLFISH fisheries ,OYSTERS - Abstract
Vibrio aestuarianus is a bacterium related to mass mortality outbreaks of the Pacific oyster, Crassostrea gigas in Europe. In this study, the role of different planktonic substrates (phytoplankton cells, marine aggregates and chitin fragments) in mediating V. aestuarianus 02/041 infection of oysters was evaluated by controlled infection experiments. It was shown that phytoplankton cells and, to a greater extent, marine aggregates, significantly promote V. aestuarianus 02/041 intake by C. gigas maintained under stressful conditions in the laboratory. Such intake is associated with higher concentration of the pathogen in the bivalve hemolymph and compromised health status of infected oysters. In contrast, chitin particles do not play a significant role as transmission vector for V. aestuarianus 02/041 infecting its bivalve host. Interestingly, incorporation into marine aggregates foster extracellular proteases (ECPs) activity and a higher expression of bacterial virulence genes, that are potentially involved in bivalve infection. Results from this study contribute to elucidate transmission patterns of V. aestuarianus 02/041 to C. gigas that may be useful for the development of efficient measures to prevent and control oyster disease outbreaks. [ABSTRACT FROM AUTHOR]
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- 2023
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7. Responses of Mytilus galloprovincialis to challenge with environmental isolates of the potential emerging pathogen Malaciobacter marinus.
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Auguste, Manon, Rahman, Faiz Ur, Balbi, Teresa, Leonessi, Martina, Oliveri, Caterina, Bellese, Grazia, Vezzulli, Luigi, Furones, Dolors, and Canesi, Laura
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MYTILUS galloprovincialis , *PACIFIC oysters , *MARINE pollution , *HEMOLYMPH , *MUSSELS , *BIVALVES - Abstract
Bacteria of the Arcobacter- like spp. represent emerging foodborne zoonotic pathogens in humans and animals. Their increasing presence in seafood, suggesting higher occurrence in seawater due to marine pollution, is raising some environmental concern. Although Arcobacter is frequently detected in diseased oysters and stressed bivalve species, no data are available so far on its potential pathogenicity or interactions with the immune system of the bivalve host. In this work, responses to challenge with two strains of Malaciobacter marinus IRTA-19-131 and IRTA-19-132, R1 and R2), isolated from adult Crassostrea gigas during a mortality event in 2019 in Spain, were investigated in the mussel Mytilus galloprovincialis. In vivo experiments were performed in larvae (48 h post-fertilization), and in adult mussels at 24 h post-injection, in order to evaluate the pathogenicity for early developmental stages, and the hemolymph immune responses, respectively. Both R1 and R2 were moderately pathogenic to early larvae, with significant decreases in the development of normal D-veligers from 104 and 103 CFU/mL, respectively. In adults, both strains decreased hemocyte lysosomal membrane stability (LMS), and stimulated extracellular defense responses (ROS production and lysozyme activity). The interactions between mussel hemocytes and M. marinus were investigated in in vitro short-term experiments (30–90 min) using the R1 strain (106–108 CFU/mL). R1 decreased LMS and induced lysosomal enlargement, but not cell detachment or death, and stimulated extracellular ROS production and lysozyme release, confirming in vivo data. Moreover, lysosomal internalization and degradation of bacteria were observed, together with changes in levels of activated mTor and LC3, indicating phagocytic activity. Overall, the results indicate the activation of both extracellular and intracellular immune defenses against M. marinus R1. Accordingly, these responses resulted in a significant hemolymph bactericidal activity, with a large contribution of hemolymph serum. The results represent the first data on the potential pathogenicity of Arcobacter isolated from a shellfish mortality to bivalve larvae and adults, and on their interactions with the immune system of the host. [Display omitted] • Two Arcobacter (M. marinus) strains were isolated from an oyster mortality event. • Both strains were moderately pathogenic for early Mytilus larvae. • In vivo challenge of adult mussels elicited strong immune responses in hemolymph. • In vitro exposure triggered efficient intra and extracellular defenses in hemocytes. [ABSTRACT FROM AUTHOR]
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- 2022
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8. The haemocytes of the marine bivalve Mytilus galloprovincialis as a model for studying the impact of NP on innate immunity
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AUGUSTE, Manon Emily
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Settore BIO/09 - Fisiologia - Abstract
In this PhD thesis, the effects and interactions of nanoparticles-NPs with the marine mussel Mytilus galloprovincialis were investigated through several exposure pathways, implying the use of distinct methods, in vitro and in vivo. In a first part, in vitro model served to determine the functional immune responses upon short term exposure of Mytilus hemocytes using microscopy and spectrophotometric methods. In this line, several NPs were tested in suspensions in ASW-artificial seawater and hemolymph serum-HS and showed a general activation of the immune response of Mytilus hemocytes and hemolymph components (Chapter 1 and 2). The results obtained contribute to understand the mechanisms of actions of NPs due to their nature, size and coating and also underline the importance to consider the exposure medium in the characterization and exposure experiment. Complementary experiments were carried on the change in morphology after interactions with NPs, attesting for peculiar activation of the hemocytes according to the NPs types. In a second part, the effects of NPs were also investigated at different scale of the organism (from cell to tissues) using in vivo experiments, in which mussels were exposed for several days to selected NPs, before determining immune parameters and related parameters. Mussels exposed in vivo to nanoceria-nCeO2 (Chapter 3), showed specific immunomodulatory and antioxidant effects at different levels of biological organization in the absence of Cerium tissue accumulation. In addition, the microbiota present in hemolymph of mussels has shown to be affected upon nanotitanium dioxide-nTiO2 exposure (Chapter 4). The results attested for complex interactions between immune cells, the hemocytes, activated in presence of nTiO2, and created an unfriendly medium in hemolymph, that likely lead to affect the most sensible commensal bacterial communities present. Finally, newly design experiments were performed to investigate innate immune memory/training in Mytilus (Chapter 5). Growing proofs have shown that even relying on innate response, molluscs could present a certain type of memory and recall a response upon a second encounter, also called innate immune memory. Results showed that mussels can mount a more effective response upon re-exposure to a stimulus, PS-NH2 in the present case, to avoid to trigger further stress/damages repeatedly.
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- 2020
9. A deep‐sea bacterium related to coastal marine pathogens.
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Lasa, Aide, Auguste, Manon, Lema, Alberto, Oliveri, Caterina, Borello, Alessio, Taviani, Elisa, Bonello, Guido, Doni, Lapo, Millard, Andrew D., Bruto, Maxime, Romalde, Jesus L., Yakimov, Michail, Balbi, Teresa, Pruzzo, Carla, Canesi, Laura, and Vezzulli, Luigi
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CRASSOSTREA , *VIBRIO infections , *MYTILUS galloprovincialis , *PACIFIC oysters , *MARINE bacteria , *GENOTYPES , *PATHOGENIC microorganisms - Abstract
Summary: Evolution of virulence traits from adaptation to environmental niches other than the host is probably a common feature of marine microbial pathogens, whose knowledge might be crucial to understand their emergence and pathogenetic potential. Here, we report genome sequence analysis of a novel marine bacterial species, Vibrio bathopelagicus sp. nov., isolated from warm bathypelagic waters (3309 m depth) of the Mediterranean Sea. Interestingly, V. bathopelagicus sp. nov. is closely related to coastal Vibrio strains pathogenic to marine bivalves. V. bathopelagicus sp. nov. genome encodes genes involved in environmental adaptation to the deep‐sea but also in virulence, such as the R5.7 element, MARTX toxin cluster, Type VI secretion system and zinc‐metalloprotease, previously associated with Vibrio infections in farmed oysters. The results of functional in vitro assays on immunocytes (haemocytes) of the Mediterranean mussel Mytilus galloprovincialis and the Pacific oyster Crassostrea gigas, and of the early larval development assay in Mytilus support strong toxicity of V. bathopelagicus sp. nov. towards bivalves. V. bathopelagicus sp. nov., isolated from a remote Mediterranean bathypelagic site, is an example of a planktonic marine bacterium with genotypic and phenotypic traits associated with animal pathogenicity, which might have played an evolutionary role in the origin of coastal marine pathogens. [ABSTRACT FROM AUTHOR]
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- 2021
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10. Immunological Responses of Marine Bivalves to Contaminant Exposure: Contribution of the -Omics Approach.
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Balbi, Teresa, Auguste, Manon, Ciacci, Caterina, and Canesi, Laura
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BIVALVES ,DISEASE susceptibility ,BACTERIAL communities ,GENES ,HUMORAL immunity ,IMMUNE response - Abstract
The increasing number of data studies on the biological impact of anthropogenic chemicals in the marine environment, together with the great development of invertebrate immunology, has identified marine bivalves as a key invertebrate group for studies on immunological responses to pollutant exposure. Available data on the effects of contaminants on bivalve immunity, evaluated with different functional and molecular endpoints, underline that individual functional parameters (cellular or humoral) and the expression of selected immune-related genes can distinctly react to different chemicals depending on the conditions of exposure. Therefore, the measurement of a suite of immune biomarkers in hemocytes and hemolymph is needed for the correct evaluation of the overall impact of contaminant exposure on the organism's immunocompetence. Recent advances in -omics technologies are revealing the complexity of the molecular players in the immune response of different bivalve species. Although different -omics represent extremely powerful tools in understanding the impact of pollutants on a key physiological function such as immune defense, the -omics approach has only been utilized in this area of investigation in the last few years. In this work, available information obtained from the application of -omics to evaluate the effects of pollutants on bivalve immunity is summarized. The data shows that the overall knowledge on this subject is still quite limited and that to understand the environmental relevance of any change in immune homeostasis induced by exposure to contaminants, a combination of both functional assays and cutting-edge technology (transcriptomics, proteomics, and metabolomics) is required. In addition, the utilization of metagenomics may explain how the complex interplay between the immune system of bivalves and its associated bacterial communities can be modulated by pollutants, and how this may in turn affect homeostatic processes of the host, host–pathogen interactions, and the increased susceptibility to disease. Integrating different approaches will contribute to knowledge on the mechanism responsible for immune dysfunction induced by pollutants in ecologically and economically relevant bivalve species and further explain their sensitivity to multiple stressors, thus resulting in health or disease. [ABSTRACT FROM AUTHOR]
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- 2021
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11. SCHeMA EU Project Summer School Report
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Akter, Mahfuza, Auguste, Manon, Bir, Joyanta, Blanco, Esther, Briaudeau Tifanie, Giulia, Dapueto, Diaz de Cerio, Coccoli, Caroline, Creemers, Marie, Espino, Marinelle, Gain, Dhiman, Gil-Uriarte, Endika, Grimaldi, Camille, Khalil, Sarker Mohammed Ibrahim, Lopez, Alizée, Rementeria Ane, Roch, Marlène, Rodriguez, Azibar, Roman, Olaya, Ruoyu, Hu, Abdou, Melina, Coll Crespi, Miquel, Cuartero Botia, Maria, Fighera, Marianna, Gil-Diaz, Teba, Kowal, Justyna Lucja, Luxenburger, Florian, Mirasole, Cristiana, Pankratova, Nadezda, Penezic, Abra, Zieger, Silvia, Tercier Waeber, Mary-Lou, and Nardin, Corinne.
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education ,FP7 Ocean 2013.2 ,SCHeMA ,Sensors - Abstract
This conference report describes the training activities that took place in the frame of the Integrated in Situ Chemical MApping probe (SCHeMA) summer school organized from the 14th to the 16th of June 2016 in Bilbao (Spain)
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- 2017
12. Conference Report: SCHeMA EU Project Summer School Report
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Akter, Mahfuza, Auguste, Manon, Bir, Joyanta, Blanco, Esther, Briaudeau, Tifanie, Dapueto, Giulia, de Cerio, Diaz, Coccoli, Caroline, Creemers, Marie, Espino, Marinelle, Gain, Dhiman, Gil-Uriarte, Endika, Grimaldi, Camille, Khalil, Sarker Mohammed Ibrahim, Lopez, Alizée, Rementeria, Ane, Roch, Marlène, Rodriguez, Azibar, Roman, Olaya, Ruoyu, Hu, Abdou, Melina, Coll Crespi, Miguel, Cuartero Botia, Maria, Fighera, Marianna, Gil-Diaz, Teba, Kowal, Justyna Lucja, Luxenburger, Florian, Mirasole, Cristiana, Pankratova, Nadezda, Penezic, Abra, Zieger, Silvia, Tercier Waeber, Marie-Louise, and Nardin, Corinne
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FP7 Ocean 2013.2 ,SCHeMA ,Sensors ,education ,ddc:540 - Abstract
This conference report describes the training activities that took place in the frame of the Integrated in Situ Chemical MApping probe (SCHeMA) summer school organized from the 14th to the 16th of June 2016 in Bilbao (Spain).
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- 2017
13. Addressing Nanomaterial Immunosafety by Evaluating Innate Immunity across Living Species.
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Boraschi, Diana, Alijagic, Andi, Auguste, Manon, Barbero, Francesco, Ferrari, Eleonora, Hernadi, Szabolcs, Mayall, Craig, Michelini, Sara, Navarro Pacheco, Natividad I., Prinelli, Alessandra, Swart, Elmer, Swartzwelter, Benjamin J., Bastús, Neus G., Canesi, Laura, Drobne, Damjana, Duschl, Albert, Ewart, Marie‐Ann, Horejs‐Hoeck, Jutta, Italiani, Paola, and Kemmerling, Birgit
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- 2020
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14. Shift in Immune Parameters After Repeated Exposure to Nanoplastics in the Marine Bivalve Mytilus.
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Auguste, Manon, Balbi, Teresa, Ciacci, Caterina, Canonico, Barbara, Papa, Stefano, Borello, Alessio, Vezzulli, Luigi, and Canesi, Laura
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MYTILUS ,PROTEIN precursors ,MYTILUS galloprovincialis ,IMMUNE system ,IMMUNE response - Abstract
Bivalves are widespread in coastal environments subjected to a wide range of environmental fluctuations: however, the rapidly occurring changes due to several anthropogenic factors can represent a significant threat to bivalve immunity. The mussel Mytilus spp. has extremely powerful immune defenses toward different potential pathogens and contaminant stressors. In particular, the mussel immune system represents a significant target for different types of nanoparticles (NPs), including amino-modified nanopolystyrene (PS-NH
2 ) as a model of nanoplastics. In this work, the effects of repeated exposure to PS-NH2 on immune responses of Mytilus galloprovincialis were investigated after a first exposure (10 μg/L; 24 h), followed by a resting period (72-h depuration) and a second exposure (10 μg/L; 24 h). Functional parameters were measured in hemocytes, serum, and whole hemolymph samples. In hemocytes, transcription of selected genes involved in proliferation/apoptosis and immune response was evaluated by qPCR. First exposure to PS-NH2 significantly affected hemocyte mitochondrial and lysosomal parameters, serum lysozyme activity, and transcription of proliferation/apoptosis markers; significant upregulation of extrapallial protein precursor (EPp) and downregulation of lysozyme and mytilin B were observed. The results of functional hemocyte parameters indicate the occurrence of stress conditions that did not however result in changes in the overall bactericidal activity. After the second exposure, a shift in hemocyte subpopulations, together with reestablishment of basal functional parameters and of proliferation/apoptotic markers, was observed. Moreover, hemolymph bactericidal activity, as well as transcription of five out of six immune-related genes, all codifying for secreted proteins, was significantly increased. The results indicate an overall shift in immune parameters that may act as compensatory mechanisms to maintain immune homeostasis after a second encounter with PS-NH2 . [ABSTRACT FROM AUTHOR]- Published
- 2020
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15. Exposure to TiO2 nanoparticles induces shifts in the microbiota composition of Mytilus galloprovincialis hemolymph.
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Auguste, Manon, Lasa, Aide, Pallavicini, Alberto, Gualdi, Stefano, Vezzulli, Luigi, and Canesi, Laura
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Abstract It is now recognized that host microbiome, the community of microorganisms that colonize the animal body (e.g. microbiota) and their genomes, play an important role in the health status of all organisms, from nutrient processing to protection from disease. In particular, the complex, bilateral interactions between the host innate immune system and the microbiota are crucial in maintaining whole body homeostasis. The development of nanotechnology is raising concern on the potential impact of nanoparticles-NPs on human and environmental health. Titanium dioxide-nTiO 2 , one of the most widely NP in use, has been shown to affect the gut microbiota of mammals and fish, as well as to potentially alter microbial communities. In the marine bivalve Mytilus galloprovincialis , nTiO 2 has been previously shown to interact with hemolymph components, thus resulting in immunomodulation. However, no information is available on the possible impact of NPs on the microbiome of marine organisms. Bivalves host high microbial abundance and diversity, and alteration of their microbiota, in both tissues and hemolymph, in response to stressful conditions has been linked to a compromised health status and susceptibility to diseases. In this work, the effects of nTiO 2 exposure (100 μg/L, 4 days) on Mytilus hemolymph microbiota were investigated by 16S rRNA gene-based profiling. Immune parameters were also evaluated. Although hemolymph microbiota of control and nTiO 2 -treated mussels revealed a similar core composition, nTiO 2 exposure affected the abundance of different genera, with decreases in some (e.g. Shewanella , Kistimonas , Vibrio) and increases in others (e.g. Stenotrophomonas). The immunomodulatory effects of nTiO 2 were confirmed by the increase in the bactericidal activity of whole hemolymph. These represent the first data on the effects of NPs on the microbiome of marine invertebrates, and suggest that the shift in hemolymph microbiome composition induced by nTiO 2 may result from the interplay between the microbiota and the immune system. Graphical abstract Unlabelled Image Highlights • Potential impact of NPs on the microbiome of marine organisms • nTiO 2 exposure affected microbiota composition of Mytilus hemolymph. • nTiO 2 also affects immune hemolymph parameters. • Interconnection between microbial communities and immune system of bivalve host [ABSTRACT FROM AUTHOR]
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- 2019
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16. Responses of Mytilus galloprovincialis to challenge with the emerging marine pathogen Vibrio coralliilyticus.
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Balbi, Teresa, Auguste, Manon, Cortese, Katia, Montagna, Michele, Borello, Alessio, Pruzzo, Carla, Vezzulli, Luigi, and Canesi, Laura
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MYTILUS galloprovincialis , *VIBRIO , *MICROBIAL virulence , *LYSOZYMES , *HEMOLYMPH - Abstract
Abstract Vibrio coralliilyticus has emerged as a coral pathogen of concern throughout the Indo-Pacific reef. The interest towards understanding its ecology and pathogenic potential has increased since V. coralliilyticus was shown to be strongly virulent also for other species; in particular, it represents a serious threat for bivalve aquaculture, being one of the most important emerging pathogen responsible for oyster larval mortalities worldwide. V. coralliilyticus has a tightly regulated temperature-dependent virulence and it has been related to mass mortalities events of benthic invertebrates also in the temperate northwestern Mediterranean Sea. However, no data are available on the effects of V. coralliilyticus in the mussel Mytilus galloprovincialis , the most abundant aquacultured species in this area. In this work, responses of M. galloprovincialis to challenge with V. coralliilyticus (ATCC BAA-450) were investigated. In vitro, short term responses of mussel hemocytes were evaluated in terms of lysosomal membrane stability, bactericidal activity, lysozyme release, ROS and NO production, and ultrastructural changes, evaluated by TEM. In vivo, hemolymph parameters were measured in mussels challenged with V. coralliilyticus at 24h p.i. Moreover, the effects of V. coralliilyticus on mussel early embryo development (at 48 hpf) were evaluated. The results show that both in vitro and in vivo, mussels were unable to activate immune response towards V. coralliilyticus , and that challenge mainly induced lysosomal stress in the hemocytes. Moreover, V. coralliilyticus showed a strong and concentration-dependent embryotoxicity. Overall, the results indicate that, although M. galloprovincialis is considered a resistant species to vibrio infections, the emerging pathogen V. coralliilyticus can represent a potential threat to mussel aquaculture. Graphical abstract Image 1 Highlights • Evaluation of Mytilus immune responses to the emerging pathogen V. coralliilyticus. • In vitro and in vivo responses and developmental effects were measured. • Hemocyte lysosomal stress was observed, but no induction of immune parameters. • Strong and concentration-dependent effects on embryo development. • Mytilus is unable to mount an efficient immune response towards V. coralliilyticus. [ABSTRACT FROM AUTHOR]
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- 2019
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17. Comparison of Different Commercial Nanopolystyrenes: Behavior in Exposure Media, Effects on Immune Function and Early Larval Development in the Model Bivalve Mytilus galloprovincialis.
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Auguste, Manon, Balbi, Teresa, Miglioli, Angelica, Alberti, Stefano, Prandi, Sonja, Narizzano, Riccardo, Salis, Annalisa, Damonte, Gianluca, and Canesi, Laura
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MYTILUS galloprovincialis , *ENVIRONMENTAL risk assessment , *BIVALVES , *TOXICITY testing , *SURFACE charges , *MARINE toxins - Abstract
In the absence of standard methods for the detection/quantification of nanoplastics (NPs) in environmental samples, commercial nanopolymers are utilized as proxies for toxicity testing and environmental risk assessment. In marine species, a considerable amount of data are now available on the effects of nanopolystyrene (PS-NPs) of different size/surface characteristics. In this work, amino modified PS-NPs (PS-NH2) (50 and 100 nm), purchased from two different companies, were compared in terms of behavior in exposure media and of biological responses, from molecular to organism level, in the model marine bivalve Mytilus. Different PS-NH2 showed distinct agglomeration and surface charge in artificial sea water (ASW) and hemolymph serum (HS). Differences in behavior were largely reflected by the effects on immune function in vitro and in vivo and on early larval development. Stronger effects were generally observed with PS-NH2 of smaller size, showing less agglomeration and higher positive charge in exposure media. Specific molecular interactions with HS components were investigated by the isolation and characterization of the NP-corona proteins. Data obtained in larvae demonstrate interference with the molecular mechanisms of shell biogenesis. Overall, different PS-NH2 can affect the key physiological functions of mussels at environmental concentrations (10 µg/L). However, detailed information on the commercial NPs utilized is required to compare their biological effects among laboratory experiments. [ABSTRACT FROM AUTHOR]
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- 2021
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18. Cross-Species Comparisons of Nanoparticle Interactions with Innate Immune Systems: A Methodological Review.
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Swartzwelter, Benjamin J., Mayall, Craig, Alijagic, Andi, Barbero, Francesco, Ferrari, Eleonora, Hernadi, Szabolcs, Michelini, Sara, Navarro Pacheco, Natividad Isabel, Prinelli, Alessandra, Swart, Elmer, and Auguste, Manon
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IMMUNE system ,IMMUNE response ,NATURAL immunity - Abstract
Many components of the innate immune system are evolutionarily conserved and shared across many living organisms, from plants and invertebrates to humans. Therefore, these shared features can allow the comparative study of potentially dangerous substances, such as engineered nanoparticles (NPs). However, differences of methodology and procedure between diverse species and models make comparison of innate immune responses to NPs between organisms difficult in many cases. To this aim, this review provides an overview of suitable methods and assays that can be used to measure NP immune interactions across species in a multidisciplinary approach. The first part of this review describes the main innate immune defense characteristics of the selected models that can be associated to NPs exposure. In the second part, the different modes of exposure to NPs across models (considering isolated cells or whole organisms) and the main endpoints measured are discussed. In this synergistic perspective, we provide an overview of the current state of important cross-disciplinary immunological models to study NP-immune interactions and identify future research needs. As such, this paper could be used as a methodological reference point for future nano-immunosafety studies. [ABSTRACT FROM AUTHOR]
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- 2021
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19. Functional and Morphological Changes Induced in Mytilus Hemocytes by Selected Nanoparticles.
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Auguste, Manon, Mayall, Craig, Barbero, Francesco, Hočevar, Matej, Alberti, Stefano, Grassi, Giacomo, Puntes, Victor F., Drobne, Damjana, Canesi, Laura, and Boraschi, Diana
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BLOOD cells , *MYTILUS galloprovincialis , *PHAGOCYTOSIS , *MYTILUS , *MARINE invertebrates , *ARTIFICIAL seawater , *BIOLOGICAL systems - Abstract
Nanoparticles (NPs) show various properties depending on their composition, size, and surface coating, which shape their interactions with biological systems. In particular, NPs have been shown to interact with immune cells, that represent a sensitive surveillance system of external and internal stimuli. In this light, in vitro models represent useful tools for investigating nano-bio-interactions in immune cells of different organisms, including invertebrates. In this work, the effects of selected types of NPs with different core composition, size and functionalization (custom-made PVP-AuNP and commercial nanopolystyrenes PS-NH2 and PS-COOH) were investigated in the hemocytes of the marine bivalve Mytilus galloprovincialis. The role of exposure medium was evaluated using either artificial seawater (ASW) or hemolymph serum (HS). Hemocyte morphology was investigated by scanning electron microscopy (SEM) and different functional parameters (lysosomal membrane stability, phagocytosis, and lysozyme release) were evaluated. The results show distinct morphological and functional changes induced in mussel hemocytes depending on the NP type and exposure medium. Mussel hemocytes may represent a powerful alternative in vitro model for a rapid pre-screening strategy for NPs, whose utilization will contribute to the understanding of the possible impact of environmental exposure to NPs in marine invertebrates. [ABSTRACT FROM AUTHOR]
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- 2021
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20. Conservation of Cell Communication Systems in Invertebrate Host–Defence Mechanisms: Possible Role in Immunity and Disease.
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Auguste, Manon, Balbi, Teresa, Ciacci, Caterina, and Canesi, Laura
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CELL communication , *TELECOMMUNICATION systems , *EXTRACELLULAR vesicles , *DATA transmission systems , *CELL anatomy - Abstract
Innate immunity is continuously revealing multiple and highly conserved host–defence mechanisms. Studies on mammalian immunocytes are showing different communication systems that may play a role in coordinating innate immune responses also in invertebrates. Extracellular traps (ETs) are an immune response by which cells release net-like material, including DNA, histones and proteins. ETs are thought to immobilise and kill microorganisms, but are also involved in inflammation and autoimmune disease. Immune cells are also known to communicate through extracellular vesicles secreted in the extracellular environment or exosomes, which can carry a variety of different signalling molecules. Tunnelling nanotubes (TNTs) represent a direct cell-to-cell communication over a long distance, that allow for bi- or uni-directional transfer of cellular components between cells. Their functional role in a number of physio-pathological processes, including immune responses and pathogen transfer, has been underlined. Although ETs, exosomes, and TNTs have been described in invertebrate species, their possible role in immune responses is not fully understood. In this work, available data on these communication systems are summarised, in an attempt to provide basic information for further studies on their relevance in invertebrate immunity and disease. [ABSTRACT FROM AUTHOR]
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- 2020
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21. Microplastic exposure and effects in aquatic organisms: A physiological perspective.
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Franzellitti, Silvia, Canesi, Laura, Auguste, Manon, Wathsala, Rajapaksha H.G.R., and Fabbri, Elena
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- *
SCIENTIFIC knowledge , *PLASTIC additives , *MICROBIAL growth , *ANIMAL feeds , *OPEN-ended questions , *AQUATIC organisms - Abstract
Graphical abstract Abstract The impact of microplastics (MPs) on aquatic life, given their ubiquitous presence in the water compartment, represents a growing concern. Consistently, scientific knowledge is advancing rapidly, although evidence on actual adverse effects is still highly fragmented. This paper summarizes the recent literature on MP impacts on aquatic organisms in an attempt to link routes of uptake, possible alterations of physiological processes, and outcomes at different levels of biological organization. Animal feeding strategies and MP biodistribution is discussed, alongside with relevant effects at molecular, cellular, and systemic level. Pathways from animal exposure to apical physiological responses are examined to define the relevance of MPs for animal health, and to point out open questions and research gaps. Emphasis is given to emerging threats posed by leaching of plastic additives, many of which have endocrine disruption potential. The potential role of MPs as substrates for microorganism growth and vehicle for pathogen spreading is also addressed. [ABSTRACT FROM AUTHOR]
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- 2019
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22. Exposure to TiO2 nanoparticles induces shifts in the microbiota composition of Mytilus galloprovincialis hemolymph
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Aide Lasa, Manon Auguste, Stefano Gualdi, Laura Canesi, Alberto Pallavicini, Luigi Vezzulli, Auguste, Manon, Lasa, Aide, Pallavicini, Alberto, Gualdi, Stefano, Vezzulli, Luigi, Canesi, Laura, and Universidade de Santiago de Compostela. Departamento de Microbioloxía e Parasitoloxía
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Environmental Engineering ,animal structures ,010504 meteorology & atmospheric sciences ,Zoology ,Mytilu ,Chemical ,TiO(2) nanoparticles ,010501 environmental sciences ,Gut flora ,01 natural sciences ,Immune system ,16S rRNA ,Hemolymph ,Innate immunity ,Microbiota ,Mytilus ,TiO 2 nanoparticles ,Environmental Chemistry ,Waste Management and Disposal ,Pollution ,Nanoparticle ,Animals ,Water Pollutants ,Microbiome ,0105 earth and related environmental sciences ,Titanium ,Innate immune system ,biology ,TiO(2) nanoparticle ,Animal ,fungi ,Marine invertebrates ,biology.organism_classification ,Vibrio ,Nanoparticles ,Water Pollutants, Chemical ,13. Climate action ,TiO2 nanoparticles - Abstract
It is now recognized that host microbiome, the community of microorganisms that colonize the animal body (e.g. microbiota) and their genomes, play an important role in the health status of all organisms, from nutrient processing to protection from disease. In particular, the complex, bilateral interactions between the host innate immune system and the microbiota are crucial in maintaining whole body homeostasis. The development of nanotechnology is raising concern on the potential impact of nanoparticles-NPs on human and environmental health. Titanium dioxide-nTiO2, one of the most widely NP in use, has been shown to affect the gut microbiota of mammals and fish, as well as to potentially alter microbial communities. In the marine bivalve Mytilus galloprovincialis, nTiO2 has been previously shown to interact with hemolymph components, thus resulting in immunomodulation. However, no information is available on the possible impact of NPs on the microbiome of marine organisms. Bivalves host high microbial abundance and diversity, and alteration of their microbiota, in both tissues and hemolymph, in response to stressful conditions has been linked to a compromised health status and susceptibility to diseases. In this work, the effects of nTiO2 exposure (100 μg/L, 4 days) on Mytilus hemolymph microbiota were investigated by 16S rRNA gene-based profiling. Immune parameters were also evaluated. Although hemolymph microbiota of control and nTiO2-treated mussels revealed a similar core composition, nTiO2 exposure affected the abundance of different genera, with decreases in some (e.g. Shewanella, Kistimonas, Vibrio) and increases in others (e.g. Stenotrophomonas). The immunomodulatory effects of nTiO2 were confirmed by the increase in the bactericidal activity of whole hemolymph. These represent the first data on the effects of NPs on the microbiome of marine invertebrates, and suggest that the shift in hemolymph microbiome composition induced by nTiO2 may result from the interplay between the microbiota and the immune system This project has received funding from the European Union's Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement PANDORA N° 671881 and the EU project H2020 VIVALDI grant number N° 678589 SI
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- 2019
23. Soluble mediators of innate immunity in annelids and bivalve mollusks: A mini-review.
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Canesi L, Auguste M, Balbi T, and Prochazkova P
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- Animals, Ecosystem, Immunity, Innate, Invertebrates, Vertebrates, Cytokines, Drosophila melanogaster, Bivalvia
- Abstract
Annelids and mollusks, both in the superphylum of Lophotrochozoa (Bilateria), are important ecological groups, widespread in soil, freshwater, estuarine, and marine ecosystems. Like all invertebrates, they lack adaptive immunity; however, they are endowed with an effective and complex innate immune system (humoral and cellular defenses) similar to vertebrates. The lack of acquired immunity and the capacity to form antibodies does not mean a lack of specificity: invertebrates have evolved genetic mechanisms capable of producing thousands of different proteins from a small number of genes, providing high variability and diversity of immune effector molecules just like their vertebrate counterparts. This diversity allows annelids and mollusks to recognize and eliminate a wide range of pathogens and respond to environmental stressors. Effector molecules can kill invading microbes, reduce their pathogenicity, or regulate the immune response at cellular and systemic levels. Annelids and mollusks are "typical" lophotrochozoan protostome since both groups include aquatic species with trochophore larvae, which unite both taxa in a common ancestry. Moreover, despite their extensive utilization in immunological research, no model systems are available as there are with other invertebrate groups, such as Caenorhabditis elegans or Drosophila melanogaster , and thus, their immune potential is largely unexplored. In this work, we focus on two classes of key soluble mediators of immunity, i.e., antimicrobial peptides (AMPs) and cytokines, in annelids and bivalves, which are the most studied mollusks. The mediators have been of interest from their first identification to recent advances in molecular studies that clarified their role in the immune response., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Canesi, Auguste, Balbi and Prochazkova.)
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- 2022
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24. Methodological Approaches To Assess Innate Immunity and Innate Memory in Marine Invertebrates and Humans.
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Auguste M, Melillo D, Corteggio A, Marino R, Canesi L, Pinsino A, Italiani P, and Boraschi D
- Abstract
Assessing the impact of drugs and contaminants on immune responses requires methodological approaches able to represent real-life conditions and predict long-term effects. Innate immunity/inflammation is the evolutionarily most widespread and conserved defensive mechanism in living organisms, and therefore we will focus here on immunotoxicological methods that specifically target such processes. By exploiting the conserved mechanisms of innate immunity, we have examined the most representative immunotoxicity methodological approaches across living species, to identify common features and human proxy models/assays. Three marine invertebrate organisms are examined in comparison with humans, i.e. , bivalve molluscs, tunicates and sea urchins. In vivo and in vitro approaches are compared, highlighting common mechanisms and species-specific endpoints, to be applied in predictive human and environmental immunotoxicity assessment. Emphasis is given to the 3R principle of Replacement, Refinement and Reduction of Animals in Research and to the application of the ARRIVE guidelines on reporting animal research, in order to strengthen the quality and usability of immunotoxicology research data., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Auguste, Melillo, Corteggio, Marino, Canesi, Pinsino, Italiani and Boraschi.)
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- 2022
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25. SCHeMA EU Project Summer School Report (Bilbao June 16 - 17, 2016).
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Akter M, Auguste M, Bir J, Blanco E, Briaudeau T, Dapueto G, de Cerio D, Coccoli C, Creemers M, Espino M, Gain D, Gil-Uriarte E, Grimaldi C, Khalil SMI, Lopez A, Rementeria A, Roch M, Rodriguez A, Roman O, Ruoyu H, Abdou M, Crespi MC, Botia MC, Fighera M, Gil-Diaz T, Kowal JL, Luxenburger F, Mirasole C, Pankratova N, Penezic A, Zieger S, Tercier-Waeber ML, and Nardin C
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- Biosensing Techniques methods, Carbon Cycle, Metals analysis, Volatile Organic Compounds analysis, Ecology education, Environmental Monitoring methods
- Abstract
This conference report describes the training activities that took place in the frame of the Integrated in Situ Chemical MApping probe (SCHeMA) summer school organized from the 14th to the 16th of June 2016 in Bilbao (Spain).
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- 2017
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