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7. Transcriptome Profiles Associated to VHSV Infection or DNA Vaccination in Turbot (Scophthalmus maximus).

Author

Pereiro, Patricia, Dios, Sonia, Boltaña, Sebastián, Coll, Julio, Estepa, Amparo, Mackenzie, Simon, Novoa, Beatriz, and Figueras, Antonio

Subjects
GENETIC transcription, SEPSIS, MOLECULAR biology, PSETTA maxima, VIRAL hemorrhagic septicemia, HEMORRHAGIC septicemia, DNA vaccines, FISHES
Abstract

DNA vaccines encoding the viral G glycoprotein show the most successful protection capability against fish rhabdoviruses. Nowadays, the molecular mechanisms underlying the protective response remain still poorly understood. With the aim of shedding light on the protection conferred by the DNA vaccines based in the G glycoprotein of viral haemorrhagic septicaemia virus (VHSV) in turbot (Scophthalmus maximus) we have used a specific microarray highly enriched in antiviral sequences to carry out the transcriptomic study associated to VHSV DNA vaccination/infection. The differential gene expression pattern in response to empty plasmid (pMCV1.4) and DNA vaccine (pMCV1.4-G860) intramuscular administration with regard to non-stimulated turbot was analyzed in head kidney at 8, 24 and 72 hours post-vaccination. Moreover, the effect of VHSV infection one month after immunization was also analyzed in vaccinated and non-vaccinated fish at the same time points. Genes implicated in the Toll-like receptor signalling pathway, IFN inducible/regulatory proteins, numerous sequences implicated in apoptosis and cytotoxic pathways, MHC class I antigens, as well as complement and coagulation cascades among others were analyzed in the different experimental groups. Fish receiving the pMCV1.4-G860 vaccine showed transcriptomic patterns very different to the ones observed in pMCV1.4-injected turbot after 72 h. On the other hand, VHSV challenge in vaccinated and non-vaccinated turbot induced a highly different response at the transcriptome level, indicating a very relevant role of the acquired immunity in vaccinated fish able to alter the typical innate immune response profile observed in non-vaccinated individuals. This exhaustive transcriptome study will serve as a complete overview for a better understanding of the crosstalk between the innate and adaptive immune response in fish after viral infection/vaccination. Moreover, it provides interesting clues about molecules with a potential use as vaccine adjuvants, antiviral treatments or markers for vaccine efficiency monitoring. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
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8. Increasing Versatility of the DNA Vaccines through Modification of the Subcellular Location of Plasmid-Encoded Antigen Expression in the In Vivo Transfected Cells.

Author

Martinez-Lopez, Alicia, García-Valtanen, Pablo, Ortega-Villaizan, María del Mar, Chico, Verónica, Medina-Gali, Regla María, Perez, Luis, Coll, Julio, and Estepa, Amparo

Subjects
DNA vaccines, SUBCELLULAR fractionation, PLASMID genetics, GENETIC code, GLYCOPROTEIN genetics, SEPSIS
Abstract

The route of administration of DNA vaccines can play a key role in the magnitude and quality of the immune response triggered after their administration. DNA vaccines containing the gene of the membrane-anchored glycoprotein (gpG) of the fish rhabdoviruses infectious haematopoietic necrosis virus (IHNV) or viral haematopoietic septicaemia virus (VHSV), perhaps the most effective DNA vaccines generated so far, confer maximum protection when injected intramuscularly in contrast to their low efficacy when injected intraperitoneally. In this work, taking as a model the DNA vaccine against VHSV, we focused on developing a more versatile DNA vaccine capable of inducing protective immunity regardless of the administration route used. For that, we designed two alternative constructs to gpG1-507 (the wild type membrane-anchored gpG of VHSV) encoding either a soluble (gpG1-462) or a secreted soluble (gpGLmPle20-462) form of the VHSV-gpG. In vivo immunisation/challenge assays showed that only gpGLmPle20-462 (the secreted soluble form) conferred protective immunity against VHSV lethal challenge via both intramuscular and intraperitoneal injection, being this the first description of a fish viral DNA vaccine that confers protection when administered intraperitoneally. Moreover, this new DNA vaccine construct also conferred protection when administered in the presence of an oil adjuvant suggesting that DNA vaccines against rhabdoviruses could be included in the formulation of current multicomponent-intaperitoneally injectable fish vaccines formulated with an oil adjuvant. On the other hand, a strong recruitment of membrane immunoglobulin expressing B cells, mainly membrane IgT, as well as t-bet expressing T cells, at early times post-immunisation, was specifically observed in the fish immunised with the secreted soluble form of the VHSV-gpG protein; this may indicate that the subcellular location of plasmid-encoded antigen expression in the in vivo transfected cells could be an important factor in determining the ways in which DNA vaccines prime the immune response. [ABSTRACT FROM AUTHOR]

Published
2013
Full Text
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9. Hydroxycholesterol binds and enhances the anti-viral activities of zebrafish monomeric c-reactive protein isoforms

Author

Luis Perez, Alberto Falco, Melissa Bello-Perez, Julio Coll, Beatriz Novoa, Generalitat Valenciana, Ministerio de Economía y Competitividad (España), Coll, Julio [0000-0001-8496-3493], and Coll, Julio

Subjects
0301 basic medicine, Protein Sequencing, Biochemistry, Polyacrylamide Gel Electrophoresis, Database and Informatics Methods, Fish Diseases, 0302 clinical medicine, Zebrafish, Gel Electrophoresis, Multidisciplinary, biology, Chemistry, Monomers, Eukaryota, Animal Models, Lipids, Cell biology, Cholesterol, C-Reactive Protein, Experimental Organism Systems, Osteichthyes, 030220 oncology & carcinogenesis, Vertebrates, Physical Sciences, Medicine, Rhabdoviridae, Sequence Analysis, Research Article, Gene isoform, animal structures, Bioinformatics, In silico, Science, Danio, Research and Analysis Methods, Microbiology, Virus, Cell Line, Electrophoretic Techniques, 03 medical and health sciences, Model Organisms, Virology, Rhabdoviridae Infections, Animals, Molecular Biology Techniques, Sequencing Techniques, Molecular Biology, Gene, Organisms, Biology and Life Sciences, Zebrafish Proteins, Polymer Chemistry, biology.organism_classification, Hydroxycholesterols, In vitro, Fish, 030104 developmental biology, Cell culture, Animal Studies, Sequence Alignment, Viral Transmission and Infection
Abstract

23 pages, 7 figures.-- This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited., C-reactive proteins (CRPs) are among the faster acute-phase inflammation-responses proteins encoded by one gene (hcrp) in humans and seven genes (crp1-7) in zebrafish (Danio rerio) with importance in bacterial and viral infections. In this study, we described novel preferential bindings of 25-hydroxycholesterol (25HOCh) to CRP1-7 compared with other lipids and explored the antiviral effects of both 25HOCh and CRP1-7 against spring viremia carp virus (SVCV) infection in zebrafish. Both in silico and in vitro results confirmed the antiviral effect of 25HOCh and CRP1-7 interactions, thereby showing that the crosstalk between them differed among the zebrafish isoforms. The presence of oxidized cholesterols in human atherosclerotic plaques amplifies the importance that similar interactions may occur for vascular and/or neurodegenerative diseases during viral infections. In this context, thezebrafish model offers a genetic tool to further investigate these interactions., Melissa Bello-Perez was financed by the Generalidad Valenciana, fellowship ACIF/2016. This work was supported by CICYT projects AGL2014-51773-C3-R and BIO2017-82851 of the Ministerio de Economía, Industria y Competitividad of Spain.

Published
2019

10. Transcriptome Profiles Associated to VHSV Infection or DNA Vaccination in Turbot (Scophthalmus maximus).

Author

Pereiro, Patricia, Dios, Sonia, Boltaña, Sebastián, Coll, Julio, Estepa, Amparo, Mackenzie, Simon, Novoa, Beatriz, and Figueras, Antonio

Subjects
*GENETIC transcription, *SEPSIS, *MOLECULAR biology, *PSETTA maxima, *VIRAL hemorrhagic septicemia, *HEMORRHAGIC septicemia, *DNA vaccines, *FISHES
Abstract

DNA vaccines encoding the viral G glycoprotein show the most successful protection capability against fish rhabdoviruses. Nowadays, the molecular mechanisms underlying the protective response remain still poorly understood. With the aim of shedding light on the protection conferred by the DNA vaccines based in the G glycoprotein of viral haemorrhagic septicaemia virus (VHSV) in turbot (Scophthalmus maximus) we have used a specific microarray highly enriched in antiviral sequences to carry out the transcriptomic study associated to VHSV DNA vaccination/infection. The differential gene expression pattern in response to empty plasmid (pMCV1.4) and DNA vaccine (pMCV1.4-G860) intramuscular administration with regard to non-stimulated turbot was analyzed in head kidney at 8, 24 and 72 hours post-vaccination. Moreover, the effect of VHSV infection one month after immunization was also analyzed in vaccinated and non-vaccinated fish at the same time points. Genes implicated in the Toll-like receptor signalling pathway, IFN inducible/regulatory proteins, numerous sequences implicated in apoptosis and cytotoxic pathways, MHC class I antigens, as well as complement and coagulation cascades among others were analyzed in the different experimental groups. Fish receiving the pMCV1.4-G860 vaccine showed transcriptomic patterns very different to the ones observed in pMCV1.4-injected turbot after 72 h. On the other hand, VHSV challenge in vaccinated and non-vaccinated turbot induced a highly different response at the transcriptome level, indicating a very relevant role of the acquired immunity in vaccinated fish able to alter the typical innate immune response profile observed in non-vaccinated individuals. This exhaustive transcriptome study will serve as a complete overview for a better understanding of the crosstalk between the innate and adaptive immune response in fish after viral infection/vaccination. Moreover, it provides interesting clues about molecules with a potential use as vaccine adjuvants, antiviral treatments or markers for vaccine efficiency monitoring. [ABSTRACT FROM AUTHOR]

Published
2014
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11. Identification of Multipath Genes Differentially Expressed in Pathway-Targeted Microarrays in Zebrafish Infected and Surviving Spring Viremia Carp Virus (SVCV) Suggest Preventive Drug Candidates

Author

Blanca Chinchilla, Julio Coll, P. Encinas, Pablo Garcia-Valtanen, Amparo Estepa, E. Gomez-Casado, Encinas, Paloma, Garcia-Valtanen, Pablo, Chinchilla, Blanca, Gomez-Casado, Eduardo, Estepa, Amparo, and Coll, Julio

Subjects
kidneys, lcsh:Medicine, Viremia, Virus, Fish Diseases, viral gene expression, medicine, Animals, KEGG, lcsh:Science, Transcription factor, Zebrafish, Gene, microarrays, Genetics, Multidisciplinary, biology, lcsh:R, Vesiculovirus, biology.organism_classification, medicine.disease, toll-like receptors, gene expression, Human genome, lcsh:Q, spleen, DNA microarray, Research Article
Abstract

Spring viremia carp virus (SVCV) is a rhabdovirus seasonally affecting warm-water cyprinid fish farming causing high impacts in worldwide economy. Because of the lack of effective preventive treatments, the identification of multipath genes involved in SVCV infection might be an alternative to explore the possibilities of using drugs for seasonal prevention of this fish disease. Because the zebrafish (Danio rerio) is a cyprinid susceptible to SVCV and their genetics and genome sequence are well advanced, it has been chosen as a model for SVCV infections. We have used newly designed pathway-targeted microarrays 3-4-fold enriched for immune/infection functional-relevant probes by using zebrafish orthologous to human genes from selected pathways of the Kyoto Encyclopedia of Genes and Genomes (KEGG). The comparative analysis of differential expression of genes through 20 pathways in 2-day exposed or 30-day survivors of SVCV infection allowed the identification of 16 multipath genes common to more than 6 pathways. In addition, receptors (Toll-like, B-cell, T-cell, RIG1-like) as well as viral RNA infection pathways were identified as the most important human-like pathways targeted by SVCV infection. Furthermore, by using bioinformatic tools to compare the promoter sequences corresponding to up and downregulated multipath gene groups, we identified putative common transcription factors which might be controlling such responses in a coordinated manner. Possible drug candidates to be tested in fish, can be identified now through search of data bases among those associated with the human orthologous to the zebrafish multipath genes. With the use of pathway-targeted microarrays, we identified some of the most important genes and transcription factors which might be implicated in viral shutoff and/or host survival responses after SVCV infection. These results could contribute to develop novel drug-based prevention methods and consolidate the zebrafish/SVCV as a model for vertebrate viral diseases. Refereed/Peer-reviewed

Published
2013

12. Increasing versatility of the DNA vaccines through modification of the subcellular location of plasmid-encoded antigen expression in the in vivo transfected cells

Author

Regla María Medina-Gali, Maria del Mar Ortega-Villaizan, Luis Perez, Pablo Garcia-Valtanen, Amparo Estepa, Julio Coll, A. Martinez-Lopez, Veronica Chico, Martinez-Lopez, Alicia, Garcia-Valtanen, Pablo, Del, Mar Ortega-Villaizan Maria, Chico, Verónica, Medina-Gali, Regla Maria, Perez, Luis, Coll, Julio, and Estepa, Amparo

Subjects
Oncorhynchus, Gene Expression, lcsh:Medicine, Antibodies, Viral, DNA vaccination, Virus, Cell Line, Fish Diseases, Plasmid, Immune system, Antigen, Hemorrhagic Septicemia, Viral, Vaccines, DNA, Animals, antibodies, lcsh:Science, Antigens, Viral, Viral Structural Proteins, trout, B cells, Multidisciplinary, biology, Viral Vaccine, lcsh:R, Viral Vaccines, vaccines, Virology, cell cultures, Cell culture, biology.protein, Immunization, lcsh:Q, enzyme-linked immunity, Antibody, Research Article
Abstract

The route of administration of DNA vaccines can play a key role in the magnitude and quality of the immune response triggered after their administration. DNA vaccines containing the gene of the membrane-anchored glycoprotein (gpG) of the fish rhabdoviruses infectious haematopoietic necrosis virus (IHNV) or viral haematopoietic septicaemia virus (VHSV), perhaps the most effective DNA vaccines generated so far, confer maximum protection when injected intramuscularly in contrast to their low efficacy when injected intraperitoneally. In this work, taking as a model the DNA vaccine against VHSV, we focused on developing a more versatile DNA vaccine capable of inducing protective immunity regardless of the administration route used. For that, we designed two alternative constructs to gpG1-507 (the wild type membrane-anchored gpG of VHSV) encoding either a soluble (gpG1-462) or a secreted soluble (gpGLmPle20-462) form of the VHSV-gpG. In vivo immunisation/challenge assays showed that only gpGLmPle20-462 (the secreted soluble form) conferred protective immunity against VHSV lethal challenge via both intramuscular and intraperitoneal injection, being this the first description of a fish viral DNA vaccine that confers protection when administered intraperitoneally. Moreover, this new DNA vaccine construct also conferred protection when administered in the presence of an oil adjuvant suggesting that DNA vaccines against rhabdoviruses could be included in the formulation of current multicomponent-intaperitoneally injectable fish vaccines formulated with an oil adjuvant. On the other hand, a strong recruitment of membrane immunoglobulin expressing B cells, mainly membrane IgT, as well as t-bet expressing T cells, at early times post-immunisation, was specifically observed in the fish immunised with the secreted soluble form of the VHSV-gpG protein; this may indicate that the subcellular location of plasmid-encoded antigen expression in the in vivo transfected cells could be an important factor in determining the ways in which DNA vaccines prime the immune response. © 2013 Martinez-Lopez et al.

Published
2013

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