Salmonid alphavirus (SAV)

AbstractSalmonid alphavirus (SAV), genus Alphavirus, family Togaviridae, is a single-stranded RNA virus affecting Atlantic salmon (Salmo salar) and rainbow trout (Oncorhynchus mykiss). It is known to be responsible for pancreas disease (PD) and sleeping disease (SD) which are increasing problems, causing high fish mortality and economic losses in the European aquaculture industry. Pancreas disease was first described in Atlantic salmon in Scotland in 1976 and a similar disease caused by the closely related sleeping disease virus was first described in rainbow trout in France. There have also been reports of salmonid alphavirus infections from other European countries, including Ireland, England, Norway, Germany, Italy, and Spain. Salmonid alphaviruses have been classified into six subtypes (SAV1–6). SAV1 and SAV4–6 cause pancreas disease in Atlantic salmon in Ireland or Scotland, SAV2 is the causative agent of sleeping disease in rainbow trout, and SAV3 has been detected in Atlantic salmon in Norway. The aim of this paper was to summarise current knowledge of infections caused by salmonid alphavirus and diagnostic methods including the newest techniques, and to briefly describe prevention from SAV infections by vaccination.

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Comparison of Two Aquatic Alphaviruses, Salmon Pancreas Disease Virus and Sleeping Disease Virus, by Using Genome Sequence Analysis, Monoclonal Reactivity, and Cross-Infection

Journal of Virology ◽

10.1128/jvi.76.12.6155-6163.2002 ◽

2002 ◽

Vol 76 (12) ◽

pp. 6155-6163 ◽

Cited By ~ 98

Author(s):

Jonathan Weston ◽

Stéphane Villoing ◽

Michel Brémont ◽

Jeanette Castric ◽

Martin Pfeffer ◽

...

Keyword(s):

Rainbow Trout ◽

Amino Acid ◽

Atlantic Salmon ◽

Disease Virus ◽

Antigenic Variation ◽

Encephalitis Virus ◽

Virus Species ◽

Pancreas Disease ◽

Equine Encephalitis Virus ◽

Salmon Pancreas Disease Virus

ABSTRACT Cell culture isolates of salmon pancreas disease virus (SPDV) of farmed Atlantic salmon and sleeping disease virus (SDV) of rainbow trout were compared. Excluding the poly(A) tracts, the genomic nucleotide sequences of SPDV and SDV RNAs include 11,919 and 11,900 nucleotides, respectively. Phylogenetic analysis places SPDV and SDV between the New World viruses of Venezuelan equine encephalitis virus and Eastern equine encephalitis virus and the Old World viruses of Aura virus and Sindbis virus. When compared to each other, SPDV and SDV show 91.1% nucleotide sequence identity over their complete genomes, with 95 and 93.6% amino acid identities over their nonstructural and structural proteins, respectively. Notable differences between the two viruses include a 24-nucleotide insertion in the C terminus of nsP3 protein of SPDV and amino acid sequence variation at the C termini of the capsid and E1 proteins. Experimental infections of Atlantic salmon and rainbow trout with SPDV and SDV confirmed that the disease lesions induced by SPDV and SDV were similar in nature. Although infections with SPDV and SDV produced similar levels of histopathology in rainbow trout, SDV induced significantly less severe lesions in salmon than did SPDV. Virus neutralization tests performed with sera from experimentally infected salmon indicated that SPDV and SDV belonged to the same serotype; however, antigenic variation was detected among SDV and geographically different SPDV isolates by using monoclonal antibodies. Although SPDV and SDV exhibit minor biological differences, we conclude on the basis of the close genetic similarity that SPDV and SDV are closely related isolates of the same virus species for which the name Salmonid alphavirus is proposed.

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Risk factors for pancreas disease (PD) outbreaks in farmed Atlantic salmon and rainbow trout in Norway during 2003–2007

Preventive Veterinary Medicine ◽

10.1016/j.prevetmed.2009.04.003 ◽

2009 ◽

Vol 90 (1-2) ◽

pp. 127-136 ◽

Cited By ~ 81

Author(s):

A.B. Kristoffersen ◽

H. Viljugrein ◽

R.T. Kongtorp ◽

E. Brun ◽

P.A. Jansen

Keyword(s):

Risk Factors ◽

Rainbow Trout ◽

Atlantic Salmon ◽

Pancreas Disease ◽

Farmed Atlantic Salmon

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Pancreas disease in farmed Atlantic salmon, Salmo salar L., and rainbow trout, Oncorhynchus mykiss (Walbaum), in Norway

Journal of Fish Diseases ◽

10.1111/j.1365-2761.2007.00845.x ◽

2007 ◽

Vol 30 (9) ◽

pp. 545-558 ◽

Cited By ~ 69

Author(s):

T Taksdal ◽

A B Olsen ◽

I Bjerkås ◽

M J Hjortaas ◽

B H Dannevig ◽

...

Keyword(s):

Rainbow Trout ◽

Atlantic Salmon ◽

Oncorhynchus Mykiss ◽

Salmo Salar ◽

Pancreas Disease ◽

Atlantic Salmon Salmo Salar ◽

Rainbow Trout Oncorhynchus Mykiss ◽

Farmed Atlantic Salmon

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Staphylococcus xylosus Infection in Rainbow Trout (Oncorhynchus mykiss) As a Primary Pathogenic Cause of Eye Protrusion and Mortality

Microorganisms ◽

10.3390/microorganisms7090330 ◽

2019 ◽

Vol 7 (9) ◽

pp. 330 ◽

Cited By ~ 1

Author(s):

Woo Taek Oh ◽

Jin Woo Jun ◽

Sib Sankar Giri ◽

Saekil Yun ◽

Hyoun Joong Kim ◽

...

Keyword(s):

Rainbow Trout ◽

Bacterial Infections ◽

Clinical Symptoms ◽

Resistance Mechanism ◽

Staphylococcal Infection ◽

Fish Mortality ◽

Economic Losses ◽

Global Public Health ◽

Potential Threat ◽

Staphylococcus Xylosus

Staphylococcal infections are extensively investigated in humans owing to the resistance of staphylococci to diverse antibiotics commonly used in hospitals. The resistance mechanism of methicillin-resistant Staphylococcus aureus has garnered the interest of researchers due to its risk to the global public health. Furthermore, the zoonotic potential of staphylococci has led to increased interest in their transmission mechanism via food, livestock, as well as domestic and wild animals. Although fish are globally consumed, there are only few studies on the potential threat of staphylococcal infection in aquatic animals. In this study, we present the first description of Staphylococcus xylosus infection and its pathogenicity in rainbow trout, which resulted in fish mortality and economic losses in trout fisheries. We focused on the pathogenic role of the bacterium and its influence on rainbow trout based on the clinical symptoms in the eyes. Staphylococcus xylosus infection induced exophthalmia and disrupted the primary immune barrier, which increased the possibility of other secondary bacterial infections in fish under poor conditions, resulting in continuous mortality.

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Comparative experimental transmission of pancreas disease in Atlantic salmon, rainbow trout and brown trout

Diseases of Aquatic Organisms ◽

10.3354/dao022019 ◽

1995 ◽

Vol 22 ◽

pp. 19-24 ◽

Cited By ~ 20

Author(s):

P Boucher ◽

RS Raynard ◽

G Houghton ◽

F Baudin Laurencin

Keyword(s):

Rainbow Trout ◽

Atlantic Salmon ◽

Brown Trout ◽

Pancreas Disease ◽

Experimental Transmission

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Enterovirus D-68 Molecular Virology, Epidemiology, and Treatment: an update and way forward

Infectious Disorders - Drug Targets ◽

10.2174/1871526520666200715101230 ◽

2020 ◽

Vol 20 ◽

Author(s):

Mahmoud Ahmed Ebada ◽

Notila Fayed ◽

Souad Alkanj ◽

Ahmed Wadaa Allah

Keyword(s):

Current Knowledge ◽

Rna Virus ◽

Neurological Diseases ◽

Cross Reactivity ◽

Serological Tests ◽

Molecular Virology ◽

Acute Flaccid Myelitis ◽

The Family ◽

Pcr Products ◽

Enterovirus D68

: Enterovirus D68 (EV-D68) is a single-stranded positive-sense RNA virus, and it is one of the family Picornaviridae. Except for EV-D68, the family Picornaviridae has been illustrated in literature. EV-D68 was first discovered and isolated in California, USA, in 1962. EV-D68 has resulted in respiratory disorders’ outbreaks among children worldwide, and it has been detected in cases of various neurological diseases such as acute flaccid myelitis (AFM). A recent study documented a higher number of EV-D68 cases associated with AFM in Europe in 2016 compared to the 2014 outbreak. EV-D68 is mainly diagnosed by quantitative PCR, and there is an affirmative strategy for EV-D68 detection by using pan-EV PCR on the untranslated region and/or the VP1 or VP2, followed by sequencing of the PCR products. Serological tests are limited due to cross-reactivity of the antigens between the different serotypes. Many antiviral drugs for EV-D68 have been evaluated, and showed promising results. In our review, we discuss the current knowledge about EV-D68 and its role in the development of AFM.

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Effect of vaccines against pancreas disease in farmed Atlantic salmon

Journal of Fish Diseases ◽

10.1111/jfd.13505 ◽

2021 ◽

Author(s):

Magnus Vikan Røsæg ◽

Ragnar Thorarinsson ◽

Arnfinn Aunsmo

Keyword(s):

Atlantic Salmon ◽

Pancreas Disease ◽

Farmed Atlantic Salmon

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The Effect of Gut Bacteria on the Physiology of Red Palm Weevil, Rhynchophorus ferrugineus Olivier and Their Potential for the Control of This Pest

Insects ◽

10.3390/insects12070594 ◽

2021 ◽

Vol 12 (7) ◽

pp. 594

Author(s):

Qian-Xia Liu ◽

Zhi-Ping Su ◽

Hui-Hui Liu ◽

Sheng-Ping Lu ◽

Bing Ma ◽

...

Keyword(s):

Molecular Mechanisms ◽

Current Knowledge ◽

Management Strategies ◽

Gut Bacteria ◽

Economic Losses ◽

Rhynchophorus Ferrugineus ◽

Intestinal Immunity ◽

Red Palm Weevil ◽

Nutrient Metabolism ◽

Palm Weevil

Red Palm Weevil (RPW), Rhynchophorus ferrugineus Olivier, is a notorious pest, which infests palm trees and has caused great economic losses worldwide. At present, insecticide applications are still the main way to control this pest. However, pesticide resistance has been detected in the field populations of RPW. Thus, future management strategies based on the novel association biological control need be developed. Recent studies have shown that the intestinal tract of RPW is often colonized by multiple microbial species as mammals and model insects, and gut bacteria have been found to promote the growth, development and immune activity of RPW larvae by modulating nutrient metabolism. Furthermore, two peptidoglycan recognition proteins (PGRPs), PGRP-LB and PGRP-S1, can act as the negative regulators to modulate the intestinal immunity to maintain the homeostasis of gut bacteria in RPW larvae. Here, we summarized the current knowledge on the gut bacterial composition of RPW and their impact on the physiological traits of RPW larvae. In contrast with metazoans, it is much easier to make genetic engineered microbes to produce some active molecules against pests. From this perspective, because of the profound effects of gut bacteria on host phenotypes, it is promising to dissect the molecular mechanisms behind their effect on host physiology and facilitate the development of microbial resource-based management methods for pest control.

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Genome-scale comparative analysis for host resistance against sea lice between Atlantic salmon and rainbow trout

Scientific Reports ◽

10.1038/s41598-021-92425-3 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Pablo Cáceres ◽

Agustín Barría ◽

Kris A. Christensen ◽

Liane N. Bassini ◽

Katharina Correa ◽

...

Keyword(s):

Rainbow Trout ◽

Atlantic Salmon ◽

Candidate Genes ◽

Protein Phosphatase ◽

Sea Lice ◽

Genome Wide Association Studies ◽

Dual Specificity ◽

Dual Specificity Protein Phosphatase ◽

Genomic Regions ◽

Specificity Protein

AbstractSea lice (Caligus rogercresseyi) is an ectoparasite which causes major production losses in the salmon aquaculture industry worldwide. Atlantic salmon (Salmo salar) and rainbow trout (Oncorhynchus mykiss) are two of the most susceptible salmonid species to sea lice infestation. The objectives of this study were to: (1) identify genomic regions associated with resistance to Caligus rogercresseyi in Atlantic salmon and rainbow trout by performing single-step Genome-Wide Association studies (ssGWAS), and (2) identify candidate genes related to trait variation based on exploring orthologous genes within the associated regions across species. A total of 2626 Atlantic salmon and 2643 rainbow trout were challenged and genotyped with 50 K and 57 K SNP panels, respectively. We ran two independent ssGWAS for sea lice resistance on each species and identified 7 and 13 regions explaining more than 1% of the genetic variance for the trait, with the most important regions explaining 3% and 2.7% for Atlantic salmon and rainbow trout, respectively. We identified genes associated with immune response, cytoskeleton function, and cell migration when focusing on important genomic regions for each species. Moreover, we found 15 common orthogroups which were present in more than one associated genomic region, within- or between-species; however, only one orthogroup showed a clear potential biological relevance in the response against sea lice. For instance, dual-specificity protein phosphatase 10-like (dusp10) and dual-specificity protein phosphatase 8 (dusp8) were found in genomic regions associated with lice density in Atlantic salmon and rainbow trout, respectively. Dusp10 and dusp8 are modulators of the MAPK pathway and might be involved in the differences of the inflammation response between lice resistant and susceptible fish from both species. Our results provide further knowledge on candidate genes related to sea lice resistance and may help establish better control for sea lice in fish populations.

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