Antiviral activity of casein and αs2 casein hydrolysates against the infectious haematopoietic necrosis virus, a rhabdovirus from salmonid fish

Salmonid fish viruses, such as infectious haematopoietic necrosis virus (IHNV), are responsible for serious losses in the rainbow trout and salmon‐farming industries, and they have been the subject of intense research in the field of aquaculture. Thus, the aim of this work is to study the antiviral...

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Published inJournal of fish diseases Vol. 36; no. 5; pp. 467 - 481
Main Authors Rodríguez Saint-Jean, S, De las Heras, A, Carrillo, W, Recio, I, Ortiz-Delgado, J B, Ramos, M, Gomez-Ruiz, J A, Sarasquete, C, Pérez-Prieto, S I
Format Journal Article
LanguageEnglish
Published England Blackwell Publishing Ltd 01.05.2013
Subjects
Animals
Antiviral Agents - pharmacology
antivirals
casein
Caseins - pharmacology
Cattle
Cell Line
Chromatography, High Pressure Liquid
Fish Diseases - immunology
Fish Diseases - prevention & control
Fish Diseases - virology
fish viruses
Infectious haematopoietic necrosis virus
Infectious hematopoietic necrosis virus - drug effects
Infectious hematopoietic necrosis virus - immunology
milk peptides
Oncorhynchus mykiss
Perciformes
Rhabdoviridae Infections - immunology
Rhabdoviridae Infections - prevention & control
Rhabdoviridae Infections - veterinary
Rhabdoviridae Infections - virology
Rhabdovirus
Salmonidae
Spectrometry, Mass, Electrospray Ionization
Tandem Mass Spectrometry
Trout
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Abstract Salmonid fish viruses, such as infectious haematopoietic necrosis virus (IHNV), are responsible for serious losses in the rainbow trout and salmon‐farming industries, and they have been the subject of intense research in the field of aquaculture. Thus, the aim of this work is to study the antiviral effect of milk‐derived proteins as bovine caseins or casein‐derived peptides at different stages during the course of IHNV infection. The results indicate that the 3‐h fraction of casein and αS2‐casein hydrolysates reduced the yield of infectious IHNV in a dose‐dependent manner and impaired the production of IHNV‐specific antigens. Hydrolysates of total casein and αS2‐casein target the initial and later stages of viral infection, as demonstrated by the reduction in the infective titre observed throughout multiple stages and cycles. In vivo, more than 50% protection was observed in the casein‐treated fish, and the kidney sections exhibited none of the histopathological characteristics of IHNV infection. The active fractions from casein were identified, as well as one of the individual IHNV‐inhibiting peptides. Further studies will be required to determine which other peptides possess this activity. These findings provide a basis for future investigations on the efficacy of these compounds in treating other viral diseases in farmed fish and to elucidate the underlying molecular mechanisms of action. However, the present results provide convincing evidence in support of a role for several milk casein fractions as suitable candidates to prevent and treat some fish viral infections.
AbstractList Salmonid fish viruses, such as infectious haematopoietic necrosis virus (IHNV), are responsible for serious losses in the rainbow trout and salmon-farming industries, and they have been the subject of intense research in the field of aquaculture. Thus, the aim of this work is to study the antiviral effect of milk-derived proteins as bovine caseins or casein-derived peptides at different stages during the course of IHNV infection. The results indicate that the 3-h fraction of casein and alpha S2-casein hydrolysates reduced the yield of infectious IHNV in a dose-dependent manner and impaired the production of IHNV-specific antigens. Hydrolysates of total casein and alpha S2-casein target the initial and later stages of viral infection, as demonstrated by the reduction in the infective titre observed throughout multiple stages and cycles. In vivo, more than 50% protection was observed in the casein-treated fish, and the kidney sections exhibited none of the histopathological characteristics of IHNV infection. The active fractions from casein were identified, as well as one of the individual IHNV-inhibiting peptides. Further studies will be required to determine which other peptides possess this activity. These findings provide a basis for future investigations on the efficacy of these compounds in treating other viral diseases in farmed fish and to elucidate the underlying molecular mechanisms of action. However, the present results provide convincing evidence in support of a role for several milk casein fractions as suitable candidates to prevent and treat some fish viral infections.
Salmonid fish viruses, such as infectious haematopoietic necrosis virus (IHNV), are responsible for serious losses in the rainbow trout and salmon-farming industries, and they have been the subject of intense research in the field of aquaculture. Thus, the aim of this work is to study the antiviral effect of milk-derived proteins as bovine caseins or casein-derived peptides at different stages during the course of IHNV infection. The results indicate that the 3-h fraction of casein and α(S2) -casein hydrolysates reduced the yield of infectious IHNV in a dose-dependent manner and impaired the production of IHNV-specific antigens. Hydrolysates of total casein and α(S2) -casein target the initial and later stages of viral infection, as demonstrated by the reduction in the infective titre observed throughout multiple stages and cycles. In vivo, more than 50% protection was observed in the casein-treated fish, and the kidney sections exhibited none of the histopathological characteristics of IHNV infection. The active fractions from casein were identified, as well as one of the individual IHNV-inhibiting peptides. Further studies will be required to determine which other peptides possess this activity. These findings provide a basis for future investigations on the efficacy of these compounds in treating other viral diseases in farmed fish and to elucidate the underlying molecular mechanisms of action. However, the present results provide convincing evidence in support of a role for several milk casein fractions as suitable candidates to prevent and treat some fish viral infections.
Salmonid fish viruses, such as infectious haematopoietic necrosis virus (IHNV), are responsible for serious losses in the rainbow trout and salmon‐farming industries, and they have been the subject of intense research in the field of aquaculture. Thus, the aim of this work is to study the antiviral effect of milk‐derived proteins as bovine caseins or casein‐derived peptides at different stages during the course of IHNV infection. The results indicate that the 3‐h fraction of casein and αS2‐casein hydrolysates reduced the yield of infectious IHNV in a dose‐dependent manner and impaired the production of IHNV‐specific antigens. Hydrolysates of total casein and αS2‐casein target the initial and later stages of viral infection, as demonstrated by the reduction in the infective titre observed throughout multiple stages and cycles. In vivo, more than 50% protection was observed in the casein‐treated fish, and the kidney sections exhibited none of the histopathological characteristics of IHNV infection. The active fractions from casein were identified, as well as one of the individual IHNV‐inhibiting peptides. Further studies will be required to determine which other peptides possess this activity. These findings provide a basis for future investigations on the efficacy of these compounds in treating other viral diseases in farmed fish and to elucidate the underlying molecular mechanisms of action. However, the present results provide convincing evidence in support of a role for several milk casein fractions as suitable candidates to prevent and treat some fish viral infections.
Salmonid fish viruses, such as infectious haematopoietic necrosis virus (IHNV), are responsible for serious losses in the rainbow trout and salmon-farming industries, and they have been the subject of intense research in the field of aquaculture. Thus, the aim of this work is to study the antiviral effect of milk-derived proteins as bovine caseins or casein-derived peptides at different stages during the course of IHNV infection. The results indicate that the 3-h fraction of casein and α(S2) -casein hydrolysates reduced the yield of infectious IHNV in a dose-dependent manner and impaired the production of IHNV-specific antigens. Hydrolysates of total casein and α(S2) -casein target the initial and later stages of viral infection, as demonstrated by the reduction in the infective titre observed throughout multiple stages and cycles. In vivo, more than 50% protection was observed in the casein-treated fish, and the kidney sections exhibited none of the histopathological characteristics of IHNV infection. The active fractions from casein were identified, as well as one of the individual IHNV-inhibiting peptides. Further studies will be required to determine which other peptides possess this activity. These findings provide a basis for future investigations on the efficacy of these compounds in treating other viral diseases in farmed fish and to elucidate the underlying molecular mechanisms of action. However, the present results provide convincing evidence in support of a role for several milk casein fractions as suitable candidates to prevent and treat some fish viral infections.Salmonid fish viruses, such as infectious haematopoietic necrosis virus (IHNV), are responsible for serious losses in the rainbow trout and salmon-farming industries, and they have been the subject of intense research in the field of aquaculture. Thus, the aim of this work is to study the antiviral effect of milk-derived proteins as bovine caseins or casein-derived peptides at different stages during the course of IHNV infection. The results indicate that the 3-h fraction of casein and α(S2) -casein hydrolysates reduced the yield of infectious IHNV in a dose-dependent manner and impaired the production of IHNV-specific antigens. Hydrolysates of total casein and α(S2) -casein target the initial and later stages of viral infection, as demonstrated by the reduction in the infective titre observed throughout multiple stages and cycles. In vivo, more than 50% protection was observed in the casein-treated fish, and the kidney sections exhibited none of the histopathological characteristics of IHNV infection. The active fractions from casein were identified, as well as one of the individual IHNV-inhibiting peptides. Further studies will be required to determine which other peptides possess this activity. These findings provide a basis for future investigations on the efficacy of these compounds in treating other viral diseases in farmed fish and to elucidate the underlying molecular mechanisms of action. However, the present results provide convincing evidence in support of a role for several milk casein fractions as suitable candidates to prevent and treat some fish viral infections.
Salmonid fish viruses, such as infectious haematopoietic necrosis virus ( IHNV ), are responsible for serious losses in the rainbow trout and salmon‐farming industries, and they have been the subject of intense research in the field of aquaculture. Thus, the aim of this work is to study the antiviral effect of milk‐derived proteins as bovine caseins or casein‐derived peptides at different stages during the course of IHNV infection. The results indicate that the 3‐h fraction of casein and α S2 ‐casein hydrolysates reduced the yield of infectious IHNV in a dose‐dependent manner and impaired the production of IHNV ‐specific antigens. Hydrolysates of total casein and α S2 ‐casein target the initial and later stages of viral infection, as demonstrated by the reduction in the infective titre observed throughout multiple stages and cycles. In vivo , more than 50% protection was observed in the casein‐treated fish, and the kidney sections exhibited none of the histopathological characteristics of IHNV infection. The active fractions from casein were identified, as well as one of the individual IHNV ‐inhibiting peptides. Further studies will be required to determine which other peptides possess this activity. These findings provide a basis for future investigations on the efficacy of these compounds in treating other viral diseases in farmed fish and to elucidate the underlying molecular mechanisms of action. However, the present results provide convincing evidence in support of a role for several milk casein fractions as suitable candidates to prevent and treat some fish viral infections.
Author Carrillo, W
Ortiz-Delgado, J B
Rodríguez Saint-Jean, S
Pérez-Prieto, S I
Ramos, M
Gomez-Ruiz, J A
De las Heras, A
Recio, I
Sarasquete, C
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Salonius K., Simard N., Harland R. & Ulmer J. (2007) The road to licensure of a DNA vaccine. Current Opinion in Investigational Drugs 8, 635-641.
Gutierrez M. (1967) Coloración histológica para ovarios de peces, crustáceos y moluscos. Investigacion Pesquera 31, 265-271.
Kurath G. & Leong J. (1985) Characterization of infectious hematopoietic necrosis virus mRNA species reveals a nonvirion rhabdovirus protein. Journal of Virology 53, 462-468.
Recio I. & Visser S. (1999a) Identification of two distinct antibacterial domains within the sequence of bovine alpha(s2)-casein. Biochimica et Biophysica Acta 1428, 314-326.
Chiou P.P., Lin C.M., Perez L. & Chen T.T. (2002) Effect of cecropin B and a synthetic analogue on propagation of fish viruses in vitro. Marine Biotechnology 4, 294-302.
Sarasquete C. & Gutierrez M. (2005) New tetrachromic VOF stain (Type III-G.S) for normal and pathological fish tissues. European Journal of Histochemistry 49, 105-114.
Recio I. & Visser S. (1999b) Two ion-exchange chromatographic methods for the isolation of antibacterial peptides from lactoferrin. In situ enzymatic hydrolysis on an ion-exchange membrane. Journal of Chromatography A 831, 191-201.
Rodríguez Saint-Jean S. & Pérez-Prieto S.I. (2006) Interferon mediated antiviral activity against salmonid fish viruses in BF-2 and other cell lines. Veterinary Immunology and Immunopathology 110, 1-10.
Berkhout B., Van Wamel J.L.B., Beljaars L., Meijer D.K.F., Visser S. & Floris R. (2002) Characterization of the anti-HIV effects of native lactoferrin and other milk proteins and protein-derived peptides. Antiviral Research 55, 341-355.
Perez-Prieto S., Garcia-Rosado E., Rodriguez S., Castro D. & Borrego J.J. (2001) Antigenic properties and experimental transmission to several fish species of a marine birnavirus isolated from sole (Solea senegalensis). Veterinary Microbiology 82, 11-25.
Alonso M., Stein D.A., Thomann E., Moulton H.M., Leong J.C., Iversen P. & Mourich D.V. (2005) Inhibition of infectious haematopoietic necrosis virus in cell cultures with peptide-conjugated morpholino oligomers. Journal of Fish Diseases 28, 399-410.
Vreeman H.J. & Van Riel J.A.M. (1990) The large-scale isolation of αs2-casein from bovine casein. Netherlands Milk and Dairy Journal 44, 43-48.
Enzmann P.J., Konrad M. & Rapp J. (1992) Epizootiological studies on viral hemorrhagic septicemia in brown trout Salmo trutta-fario. Diseases of Aquatic Organisms 12, 143-146.
Plumb J. (1999) Health Maintenance of cultured fishes: principal microbial diseases. Iowa State University Press, CRC Press, Boca Raton, Florida.
Alonso M., Rodríguez S. & Pérez-Prieto S. (1999) Viral coinfection in salmonids: infectious pancreatic necrosis virus interferes with infectious hematopoietic necrosis virus. Archives of Virology 144, 657-673.
Morzunov S., Winton J. & Nichol S. (1995) The complete genome structure and phylogenetic relationship of infectious hematopoietic necrosis virus. Virus Research 38, 175-192.
Kurath G., Higman K. & Björklund H. (1997) Distribution and variation of NV genes in fish rhabdoviruses. Journal of General Virology 78, 113-117.
Kimura T., Yoshimizu M., Ezura Y. & Kamei Y. (1990) An antiviral agent (46NW-04 A) produced by Pseudomonas sp and its activity against fish viruses. Journal of Aquatic Animal Health 2, 12-20.
Longhi G., Pietropaolo V., Mischitelli M., Longhi C., Conte M., Marchetti M., Tinari A., Valenti P., Degener A., Seganti L. & Superti F. (2006) Lactoferrin inhibits early steps of human BK polyomavirus infection. Antiviral Research 72, 145-152.
López-Expósito I., Minervini F., Amigo L. & Recio I. (2006) Identification of antibacterial peptides from bovine kappa-casein. Journal of Food Protection 69, 2992-2997.
Drolet B., Chiou P., Heidel J. & Leong J. (1995) Detection of truncated virus particles in a persistent RNA virus infection in vivo. Journal of Virology 69, 2140-2147.
Andersen J., Jenssen H., Sandvik K. & Gutteberg T. (2004) Anti-HSV activity of lactoferrin and lactoferricin is dependent on the presence of heparan sulphate at the cell surface. Journal of Medical Virology 74, 262-271.
Pan Y., Lee A., Wan J., Coventry M.J., Michalski W.P., Shiell B. & Roginski H. (2006) Antiviral properties of milk proteins and peptides. International Dairy Journal 16, 1252-1261.
Rodriguez S., Alonso M. & Perez-Prieto S.I. (2001) Detection of infections pancreatic necrosis virus (IPNV) from leukocytes of carrier rainbow trout Oncorhynchus mykiss. Fish Pathology 36, 139-146.
Alonso M., Rodríguez Saint-Jean S. & Pérez-Prieto S. (2003) Virulence of infectious hematopoietic necrosis virus and infectious pancreatic necrosis virus coinfection in rainbow trout (Oncorhynchus mykiss) and nucleotide sequence analysis of the IHNV glycoprotein gene. Archives of Virology 148, 1507-1521.
Rodriguez Saint-Jean S., Pérez Prieto S.-I., López-Expósito I., Ramos M., De Las Heras A.I. & Recio I. (2012) Antiviral activity of dairy proteins and hydrolysates on salmonid fish viruses. International Dairy Journal 23, 24-29.
Andersen J., Osbakk S., Vorland L., Traavik T. & Gutteberg T. (2001) Lactoferrin and cyclic lactoferricin inhibit the entry of human cytomegalovirus into human fibroblasts. Antiviral Research 51, 141-149.
López-Expósito I., Pellegrini A., Amigo L. & Recio I. (2008) Synergistic effect between different milk-derived peptides and proteins. Journal of Dairy Science 91, 2184-2189.
Reed J. & Muench H. (1938) A simple method for estimating fifty per cent endpoints. American Journal of Hygiene 27, 493-497.
1999a; 1428
1938; 27
2004; 61
2004; 323
2006; 72
1995; 38
1991; 10
2006; 16
2002; 55
2006; 110
2002; 4
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1999; 144
2005; 49
2005; 28
1992; 12
2005; 66
2008; 91
1999
1990; 2
2004; 74
2001; 82
1990; 44
1967; 31
2000
2010; 28
1995; 69
1999b; 831
2006; 69
2003; 9
1997; 78
2007; 8
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1999; 73
2003; 148
1985; 53
2012; 23
2001; 36
2001; 51
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e_1_2_6_10_1
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Vreeman H.J. (e_1_2_6_41_1) 1990; 44
Bootland L.M. (e_1_2_6_8_1) 1999
Van Regenmortel M. (e_1_2_6_40_1) 2000
Gutierrez M. (e_1_2_6_16_1) 1967; 31
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Plumb J. (e_1_2_6_30_1) 1999
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Sarasquete C. (e_1_2_6_39_1) 2005; 49
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Pérez S.I. (e_1_2_6_28_1) 1994
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SSID ssj0017516
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Snippet Salmonid fish viruses, such as infectious haematopoietic necrosis virus (IHNV), are responsible for serious losses in the rainbow trout and salmon‐farming...
Salmonid fish viruses, such as infectious haematopoietic necrosis virus ( IHNV ), are responsible for serious losses in the rainbow trout and salmon‐farming...
Salmonid fish viruses, such as infectious haematopoietic necrosis virus (IHNV), are responsible for serious losses in the rainbow trout and salmon-farming...
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StartPage 467
SubjectTerms Animals
Antiviral Agents - pharmacology
antivirals
casein
Caseins - pharmacology
Cattle
Cell Line
Chromatography, High Pressure Liquid
Fish Diseases - immunology
Fish Diseases - prevention & control
Fish Diseases - virology
fish viruses
Infectious haematopoietic necrosis virus
Infectious hematopoietic necrosis virus - drug effects
Infectious hematopoietic necrosis virus - immunology
milk peptides
Oncorhynchus mykiss
Perciformes
Rhabdoviridae Infections - immunology
Rhabdoviridae Infections - prevention & control
Rhabdoviridae Infections - veterinary
Rhabdoviridae Infections - virology
Rhabdovirus
Salmonidae
Spectrometry, Mass, Electrospray Ionization
Tandem Mass Spectrometry
Trout
Title Antiviral activity of casein and αs2 casein hydrolysates against the infectious haematopoietic necrosis virus, a rhabdovirus from salmonid fish
URI https://api.istex.fr/ark:/67375/WNG-V0L5PWJF-K/fulltext.pdf
https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fj.1365-2761.2012.01448.x
https://www.ncbi.nlm.nih.gov/pubmed/23167612
https://www.proquest.com/docview/1326732587
https://www.proquest.com/docview/1348490146
Volume 36
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