Problemática del Uso de Bioensayos de Reto Virales para Evaluar la Eficacia de Productos con Actividad Antiviral Suministrados en los Alimentos y Otros Productos para Reducir el Impacto del Virus de la Mancha Blanca

Authors

  • César Marcial Escobedo Bonilla Centro de Investigaciones Biológicas del Noroeste

Abstract

enormes pérdidas que este virus ha causado a la industria camaronícola han promovido el desarrollo de productos y
métodos encaminados a reducir el impacto del patógeno. Varios compuestos derivados de paredes celulares de
microorganismos, extractos de algas y plantas han mostrado propiedades antivirales in vitro e in vivo. Estos
productos pueden ser incorporados en alimentos balanceados y administrados por vía oral a los animales. Varios
productos han sido evaluados en bioensayos de reto para determinar sus propiedades inmunoestimulantes, de
crecimiento y resistencia a enfermedades. Aunque muchos de estos resultados son alentadores, existen diversas
dificultades prácticas y técnicas que requieren ser considerados y estandarizados antes de realizar bioensayos de
eficacia. El presente trabajo propone consideraciones para evaluar adecuadamente la eficacia antiviral de productos.
Los problemas más importantes son la concentración real de las sustancias antivirales en los alimentos y la cantidad
que es efectivamente ingerida por los animales. Los problemas del reto viral son la falta de estandarización de los
bioensayos al usar dosis infecciosas no conocidas o desconocer el efecto de la ruta de inoculación sobre la
infectividad del inóculo. Se presentan ejemplos de estos aspectos y se mencionan contribuciones a la estandarización
de los bioensayos de reto. El uso de procedimientos estandarizados en los bioensayos de reto permitirá evaluar
eficazmente los productos y además harán posible comparar la eficacia antiviral entre dos ó más productos.

Downloads

Download data is not yet available.

References

Balasubramanian G, Sarathi M, Rajesh-Kumar S, Sahul Hameed AS (2007) Screening the antiviral activity of Indian

medicinal plants against white spot syndrome virus in shrimp. Aquaculture 263:15-19

Balasubramanian G, Sarathi M, Venkatesan C, Thomas J, Sahul Hameed AS (2008) Oral administration of antiviral

plant extract of Cynodon dactylon on a large scale production against white spot syndrome virus (WSSV) in

Penaeus monodon. Aquaculture 279:2-5

Bright-Singh IS, Manjusha M, Somnath-Pai S, Philip R (2005) Fenneropenaeus indicus is protected from white spot

disease by oral administration of inactivated white spot syndrome virus. Diseases of aquatic organisms

:265-270

Caipang CMA, Verjan N, Ooi EL, Kondo H, Hirono I, Aoki T, Kiyono H, Yuki Y (2008) Enhanced survival of

shrimp, Penaeus (Marsupenaeus) japonicus from white spot syndrome disease after oral administration of

recombinant VP28 expressed in Brevibacillus brevis. Fish & shellfish immunology 25:315-320

Chang CF, Su MS, Chen HY, Lo CF, Kou GH, Liao IC (1999) Effect of dietary -1,3 -glucan on resistance to white

spot syndrome virus (WSSV) in postlarval and juvenile Penaeus monodon. Diseases of aquatic organisms

:163-168

Chotigeat W, Tongsupa S, Supamataya K, Phongdara A (2004) Effect of fucoidan on disease resistance of black

tiger shrimp. Aquaculture 233:23-30

Chou HY, Huang CY, Wang CH, Chiang HC, Lo CF (1995) Pathogenicity of a baculovirus infection causing white

spot syndrome in cultured penaeid shrimp in Taiwan. Diseases of aquatic organisms 23:165-173

Citarasu T, Siravam V, Immanuel G, Rout N, Murugan V (2006) Influence of selected Indian immunostimulant

herbs against white spot syndrome virus (WSSV) infection in black tiger shrimp, Penaeus monodon with

reference to haematological, biochemical and immunological changes. Fish & shellfish immunology

:372-384

Cruz-Suárez EL, Hernández-López J, Porchas-Cornejo M, Coronado-Molina D, Linné-Unzueta M, Nieto-López M,

Tapia-Salazar M, Ricque-Marie D (2007) The antiviral effect of algal fucoidans. Aqua Culture Asia Pacific

Magazine p 19

Escobedo-Bonilla CM, Alday-Sanz V, Wille M, Sorgeloos P, Pensaert MB, Nauwynck HJ (2008) A review on the

morphology, molecular characterization, morphogenesis and pathogenesis of white spot syndrome virus.

Journal of fish diseases 31:1-18

Escobedo-Bonilla CM, Wille M, Alday-Sanz V, Sorgeloos P, Pensaert MB, Nauwynck HJ (2005) In vivo titration of

white spot syndrome virus (WSSV) in SPF Litopenaeus vannamei by intramuscular and oral routes.

Diseases of aquatic organisms 66:163-170

Fan X, Thirunavukkarasu K, Weaver RF (1996) Temperature-sensitive mutations in the protein kinase-1 (pk-1) gene

of the Autographa californica nuclear polyhedrosis virus that block very late gene expression. Virology

:1-9

FAO fisheries department fishery information, data and statistics unit (2006) Fishstat, universal software for fishery

A, Xu SQ, Montgomery MK, Kostas SA, Driver SE, Mello CC (1998) Potent and specific genetic interference

by double-stranded RNA in Caenorhabditis elegans. Nature 391:806-810

Fu LL, Li WF, Du HH, Dai W, Xu ZR (2008) Oral vaccination with envelope protein VP28 against white spot

syndrome virus in Procambarus clarkii using Bacillus subtilis as delivery vehicles. Letters in applied

microbiology 46:581-586

Giese M (1998) DNA-antiviral vaccines: New developments and approaches- A review. Virus genes 17:219-232

Gómez-Chiarri M, Chiaverini LA (1999) Evaluation of eukaryotic promoters for the construction of DNA vaccines

for aquaculture. Genetic analysis: Biomolecular engineering 15:121-124

Granja C, Vidal OM, Parra G, Salazar M (2006) Hyperthermia reduces viral load of white spot syndrome virus in

infected Litopenaeus vannamei. Diseases of aquatic organisms 68:175-180

Guan Y, Yu Z, Lia C (2003) The effects of temperature on white spot syndrome infections in Marsupenaeus

japonicus. Journal of invertebrate pathology 83:257-260

Huang CC, Song YL (1999) Maternal transmission of immunity to white spot syndrome associated virus (WSSV) in

shrimp (Penaeus monodon). Developmental and comparative immunology 23:545-552

Jiravanichpaisal P, Soderhall K, Soderhall I (2004) Effect of water temperature on the immune response and

infectivity pattern of white spot syndrome virus (WSSV) in freshwater crayfish. Fish & Shellfish

Immunology 17:265-275

Kobayashi M, Inagaki S, Kawase S (1981) Effect of high temperature on the development of nuclear polyhedrosis

virus in the silkworm Bombyx mori. Journal of invertebrate pathology 38:386-394

Kumar SR, Ishaq Ahamed VP, Sarathi M, Nazeer Basha A, Sahul Hameed AS (2008) Immunological responses of

Penaeus monodon to DNA vaccine and its efficacy to protect shrimp against white spot syndrome virus

(WSSV). Fish & shellfish immunology 24:467-478

Kumar-Jha R, Xu-Rong Z, Shen J, Bai-Juan S, Sun-Yu J, Fen-Li W (2006) The efficacy of recombinant vaccines

against white spot syndrome virus in Procambarus clarkii. Immunology letters 105:68-76

Lee J-B, Srisomporn P, Hayashi K, Tanaka T, Sankawa u, Hayashi T (2001) Effects of structural modification of

calcium spirulan, a sulfated polysaccharide from Spirulina platensis, on antiviral activity. Chemical

pharmacology bulletin 49:108-110

Namikoshi A, Wu JL, Yamashita T, Nishizawa T, Nishioka T, Arimoto M, Muroga K (2004) Vaccination trials with

Penaeus japonicus to induce resistance to white spot syndrome virus. Aquaculture 229:25-35

Prior S, Browdy C, L., Shepard EF, Laramore R, Parnell PG (2003) Controlled bioassay systems for determination of

lethal infective doses of tissue homogenates containing Taura syndrome or white spot syndrome virus.

Diseases of aquatic organisms 54:89-96

Rahman MM, Corteel M, Dantas-Lima JJ, Wille M, Alday Sanz V, Pensaert MB, Sorgeloos P, Nauwynck HJ

(2007b) Impact of daily fluctuations of optimum (27°C) and high water temperature (33°C) on Penaeus

vannamei juveniles infected with white spot syndrome virus (WSSV). Aquaculture 269:107-113

Rahman MM, Corteel M, Wille M, Alday-Sanz V, Pensaert MB, Sorgeloos P, Nauwynck HJ (2007a) The effect of

raising water temperature to 33ºC in Penaeus vannamei juveniles at different stages of infection with white

spot syndrome virus. Aquaculture 272:240-245

Rahman MM, Escobedo-Bonilla CM, Corteel M, Dantas-Lima JJ, Wille M, Alday-Sanz V, Pensaert MB, Sorgeloos

P, Nauwynck HJ (2006b) Effect of high water temperature (33 °C) on the clinical and virological outcome

of experimental infections with white spot syndrome virus (WSSV) in specific pathogen-free (SPF)

Litopenaeus vannamei. Aquaculture 261:842-849

Rahman MM, Escobedo-Bonilla CM, Wille M, Alday Sanz V, Audoorn L, Neyts J, Pensaert MB, Sorgeloos P,

Nauwynck HJ (2006a) Clinical effect of cidofovir and a diet supplemented with Spirulina platensis in white

spot syndrome virus (WSSV) infected specific pathogen-free Litopenaeus vannamei juveniles. Aquaculture

:600-605

Rameshthangam P, Ramasamy P (2007) Antiviral activity of bis-(2-methylheptyl)-phthalate isolated from Pongamia

pinnata leaves against white spot syndrome virus of Penaeus monodon Fabricius. Virus research 126:38-44

Reyes A, Salazar M, Granja C (2007) Temperature modifies gene expression in subcuticular epithelial cells of white

spot syndrome virus-infected Litopenaeus vannamei. Developmental and comparative immunology 31 23-

Robalino J, Browdy CL, Prior S, Metz A, Parnell P, Gross P, Warr G (2004) Induction of antiviral immunity of

double-stranded RNA in a marine invertebrate. Journal of virology 78:10442-10448

Rosenberry R (2001) World shrimp farming 2000. Shrimp news international. U.S.A., p 1-324

Rout N, Kumar S, Jaganmohan S, Murugan V (2007) DNA vaccines encoding viral envelope proteins confer

protective immunity against WSSV in black tiger shrimp. Vaccine 25:2778-2786

Sarathi M, Simon MC, Ishaq-Ahmed VP, Rajesh-Kumar S, Sahul Hameed AS (2008a) Silencing VP28 gene of white

spot syndrome virus of shrimp by bacterially expressed dsRNA. Marine biotechnology 10:198-206

Sarathi M, Simon MC, Venkatesan C, Sahul-Hameed AS (2008b) Oral administration of bacterially expressed VP28

dsRNA to protect Penaeus monodon from white spot syndrome virus Marine biotechnology 10:242-249

Sajeevan TP, Philip R, Bright-Singh IS (2006) Immunostimulatory effect of a marine yeast Candida sake S165 in

Fenneropenaeus indicus. Aquaculture 257:150-155

Shikata M, Sano Y, Hashimoto Y, Matsumoto T (1998) Isolation and characterization of a temperature-sensitive

mutant of Bombyx mori nucleopolyhedrovirus for a putative RNA polymerase gene. Journal of General

Virology 79:2071-2078

Supamattaya K, Kiriratnikom S, Boonyaratpalin M, Borowitzka L (2005) Effect of a Dunalliela extract on growth

performance, health condition, immune response and disease resistance in black tiger shrimp (Penaeus

monodon). Aquaculture 248:207-216

Takahashi Y, Kondo M, Itami T, Honda T, Inagawa H, Nishizawa T, Soma GI, Yokomiso Y (2000) Enhancement of

disease resistance against penaeid acute viraemia and induction of virus-inactivating activity in

haemolymph of kuruma shrimp, Penaeus japonicus, by oral administration of Pantoea agglomerans

lipopolysaccharide (LPS). Fish & shellfish immunology 10:555-558

van Beek N, Hughes PR, Wood HA (2000) Effects of incubation temperature on the dose-survival time relationship

of Trichoplusia ni larvae infected with Autographa californica nucleopolyhedrovirus. Journal of

invertebrate pathology 76:185-190

van Hulten MCW, Reijns M, Vermeesch AMG, Zandbergen F, Vlak JM (2002) Identification of VP19 and VP15 of

white spot syndrome virus (WSSV) and glycosylation status of the WSSV major structural proteins. Journal

of general virology 83:257-265

Vaseeharan B, Anand PT, Murugan T, Chen JC (2006) Shrimp vaccination trials with the VP292 protein of white

spot syndrome virus. Letters of applied microbiology 43:137-142

Venegas CA, Nonaka L, Mushiake K, Nishizawa T, Muroga K (2000) Quasi-immune response of Penaeus japonicus

to penaeid rod-shaped DNA virus (PRDV). Diseases of aquatic organisms 42:83-89

Vidal OM, Granja CB, Aranguren LF (2001) A profound effect of hyperthermia on survival of Litopenaeus

vannamei juveniles infected with white spot syndrome virus. Journal of the world aquaculture society

:364-372

Vlak JM, Bonami JR, Flegel TW, Kou GH, Lightner DV, Loh CF, Loh PC, Walker PW (2005) Nimaviridae. In:

Fauquet CM, Mayo MA, Maniloff J, Desselberger U, Ball LA (eds) Virus Taxonomy: VIIIth Report of the

International Committee on Taxonomy of Viruses Elsevier/Academic Press, London, UK, p 187-192

Westenberg M, Heinhuis B, Zuidema D, Vlak JM (2005) siRNA injection induces sequence-independent protection

in Penaeus monodon against white spot syndrome virus. Virus research 114:133-139

Witteveldt J, Cifuentes CC, Vlak JM, van Hulten MCW (2004) Protection of Penaeus monodon against white spot

syndrome virus by oral vaccination. Journal of virology 78:2057-2061

Witteveldt J, Vermeesch AMG, Langenhof M, de Lang A, Vlak JM, van Hulten MCW (2005) Nucleocapsid protein

VP15 is the basic DNA binding protein of white spot syndrome virus of shrimp. Archives of virology

Witteveldt J, Vlak JM, van Hulten MCW (2006) Increased tolerance of Litopenaeus vannamei to white spot

syndrome virus (WSSV) infection after oral application of the viral envelope protein VP28. Diseases of

aquatic organisms 70:167-170

Wongteerasupaya C, Vickers JE, Sriurairatana S, Nash GL, Akarajamorn A, Boonsaeng V, Panyim S, Tassanakajon

A, Withyachumnarnkul B, Flegel TW (1995) A non-occluded, systemic baculovirus that occurs in cells of

ectodermal and mesodermal origin and causes high mortality in the black tiger prawn Penaeus monodon.

Diseases of aquatic organisms 21:69-77

Zhang X, u X, Leong Hew C (2001) The structure and function of a gene encoding a basic peptide from prawn white

spot syndrome virus. Virus Research 79:137-144

How to Cite

Escobedo Bonilla, C. M. (2008). Problemática del Uso de Bioensayos de Reto Virales para Evaluar la Eficacia de Productos con Actividad Antiviral Suministrados en los Alimentos y Otros Productos para Reducir el Impacto del Virus de la Mancha Blanca. Avances En Nutrición Acuicola. Retrieved from https://nutricionacuicola.uanl.mx/index.php/acu/article/view/154