Chronic toxicity of shrimp feed added with silver nanoparticles (Argovit-4®) in Litopenaeus vannamei and immune response to white spot syndrome virus infection.

In recent years, the application of silver nanoparticles (AgNPs) as antibacterial compounds has been widely used in human and veterinary medicine. In this work, we investigated the effects of AgNPs (Argovit-4®) as feed additives (feed-AgNPs) on shrimp (Litopenaeus vannamei) using three different methods: 1) chronic toxicity after 28 days of feeding, 2) Effects against white spot syndrome virus (WSSV) challenged by oral route, and 3) transcriptional responses of immune-related genes (PAP, ProPO, CTL-3, Crustin, PEN3, and PEN4) following WSSV infection. The results showed that the feed-AgNPs did not interfere with the growth and survival of shrimp. Also, mild lesions in the hepatopancreas were recorded, proportional to the frequency of the feed-AgNP supply. Challenge test versus WSSV showed that feeding every 7 days with feed-AgNPs reduced mortality, reaching a survival rate of 53%, compared to the survival rates observed in groups fed every 4 days, daily and control groups of feed-AgNPs for the 30%, 10%, and 7% groups, respectively. Feed-AgNPs negatively regulated the expression of PAP, ProPO, and Crustin genes after 28 days of treatment and altered the transcriptional responses of PAP, ProPO, CTL-3, and Crustin after WSSV exposure. The results showed that weekly feeding-AgNPs could partially prevent WSSV infection in shrimp culture. However, whether or not transcriptional responses against pathogens are advantageous remains to be elucidated.

Evaluation of a new Argovit as an antiviral agent included in feed to protect the shrimp Litopenaeus vannamei against White Spot Syndrome Virus infection.

In this study, four experimental assays were conducted to evaluate the use of a new silver nanoparticle formulation named Argovit-4, which was prepared with slight modifications to enhance its biological activity against white spot syndrome virus (WSSV) in shrimp culture. The goals of these assays were to (1) determine the protective effect of Argovit-4 against WSSV, (2) determine whether Argovit-4 supplemented in feed exhibits toxicity towards shrimp, (3) determine whether Argovit-4 as antiviral additive in feed can prevent or delay/reduce WSSV-induced shrimp mortality, and (4) determine whether Argovit-4 supplemented in feed alters the early stages of the shrimp immune response. In bioassay 1, several viral inocula calibrated at 7 SID50(shrimp infectious doses 50% endpoint) were exposed to 40, 100, 200 and 1,000 ng/SID50 of Ag+ and then intramuscularly injected into shrimp for 96 h. In bioassay 2, shrimp were fed Argovit-4 supplemented in feed at different concentrations (10, 100 and 1,000 µg per gram of feed) for 192 h. In bioassay 3, shrimp were treated with Argovit-4 supplemented in feed at different concentrations and then challenged against WSSV for 192 h. In bioassay 4, quantitative real-time RT-qPCR was performed to measure the transcriptional responses of five immune-relevant genes in haemocytes of experimental shrimp treated with Argovit-4 supplemented in feed at 0, 6, 12, 24 and 48 h. The intramuscularly injected Argovit-4 showed a dose-dependent effect (p < 0.05) on the cumulative shrimp mortality from 0-96 h post-infection. In the second bioassay, shrimp fed Argovit-4 supplemented in feed did not show signs of toxicity for the assayed doses over the 192-h experiment. The third and fourth bioassays showed that shrimp challenged with WSSV at 1,000 µg/g feed exhibited reduced mortality without altering the expression of some immune system-related genes according to the observed level of transcriptional. This study is the first show that the new Argovit-4 formulation has potential as an antiviral additive in feed against WSSV and demonstrates a practical therapeutic strategy to control WSSV and possibly other invertebrate pathogens in shrimp aquaculture.

Comparing RAS with and without biofloc: Transcriptional response of immune-related genes in Litopenaeus vannamei post-larvae / Comparación de SAR con y sin biofloc: Respuesta transcripcional de genes relacionados con el sistema inmune en postlarvas de Litopenaeus vannamei / Comparando o SAR com e sem biofloc: Resposta transcricional de genes relacionados ao sistema imune em pós-larvas de Litopenaeus vannamei

Abstract Background: Shrimp farming is evolving from semi-intensive to hyper-intensive systems with biofloc technology and water recirculation systems. Objective: To evaluate the transcriptional response promoted by biofloc on shrimp (Litopenaeus vannamei) under a recirculating aquaculture system (RAS). Methods: Quantitative real-time RT-PCR was used to monitor seven key genes related to the immune system in shrimp post-larvae, reared in a RAS with and without biofloc (BF and no- BF). In addition, we present for the first time nucleotide sequences of ADP-ribosylation factor 4 (LvArf4) from Litopenaeus vannamei. Results: Transcripts for penaeidin3 (Pen3), penaeidin4 (Pen4), crustin, and Toll receptor (LvToll) genes were up-regulated between 3 and 24 h in both systems, and tumor necrosis factor receptor-associated factor 6 (TRAF6) in no-BF as an early response. Regarding differential expression between treatments, 13 occurrences were encountered. Nine that were higher in BF than in no-BF and four higher in no-BF than in BF. In some sample times, expression of Pen3, crustin, LvToll, TRAF6, IMD, and LvArf4 was higher in BF than in no-BF and in others, expression of Pen3, Pen4, and TRAF6 was higher in no-BF than in BF. Conclusions: BF modulates the transcription of genes related to the immune response in shrimp as an early response. However, the RAS with no-BF promotes a similar response.

Resumen Antecedentes: Los cultivos de camarón están evolucionando de sistemas semi-intensivos a hiper-intensivos con biofloc y con recirculación. Objetivo: Evaluar la respuesta transcripcional promovida por el biofloc en un sistema acuícola con recirculación (SAR). Métodos: Monitoreamos mediante RT-PCR cuantitativo siete genes relacionados con el sistema inmune en postlarvas de camarón cultivadas en un SAR con y sin biofloc (BF y no-BF). Además, presentamos por primera vez la secuencia de nucleótidos del factor de ribosilación 4 de ADP (LvArf4) de Litopenaeus vannamei. Resultados: Los genes penaeidina3 (Pen3), penaeidina4 (Pen4), Crustina y Toll (LvToll) se sobre-expresaron entre las 3 y 24 h en ambos sistemas, y el factor 6 asociado al factor de necrosis tumoral (TRAF6) en BF como una respuesta temprana. Con respecto a la expresión diferencial entre los tratamientos, se presentaron 13 ocurrencias. Nueve donde el BF fue mayor que sin-BF y cuatro donde el no-BF fue mayor que el BF. La expresión fue más alta en BF que en no-BF en Pen3, Crustin, LvToll, TRAF6, IMD y LvArf4. En contraste, la expresión fue mayor en no-BF en Pen3, Pen4 y TRAF6. Conclusión: el BF modula la transcripción de los genes relacionados con la respuesta inmune en camarón como una respuesta temprana. Sin embargo, el SAR sin-BF promueve una respuesta similar.

Resumo Antecedentes: A criação de camarões está evoluindo de sistemas semi-intensivos para hiper-intensivos como tecnologia de bioflocos e sistemas de recirculação. Objetivo: Avaliar a resposta transcricional promovida pelo biofloco em um sistema de aquicultura recirculante (SAR). Métodos: Utilizamos RT-PCR quantitativo em tempo real para monitorar sete genes-chave relacionados ao sistema imune em pós-larvas de camarão, criados em SAR com e sem bioflocos (BF e no-BF). Além disso, apresentamos pela primeira vez sequências nucleotídicas do fator de ribosilação do ADP 4 (LvArf4) de Litopenaeus vannamei. Resultados: Os resultados mostraram que o Penaeidina3 (PEN3), Penaeidina4 (Pen4), Crustina e Toll genes (LvToll) foram sobre-expressos entre 3 e 24 h em ambos os sistemas, e o Factor de Necrose do Receptor 6 associado e protuberância (TRAF6) no BF como uma resposta precoce. Com relação à expressão diferencial entre tratamentos, 13 ocorrências foram apresentadas. Nove onde o BF foi maior do que os não-BF e quatro onde o não-BF foi maior do que o BF. A expressão foi maior do que em BF não-BF em Pen3, Crustin, LvToll, TRAF6, IMD e LvArf4. Em contraste, a expressão foi mais elevada no não-BF em Pen3, Pen4 e TRAF6. Conclusões: O BF modula a transcrição de resposta imune relacionada no camarão como um genes de resposta precoce. No entanto, o SAR não BF promove uma resposta semelhante.

Effect of microbial immunostimulants on WSSV infection percentage and the expression of immune-related genes in white shrimp (Litopenaeus vannamei) / Efecto de los inmunoestimulantes microbianos en el porcentaje de infección con WSSV y la expresión de genes relacionados con el sistema inmune del camarón blanco (Litopenaeus vannamei) / Efeito de imunoestimulantes microbianos sobre a porcentagem de infecção por WSSV e a expressão de genes relacionados ao sistema imune em camarões brancos (Litopenaeus vannamei)

Abstract Background: The white spot syndrome virus (WSSV) causes high mortalities in aquaculture. The use of immunostimulants increases animal resistance. Objective: To evaluate the WSSV infection percentage and the immunostimulant effect of lactic acid bacteria and yeast (MI= microbial immunostimulants) on WSSV infected Litopenaeus vannamei. Methods: A bioassay was performed for 33 d, with treatments in triplicate. The MI was added to the feed at 8.5 mg/kg feed and offered to shrimp (9.9 ± 3.1 g) daily, every 2 days, or every 3 days. Shrimp were infected with WSSV at 9 and 19 days. The expression of four immune system-related genes was studied using qRT-PCR. Results: No significant differences were observed in growth and survival among treatments. At the end of the bioassay, WSSV infection percentage (low viral load) decreased 8.3 and 25% in treatments III and IV as compared to the control group. Treatments with MI showed significant differences in the relative expression of LvToll, transglutaminase, and prophenoloxidase genes when MI was offered daily as compared to the control group. The MI did not regulate the expression of the superoxide dismutase gene. The WSSV infection percentage decreased when feed with MI was offered every 3 d. Conclusion: The MI decrease WSSV infection percentage in L. vannamei infected with low viral load when it is offered every three days. The MI up-regulates LvToll, Tgase, and proPO genes when it is offered daily. Further research is needed regarding prophylactic treatment with microbial immunostimulants against WSSV in commercial shrimp farms.

Resumen Antecedentes: El virus del síndrome de la mancha blanca (WSSV) ocasiona alta mortalidad en acuacultura. El empleo de inmunoestimulantes incrementa la resistencia de los animales. Objetivo: Evaluar el porcentaje de infección de WSSV y el efecto inmunoestimulante de bacterias ácido lácticas y levadura (MI= inmunoestimulantes microbianos) en Litopenaeus vannamei infectado con WSSV. Métodos: Se realizó un bioensayo durante 33 días con tratamientos por triplicado. Se agregó MI al alimento (8,5 mg/kg de alimento), suministrandolo al camarón (9,9 ± 3,1 g) diariamente, cada 2, o cada 3 días. Los camarones se infectaron con WSSV a los 9 y 19 días. Se estudió la expresión de cuatro genes relacionados con el sistema inmune utilizando qRT-PCR. Resultados: No hubo diferencias significativas en el crecimiento y la sobrevivencia entre los tratamientos. Al final del bioensayo, el porcentaje de infección de WSSV (baja carga viral) disminuyó un 8,3 y un 25% en los tratamientos III y IV en comparación con el grupo control. Los tratamientos con MI mostraron diferencias significativas en la expresión relativa de los genes LvToll, transglutaminasa, y profenoloxidasa cuando se suministró MI diariamente en comparación con el grupo control. Los MI no regularon la expresión del gen de la superóxido dismutasa. El porcentaje de infección de WSSV disminuyó cuando el alimento con MI se aplicó cada 3 d. Conclusiones: Los MI disminuyen el porcentaje de infección de WSSV en L. vannamei infectado con baja carga viral cuando se aplican cada tres días. Además, los MI causan una sobre-expresión de los genes LvToll, Tgase y proPO cuando se administran diariamente. Se necesita más investigación sobre los inmunoestimulantes microbianos como tratamiento profiláctico contra WSSV en granjas comerciales de camarón.

Resumo Antecedentes: O vírus da mancha branca (WSSV) causa alta mortalidade na aqüicultura e o uso de imunoestimulantes aumenta a resistência em animais. Objetivo: Este trabalho avaliou a prevalência do WSSV e o efeito imunoestimulante de bactérias ácido lácticas e levadura (MI= inmunoestimulantes microbianos) em Litopenaeus vannamei infectado con WSSV. Métodos: Se realizou um bioensayo durante 33 dias com tratamientos por triplicado. Se agregou MI al alimento (8,5 mg/kg feed) e se o fornecimento de camarão (9,9 ± 3,1 g) diariamente, cada 2 e cada 3 d. Los camarones foram infectados com WSSV a los 9 y 19 d. Se estudió a expressão de quatro genes relacionados com o sistema imune, use qRT-PCR. Resultados: No hubo diferencias significativas no crescimento e na supervisão entre os tratamientos. Al final del bioensayo, a prevalência do WSSV diminuiu um 8.3 e não 25% nos tratamentos III e IV em comparação com o grupo de controle. Os tratamentos com MI mostraram diferenças significativas na expressão relativa dos genes. LvToll, transglutaminasa e prophenoloxidase quando se administraron em diários de MI em comparação com o controle de grupo. Los MI não regularam a expressão do genótipo da superóxido dismutasa. A prevalência do WSSV diminuiu quando o alimento com MI se aplicó cada 3 d. Conclusões: Los IM diminuir a prevalência de WSSV em L. vannamei infectado com baixa carga viral quando aplicável a cada três dias. Além disso, os IM causaram uma sobre-expressão dos genes LvToll, Tgase e proPO quando se administran diariamente. Há mais informações sobre imunoestimulantes microbianos como tratamento profiláctico contra WSSV en granjas comerciales de camarón.

Effect of mixed-Bacillus spp isolated from pustulose ark Anadara tuberculosa on growth, survival, viral prevalence and immune-related gene expression in shrimp Litopenaeus vannamei.

The widespread overuse of antibiotics in aquaculture has led to the emergence of antibiotic-resistance shrimp pathogens, the negative impact on shrimp gut microbiota, and the presence of antimicrobial residues in aquaculture products, with negative consequences on human health. Alternatively, probiotics have positive effects on immunological responses and productive performance of aquatic animals. In this study, three probiotic bacteria, (Bacillus licheniformis MAt32, B. subtilis MAt43 and B. subtilis subsp. subtilis GAtB1), isolated from the Anadara tuberculosa were included in diets for juvenile shrimp, Litopenaeus vannamei, to evaluate their effects on growth, survival, disease prevalence, and immune-related gene expression. Shrimp naturally infected with WSSV and IHHNV were fed with the basal diet (control, T1) and diets supplemented with four levels of bacilli probiotic mix (1:1:1) at final concentration of (T2) 1 × 106, (T3) 2 × 106, (T4) 4 × 106, and (T5) 6 × 106 CFU g-1 of feed. The specific growth rate of shrimp was significantly higher in T2 than in T1 (control) treatment, and the final growth as well as the survival were similar among treated groups. The prevalence of WSSV and IHHNV infected shrimp was reduced in T2 and T4 treatments, respectively, compared with control. The mRNA expression of proPO gene was higher in treatment T4 than control. The LvToll1 gene was significantly up-regulated in treatments T4 and T5 compared to control. The SOD gene was up-regulated in treatment T5 compared to control. In contrast, the mRNA expression of the Hsp70 gene was down-regulated in treatments T4 and T5 respect to control, and the TGase gene remained unaffected by the level of bacillus probiotic mix. As conclusion, the bacilli probiotic mix (Bacillus spp.) enhanced immune-related gene expression in WSSV and IHHNV naturally infected shrimp. This is the first report of probiotic potential of bacteria isolated from A. tuberculosa on the immune response and viral prevalence in shrimp Litopenaeus vannamei.

Double-stranded RNA against white spot syndrome virus (WSSV) vp28 or vp26 reduced susceptibility of Litopenaeus vannamei to WSSV, and survivors exhibited decreased susceptibility in subsequent re-infections.

The antiviral effect of vp28 or vp26 double-stranded (ds) RNA upon single or consecutive white spot syndrome virus (WSSV) intramuscular challenges with a high infectious dose was evaluated. The vp28 dsRNA showed the highest protection both in single (LT(50)=145h at 10d and 98h at 20d post treatment [dpt]) or consecutive (LT(50)=765h) WSSV challenges compared to vp26 dsRNA (LT(50)=126h at 10 d and 57h at 20dpt vs. consecutive challenge LT(50)=751h). Single WSSV challenges showed that animals treated with vp28 or vp26 dsRNA gradually lost the antiviral effect as virus challenge occurred at 10dpt (cumulative mortality 63% vs. 80%, respectively) or 20dpt (87% vs. 100%, respectively). In contrast, animals treated with vp28 or vp26 dsRNA and consecutively challenged with WSSV showed and extended lower susceptibility to WSSV. All dead animals were WSSV-positive by one-step PCR, whereas all surviving shrimp from single or continuous challenges were WSSV-negative as determined by reverse transcription (RT)-PCR. In conclusion, shrimp treated with a single administration of vp28 or vp26 dsRNA and consecutively challenged with WSSV showed a stronger and longer antiviral response than shrimp exposed once to WSSV at 10 or 20dpt.

Detection of white spot syndrome virus (WSSV) in the Pacific oyster Crassostrea gigas.

Oysters Crassostrea gigas were placed at water supply canals of three shrimp farms in Guasave, Mexico where WSSV outbreaks occur. Animals were sampled through April-August and September-December to detect WSSV DNA. By using three different PCR protocols, only oysters from a farm undergoing a WSSV outbreak were found WSSV-positive in gills and digestive gland. Two WSSV amplicons were sequenced and they corresponded over 99% to WSSV genome segments. Results showed that oysters can capture WSSV particles suspended in water. Susceptibility of oysters to WSSV infection and their role as a carrier remain to be determined.