Antigenic and immunogenic properties of truncated VP28 protein of white spot syndrome virus in Procambarus clarkii

Previous studies identify VP28 envelope protein of white spot syndrome virus (WSSV) as its main antigenic protein. Although implicated in viral infectivity, its functional role remains unclear. In the current study, we described the production of polyclonal antibodies to recombinant truncated VP28 proteins including deleted N-terminal (rVP28ΔN), C-terminal (rVP28ΔC) and middle (rVP28ΔM). In antigenicity assays, antibodies developed from VP28 truncations lacking the N-terminal or middle regions showed significantly lowered neutralization of WSSV in crayfish, Procambarus clarkii. Further immunogenicity analysis showed reduced relative percent survival (RPS) in crayfish vaccinating with these truncations before challenge with WSSV. These results indicated that N-terminal (residues 1–27) and middle region (residues 35–95) were essential to maintain the neutralizing linear epitopes of VP28 and responsible in eliciting immune response. Thus, it is most likely that these regions are exposed on VP28, and will be useful for rational design of effective vaccines targeting VP28 of WSSV.     

家蚕蛹表达的重组Vp28疫苗对克氏原螯虾的抗病毒保护效应

对虾白斑综合症病毒(WSSV)的致病性强、危害性大、地域分布和宿主范围广泛,目前还不能有效地控制疫情。将含有WSSV囊膜蛋白Vp28基因的重组杆状病毒HyNPV-Vp28感染家蚕(Bombyx mori)蛹,对发病蚕血淋巴进行SDS-PAGE和Western blotting分析,结果表明Vp28在家蚕体内得到了表达。将重组病毒囊膜蛋白rVp28疫苗配制成药饵,持续口服免疫75天,对克氏原螯虾进行预防WSSV,实验虾分为2%重组Vp28疫苗、2%普通蚕蛹组织匀浆(阳性对照)和普通饵料(阴性对照)3个处理组。免疫35天后进行口服攻毒,20天内rVp28疫苗组的累积存活率为63.33%,与阳性和阴性对照比差异显著(P<0.05),PRP分别达54.16%和59.26%;注射攻毒后20 天内rVp28疫苗组的累积存活率与阳性和阴性对照组比差异不显著(P>0.05),PRP分别为46.12% 和49.99%。第55天对存活虾再口服攻毒,20天内rVp28疫苗组与阳性和阴性对照组比累积存活率差异显著(P<0.05),PRP分别为55.80%和63.16%;二次注射攻毒后,rVp28疫苗组的PRP均为31.25%。对vVp28疫苗组存活虾的胃、肠和肝胰腺组织进行病毒的原位杂交检测均呈阴性反应,而对照组死亡虾组织都呈阳性反应。本研究表明,口服免疫家蚕蛹表达的病毒囊膜蛋白Vp28能诱导螯虾产生抗病毒保护作用,对应用疫苗预防对虾的病毒性疾病具有重要意义。     

家蚕蛹表达的重组Vp28疫苗对克氏原螯虾的抗病毒保护效应

The vaccine made of recombinant envelope protein (rVp28) of white spot syndrome virus (WSSV) expressed in silkworm (Bombyx mori) pupae using a baculovirus vector was used to investigate the efficacy of oral administration on WSSV disease resistance of Procambarus clarkii. Vaccine was mixed with diet at a ratio of 2% (w/w), and Procambarus clarkii were orally administered throughout 75 days. Vaccination with rVP28 showed the significantly higher cumulative survival compared with positive and negative control (P < 0.05) following an oral challenge on the 35th day post-vaccination (dpv), with PRP values 54.16% and 59.26%, respectively. rVP28 induced higher resistance via IM (intramuscular) injection challenge with WSSV stock, with PRP value of 46.12% and 49.99%, respectively. The survivors were subsequently re-challenged on the 55th dpv. rVP28 induced the significantly higher resistance to oral re-challenge (P < 0.05), with both PRP values 55.80% and 63.16%, respectively. rVP28 induced higher resistance to IM injection re-challenge, with both PRP values 31.25%. A DIG labeled WSSV DNA probe was used to detect WSSV by in situ hybridization. The positive cells were observed in epithelial cells of stomach, hepatopancreas and gut of the infected control crayfish, while negative reaction were observed in the tissues of survivors-vaccinated. These results indicated that vaccination of crayfish with recombinant protein had significant effect on oral infection, and had higher resistance against intramuscular injection challenge. This suggested the protection against WSSV could be induced in crayfish by recombinant protein rVp28 expressed in silkworm pupae.     

Oral vaccination with envelope protein VP28 against white spot syndrome virus in Procambarus clarkii using Bacillus subtilis as delivery vehicles

Aims: To achieve high‐level expression and secretion of active VP28 directed by a processing‐efficient signal peptide in Bacillus subtilis WB600 and exploit the possibility of obtaining an oral vaccine against white spot syndrome virus (WSSV) using vegetative cells or spores as delivery vehicles. Methods and Results: The polymerase chain reaction (PCR)‐amplified vp28 gene was inserted into a shuttle expression vector with a novel signal peptide sequence. After electro‐transformation, time‐courses for recombinant VP28 (rVP28) secretion level in B. subtilis WB600 were analysed. Crayfish were divided into three groups subsequently challenged by 7‐h immersion at different time points after vaccination. Subgroups including 20 inter‐moult crayfish with an average weight of 15 g in triplicate were vaccinated by feeding coated food pellets with vegetative cells or spores for 20 days. Vaccination trials showed that rVP28 by spore delivery induced a higher resistance than using vegetative cells. Challenged at 14 days postvaccination, the relative per cent survival (RPS) values of groups of rVP28‐bv and rVP28‐bs was 51·7% and 78·3%, respectively. Conclusions: The recombinant B. subtilis strain with the ability of high‐level secretion of rVP28 can evoke protection of crayfish against WSSV by oral delivery. Significance and Impact of the Study: Oral vaccination by the B. subtilis vehicle containing VP28 opens a new way for designing practical vaccines to control WSSV.     

Immune responses of Fenneropenaeus chinensis against white spot syndrome virus after oral delivery of VP28 using Bacillus subtilis as vehicles

The protective efficacy of oral administration of VP28 using Bacillus subtilis as vehicles (rVP28-bs) in shrimp, Fenneropenaeus chinensis, upon challenge with white spot syndrome virus (WSSV) was investigated. The calculated relative percent survival (RPS) value of rVP28-bs fed shrimp was 83.3% when challenged on the 14th day post-administration, which is significantly higher (p < 0.001) than that of the group administered recombinant Escherichia coli over-expressing rVP28 (rVP28-e21). After immunization, activities of phenoloxidase (PO), superoxide dismutase (SOD) and inducible nitric oxide synthase (iNOS) in hemolymph were analyzed. It was found that the supplementation of rVP28-bs into shrimp food pellets resulted in the most pronounced increase of iNOS activity (p < 0.001), but had the least influence on activities of PO and SOD. Besides, in the shrimp orally administered with rVP28-bs, the caspase-3 activity was one-fifth that of the control, though the signs of apoptosis (chromatin margination, nuclear fragmentation and apoptotic bodies) could not be observed by transmission electron microscope (TEM). These results suggest that by oral delivery of rVP28-bs, shrimp showed significant resistance to WSSV and an effect on the innate immune system of shrimp. The remarkably enhanced level of iNOS after rVP28-bs administration might be responsible for antiviral defense in shrimp.     

Characterization and Diagnostic Use of a Monoclonal Antibody for VP28 Envelope Protein of White Spot Syndrome Virus

The gene encoding the VP28 envelope protein of White spot syndrome virus (WSSV)was cloned into expression vector pET-30a and transformed into the Escherichia coli strain BL21.After induction,the recombinant VP28 (rVP28) protein was purified and then used to immunize Balb/c mice for monoclonal antibody (MAb) production.It was observed by immuno-electron microscopy the MAbs specific to rVP28 could recognize native VP28 target epitopes of WSSV and dot-blot analysis was used to detect natural WSSV infection.Competitive PCR showed that the viral level was approximately 104 copies/mg tissue in the dilution of gill homogenate of WSSV-infected crayfish at the detection limit of dot-blot assay.Our results suggest that dot-blot analysis with anti-rVP28 MAb could rapidly and sensitively detect WSSV at the early stages of WSSV infection.     

Characterization and diagnostic use of a monoclonal antibody for VP28 envelope protein of white spot syndrome virus

The gene encoding the VP28 envelope protein of White spot syndrome virus (WSSV) was cloned into expression vector pET-30a and transformed into the Escherichia coli strain BL21. After induction, the recombinant VP28 (rVP28) protein was purified and then used to immunize Balb/c mice for monoclonal antibody (MAb) production. It was observed by immuno-electron microscopy the MAbs specific to rVP28 could recognize native VP28 target epitopes of WSSV and dot-blot analysis was used to detect natural WSSV infection. Competitive PCR showed that the viral level was approximately 10⁴ copies/mg tissue in the dilution of gill homogenate of WSSV-infected crayfish at the detection limit of dot-blot assay. Our results suggest that dot-blot analysis with anti-rVP28 MAb could rapidly and sensitively detect WSSV at the early stages of WSSV infection.     

Protection of Penaeus monodon against white spot syndrome virus by inactivated vaccine with herbal immunostimulants

To improve the immune response in tiger shrimp Penaeus monodon against WSSV infection, juveniles (350 ± 10 mg) were vaccinated with formalin-inactivated WSSV and fed with herbal immunostimulants. The methanolic extracts of herbal immunostimulants such as Acalypha indica, Cynodon dactylon, Picrorrhiza kurrooa, Withania somnifera and Zingiber officinalis were incorporated in formulated diets at different concentrations; 250 (ED(1)), 500 (ED(2)), 1000 (ED(3)) and 2000 (ED(4)) mg kg(-1) of feed and fed for 60 days after vaccination. After 30 and 60 days intervals of feeding, the shrimps were challenged with WSSV, which were isolated and propagated from the infected crustaceans. The shrimps fed with control diets (C(1)) succumbed to death within 5 days after WSSV challenge, when no vaccination and immunostimulations were given. The other control groups (C(2) and C(3)) had slight improvements in all parameters including survival. The percentage survival was significantly (P < 0.05) increased to 30, 50 and 60% in the ED(2), ED(3) and ED(4) diets respectively after 60 days challenging. The better haematological, biochemical and immunological parameters were also found in the herbal extracts supplemented diets fed vaccinated shrimps. The present study revealed that the combined effect of immunostimulation and vaccination helped to boost the immune system against WSSV infection and hence this application can be adopted for shrimp culture.     

Enhanced survival of shrimp, Penaeus (Marsupenaeus) japonicus from white spot syndrome disease after oral administration of recombinant VP28 expressed in Brevibacillus brevis

White spot syndrome virus (WSSV) disease is a major threat to shrimp culture worldwide. Here, we assessed the efficacy of the oral administration of purified recombinant VP28, an envelope protein of WSSV, expressed in a Gram-positive bacterium, Brevibacillus brevis, in providing protection in shrimp, Penaeus japonicus, upon challenge with WSSV. Juvenile shrimp (2-3g in body weight) fed with pellets containing purified recombinant VP28 (50mug/shrimp) for 2weeks showed significantly higher survival rates than control groups when challenged with the virus at 3days after the last day of feeding. However, when shrimp were challenged 2weeks after the last day of feeding, survival rates decreased (33.4% and 24.93%, respectively). Survival rate was dose-dependent, increasing from 60.7 to 80.3% as the dose increased from 1 to 50mug/shrimp. At a dose of 50mug/shrimp, the recombinant protein provided protection as soon as 1day after feeding (72.5% survival). Similar results were obtained with larger-sized shrimp. These results show that recombinant VP28 expressed in a Gram-positive bacterium is a potential oral vaccine against WSSV.     

Dietary beta-1,3-glucan effectively improves immunity and survival of Penaeus monodon challenged with white spot syndrome virus

The effectiveness of dietary beta-1,3-glucan (BG), derived from Schizophyllum commune, in modulating the non-specific immunity of the grass prawn Penaeus monodon and its resistance to white spot syndrome virus (WSSV) were investigated. Juvenile P. monodon (6.5+/-0.4 g) were fed for 20 days on a series of test diets containing graded levels of BG (0, 1, 2, 10, 20 g kg(-1)diet) and were then challenged by injection of WSSV. The haemolymph total haemocyte count (THC), phagocytosis (PI), phenoloxidase (PO), superoxide anion (O(2)(-)) and superoxide dismutase (SOD) production were measured at days 0, 1, 3, 6, 9, 12 and 24 after challenge, and shrimp survival rate was also recorded. All the shrimps fed on diets containing BG no more than 1 g kg(-1)died by day 12. Conversely, the survival rate of shrimp fed with the diet containing 10 g kg(-1)BG was significantly higher (P<0.05) by day 9 than that of the other groups. When screened by the WSSV PCR diagnostic procedure, the percentages of surviving juveniles of the BG 2, 10, 20 g kg(-1)groups that were 2-step WSSV negative, were 55, 65 and 65%, respectively. The haemolymph THC, PO, O(2)(-)and SOD production of the 2, 10 and 20 g kg(-1)BG diet groups dropped drastically immediately after the WSSV challenge but subsequently returned to normal. Therefore, oral administration of BG at an optimal level of 10 g kg(-1)diet for 20 days effectively enhanced the immune system and improved the survival of WSSV-infected P. monodon.     

Surface-displayed VP28 on Bacillus subtilis spores induce protection against white spot syndrome virus in crayfish by oral administration

Aim: Surface‐displayed heterologous antigens on Bacillus subtilis spores can induce the vertebrate animals tested to generate local and systematic immune response through oral immunization. Here, the protection potential of the recombinant spores displaying the VP28 protein of white spot syndrome virus (WSSV) was investigated in the invertebrate crayfish (Cambarus clarkii). Methods and Results: The VP28 protein was successfully displayed on the surfaces of B. subtilis spores using CotB or CotC as a fusion partner. Crayfish were administrated orally by feeding the feed pellets coated with B. subtilis spores for 7 days and immediately followed by WSSV challenge. Oral administration of either spores expressing CotB‐VP28 or CotC‐VP28 resulted in significantly higher relative survival rates of 37·9 and 44·8% compared with the crayfish orally administrated with the spores nonexpressing VP28 (10·3% relative survival rate). When challenges were separately conducted at 7 and 21 days after oral administration, the relative survival rates increased to 46·4 and 50% at 7 days post‐oral administration, but decreased to 30 and 33·3% at 21 days after oral administration. Conclusion: These evidences indicate that the surface‐displayed VP28 on B. subtilis spore could induce protection of crayfish against WSSV via oral administration. Significance and Impact of the Study: This is the first report to use the spore surface display system to deliver orally a heterologous antigen in an aquatic invertebrate animal, crayfish. The results presented here suggest that the spore‐displayed VP28 might be suitable for an oral booster vaccine on prevention of WSSV infection in shrimp farming.     

Vaccination of shrimp (Penaeus chinensis) against white spot syndrome virus (WSSV)

Two structural protein genes, VP19 and VP466, of white spot syndrome virus (WSSV) were cloned and expressed in Sf21 insect cells using a baculovirus expression system for the development of injection and oral feeding vaccines against WSSV for shrimps. The cumulative mortalities of the shrimps vaccinated by the injection of rVP19 and rVP466 at 15 days after the challenge with WSSV were 50.2% and 51.8%, respectively. For the vaccination by oral feeding of rVP19 and rVP466, the cumulative mortalities were 49.2% and 89.2%, respectively. These results show that protection against WSSV can be generated in the shrimp, using the viral structural protein as a protein vaccine.     

Prohibitin Interacts with Envelope Proteins of White Spot Syndrome Virus and Prevents Infection in the Red Swamp Crayfish,Procambarus clarkii

Prohibitins (PHBs) are ubiquitously expressed conserved proteins in eukaryotes that are associated with apoptosis, cancer formation, aging, stress responses, cell proliferation, and immune regulation. However, the function of PHBs in crustacean immunity remains largely unknown. In the present study, we identified a PHB in Procambarus clarkii red swamp crayfish, which was designated PcPHB1. PcPHB1 was widely distributed in several tissues, and its expression was significantly upregulated by white spot syndrome virus (WSSV) challenge at the mRNA level and the protein level. These observations prompted us to investigate the role of PcPHB1 in the crayfish antiviral response. Recombinant PcPHB1 (rPcPHB1) significantly reduced the amount of WSSV in crayfish and the mortality of WSSV-infected crayfish. The quantity of WSSV in PcPHB1 knockdown crayfish was increased compared with that in the controls. The effects of RNA silencing were rescued by rPcPHB1 reinjection. We further confirmed the interaction of PcPHB1 with the WSSV envelope proteins VP28, VP26, and VP24 using pulldown and far-Western overlay assays. Finally, we observed that the colloidal gold-labeled PcPHB1 was located on the outer surface of the WSSV, which suggests that PcPHB1 specifically binds to the envelope proteins of WSSV. VP28, VP26, and VP24 are structural envelope proteins and are essential for attachment and entry into crayfish cells. Therefore, PcPHB1 exerts its anti-WSSV effect by binding to VP28, VP26, and VP24, preventing viral infection. This study is the first report on the antiviral function of PHB in the innate immune system of crustaceans.     

家蚕蛹表达的重组Vp28疫苗对克氏原螯虾免疫反应的影响

将含有对虾白斑综合征病毒囊膜蛋白Vp28基因的重组杆状病毒HyNPV-Vp28感染家蚕(Bombyx mori)蛹,配制成药饵持续口服免疫克氏原螯虾35天后,螯虾血细胞的吞噬百分比和吞噬指数比对照组显著提高(P＜0．05);血清中的抗菌活力、溶菌活力、酚氧化酶活性、超氧化物歧化酶活性以及血清和肝胰腺组织中的酸性磷酸酶、碱性磷酸酶活性均显著提高(P＜0．05)。免疫35天后进行口服攻毒,20天内rVp28疫苗组的累积存活率达66．67%,与对照组和对照蚕蛹组比差异显著(P＜0．05),PRP分别达64．29%和58．33%。rVp28疫苗组存活虾的胃、肠、鳃、甲壳下上皮和肝胰腺等病毒侵染的靶组织进行组织病理检测均无病毒感染,DIG标记核酸探针斑点杂交和PCR检测也呈阴性反应;而试验濒死虾的组织都呈现典型的病变特征,病毒DNA检测均为阳性反应。本研究表明,口服免疫家蚕蛹表达的囊膜蛋白Vp28具有增强螯虾机体免疫功能的作用,对应用免疫措施预防对虾的病毒性疾病具有重要意义。     

Protection of Procambarus clarkii against white spot syndrome virus using inactivated WSSV

White spot syndrome virus (WSSV) is a highly pathogenic and prevalent virus infecting shrimp and other crustaceans. The potentiality of binary ethylenimine (BEI)-inactivated WSSV against WSSV in crayfish, Procambarus clarkii, was investigated in this study. Efficacy of BEI-inactivated WSSV was tested by vaccination trials followed by challenge of crayfish with WSSV. The crayfish injected with BEI-inactivated WSSV showed a better survival (P < 0.05) to WSSV on the 7th and 21st day post-vaccination (dpv) compared to the control. Calculated relative percent survival (RPS) values were 77% and 60% on the 7th and 21st dpv for 2 mM BEI-inactivated WSSV, and 63%, 30% on 7th and 21st dpv for 3 mM BEI-inactivated WSSV. However, heat-inactivated WSSV did not provide protection from WSSV even on 7th dpv. In the inactivation process WSSV especially their envelope proteins maybe changed as happened to 3 mM BEI and heat-inactivated WSSV particles. These results indicate the protective efficacy of BEI-inactivated WSSV lies on the integrity of envelope proteins of WSSV and the possibility of BEI-inactivated WSSV to protect P. clarkii from WSSV.     

An immersion of Gracilaria tenuistipitata extract improves the immunity and survival of white shrimp Litopenaeus vannamei challenged with white spot syndrome virus

The innate immunity and resistance against white spot syndrome virus (WSSV) in white shrimp Litopenaeus vannamei which received the Gracilaria tenuistipitata extract were examined. Shrimp immersed in seawater containing the extract at 0 (control), 400 and 600 mg L(-1) for 3 h were challenged with WSSV at 2 × 10(4) copies shrimp(-1). Shrimp not exposed to the extract and not received WSSV challenge served as unchallenged control. The survival rate of shrimp immersed in 400 mg L(-1) or 600 mg L(-1) extract was significantly higher than that of challenged control shrimp over 24-120 h. The haemocyte count, phenoloxidase activity, respiratory burst, superoxide dismutase activity, and lysozyme activity of shrimp immersed in 600 mg L(-1) extract were significantly higher than those of unchallenged control shrimp at 6, 6, 6, 6, and 6-24 h post-challenge. In another experiment, shrimp which had received 3 h immersion of 0, 400, 600 mg L(-1) extract were challenged with WSSV. The shrimp were then received a booster (3 h immersion in the same dose of the extract), and the immune parameters were examined at 12-120 h post-challenge. The immune parameters of shrimp immersed in 600 mg L(-1) extract, and then received a booster at 9, 21, and 45 h were significantly higher than those of unchallenged control shrimp at 12-48 h post-challenge. In conclusion, shrimp which had received the extract exhibited protection against WSSV as evidenced by the higher survival rate and higher values of immune parameters. Shrimp which had received the extract and infected by WSSV showed improved immunity when they received a booster at 9, 21, and 45 h post-WSSV challenge. The extract treatment caused less decrease in PO activity, and showed better performance of lysozyme activity and antioxidant response in WSSV-infected shrimp.     

Characterization and Diagnostic Use of a Monoclonal Antibody for VP28 Envelope Protein of White Spot Syndrome Virus

The gene encoding the VP28 envelope protein of White spot syndrome virus (WSSV) was cloned into expression vector pET-30a and transformed into the Escherichia coli strain BL21.After induction,the recombinant VP28 (rVP28) protein was purified and then used to immunize Balb/c mice for monoclonal antibody (MAb) production.It was observed by immuno-electron microscopy the MAbs specific to rVP28 could recognize native VP28 target epitopes of WSSV and dot-blot analysis was used to detect natural WSSV infection.Co...     

Effects of oral recombinant VP28 expressed in silkworm (Bombyx mori) pupa on immune response and disease resistance of Procambarus clarkii

The envelope protein VP28 of white spot syndrome virus (WSSV) was overexpressed in the silkworm Bombyx mori, which was achieved by using a baculovirus (HyNPV) expression system and by making silkworm pupa as an alternative host, and then it was directly supplemented in diet at a dose of 20 g kg⁻¹ without purification. During a 30 day feeding period, the levels of phenoloxidase (PO) and superoxide dismutase (SOD) in the haemolymph of the tested Procambarus clarkii increased greatly (P < 0.05) when compared to the control crayfish fed with wild-type HyNPV baculovirus-infected silkworms or normal silkworms. Compared with two controls, the crayfish which had been infected for 20 days showed a significantly lower (P < 0.05) mean cumulative mortality (15.6%), which respectively, resulted in relative percent survivals (RPS) of 83.7 and 84.4%. The efficacy to inhibition of viral infection was further studied by in situ hybridization with a WSSV-specific DNA probe. The high levels of PO and SOD might be important for developing resistance against WSSV in these crayfish.