Penaeus monodon IKKs Participate in Regulation of Cytokine-Like System and Antiviral Responses of Innate Immune System.

The IKK-NF-κB signaling cascade is one of the crucial responsive mechanisms in inflammatory and immune responses. The key kinase proteins called inhibitor of kappa B kinases (IKKs) serve as the core elements involved in cascade activation. Here, the complete ORFs of IKK homologs, PmIKKß, PmIKKε1, and PmIKKε2, from the black tiger shrimp Penaeus monodon were identified and characterized for their functions in shrimp antiviral responses. The PmIKK transcripts were widely expressed in various examined tissues and the PmIKKε protein was detected in all three types of shrimp hemocytes. Only the PmIKKε1 and PmIKKε2 were responsive to white spot syndrome virus (WSSV), yellow head virus (YHV) and a bacterium Vibrio harveyi infection, while the PmIKKß exhibited no significant response to pathogen infection. On the contrary, suppression of PmIKKß and PmIKKε by dsRNA-mediated RNA interference (RNAi) resulted in a rapid death of WSSV-infected shrimp and the significant reduction of an IFN-like PmVago4 transcript. Whereas, the mRNA levels of the antimicrobial peptides, ALFPm3 and CrustinPm5, and a transcription factor, PmDorsal were significantly increased, those of ALFPm6, CrustinPm1, CrustinPm7, PmVago1, PmRelish, and PmCactus were unaffected. Overexpression of PmIKKß and PmIKKε in HEK293T cells differentially activated the NF-κB and IFNß promoter activities, respectively. These results suggest that the PmIKKß and PmIKKε may act as common factors regulating the expression of immune-related genes from various signaling pathways. Interestingly, the PmIKKs may also contribute a possible role in shrimp cytokine-like system and cross-talking between signaling transductions in innate immune responses.

Plasmolipin, PmPLP1, from Penaeus monodon is a potential receptor for yellow head virus infection.

Plasmolipin has been characterized as a cell entry receptor for mouse endogenous retrovirus. In black tiger shrimp, two isoforms of plasmolipin genes, PmPLP1 and PmPLP2, have been identified from the Penaeus monodon EST database. The PmPLP1 is highly up-regulated in yellow head virus (YHV)-infected shrimp. Herein, the function of PmPLP1 is shown to be involved in YHV infection. The immunoblotting and immunolocalization showed that the PmPLP1 protein was highly expressed and located at the plasma membrane of gills from YHV-infected shrimp. Moreover, the PmPLP1 expressed in the Sf9 insect cells resided at the cell membrane rendering the cells more susceptible to YHV infection. Using the ELISA binding and mortality assays, the synthetic external loop of PmPLP1 was shown to bind the purified YHV and neutralize the virus resulting in the decrease in YHV infection. Our results suggested that the PmPLP1 was likely a receptor of YHV in shrimp.

Activation of an immune response in Litopenaeus vannamei by oral immunization with phagocytosis activating protein (PAP) DNA.

The phagocytosis activating protein (PAP) gene has been reported to stimulate the phagocytic activity of shrimp hemocytes and to protect shrimp from several pathogens. In this study oral administration of the chitosan-PAP gene to shrimp was investigated for its ability to induce immunity. The PAP gene was cooperated into a phMGFP plasmid, named PAP-phMGFP. Chitosan-PAP-phMGFP nanoparticles were formed by mixing a low molecular weight chitosan (50 kDa) and a high molecular weight chitosan (150 kDa) with various ratios of PAP-phMGFP. The optimal ratio of chitosan PAP-phMGFP nanoparticles was first determined by transfection into Chinese Hamster Ovary (CHO) cells before being used for oral immunization in shrimp. The chitosan-PAP-phMGFP nanoparticles at a ratio of 2:1 with the low molecular weight chitosan were optimum for transfecting the CHO cells. The shrimp were then fed with 25, 50, 100 and 150 µg/shrimp/day of chitosan-PAP-phMGFP (2:1) nanoparticles then challenged by the white spot syndrome virus (WSSV). Shrimp fed with 50 µg of chitosan-PAP-phMGFP nanoparticles per day for 7 consecutive days, produced the highest relative percent survival (RPS) (94.45 ± 9.86%). The presence of PAP-phMGFP was detected in every shrimp tissue including the hemolymph, lymphoid organ, heart, hepatopancreas, intestine and muscle. The folds increase of the PAP gene expression increased significantly together with an increase of the phagocytic activity in the immunized shrimp. The stability of the PAP-phMGFP in the immunized shrimp hemolymph was detected by determination of the expression of the GFP at various days after immunization ceased. GFP expression was detected until the 15th day but not at the 30th day after immunization ceased. A quantitative analysis of the WSSV copies in shrimp heart tissue was significantly reduced in the immunized shrimp. In addition, chitosan-PAP-phMGFP nanoparticles protected shrimp against WSSV, Yellow head virus (YHV) and Vibrio harveyi with RPS values of 83.34 ± 7.86%, 55.56 ± 15.72% and 53.91 ± 5.52%, respectively. This study therefore confirms the role of the PAP gene in shrimp immunity and may lead to the development of a way to prevent microbial diseases of shrimp at an industrial level by appropriate feeding of a chitosan/DNA complex.

Phosphorylation is required for myosin regulatory light chain (PmMRLC) to control yellow head virus infection in shrimp hemocytes.

The cellular signal-transduction process is largely controlled by protein phosphorylation. Shrimp infected with yellow head virus show dramatic changes in their hemocyte phosphoproteomic patterns, and aberrant activation of phosphorylation-based signaling networks has been implicated in a number of diseases. In this study, we focused on phosphorylation of Penaeus monodon myosin regulatory light chain (PmMRLC) that is induced at an early hour post YHV infection and is concomitant with cellular actin remodeling. In shrimp cell cultures, this phosphorylation was inhibited by the myosin light chain kinase (MLCK) inhibitors ML-7 and ML-9, suggesting that PmMLC phosphorylation is MLCK pathway-dependent. Blocking PmMRLC phosphorylation resulted in increased replication of YHV and reduction of phagocytic activities of shrimp hemocytes called semigranular cells (SGC) and granular cells (GC). Injection of MLCK inhibitors prior to YHV challenge resulted in dose-dependent elevation in quantity of YHV-positive GC and cytoplasmic YHV protein, coincident with high shrimp mortality. Altogether, we demonstrated that PmMRLC phosphorylation increases after YHV infection in shrimp and that inhibition of the phosphorylation leads to increased YHV replication, reduced hemocyte phagocytic activity (probably through actin remodeling) and subsequent shrimp death. Thus, further studies on the MLCK activation pathway may lead to new strategies in development and implementation of therapy for YHV infections in shrimp.

Gene expression and characterization of a serine proteinase inhibitor PmSERPIN8 from the black tiger shrimp Penaeus monodon.

The ubiquitous SERPINs or serine proteinase inhibitors are essential for controlling proteinases in several biological processes in various organisms. A PmSERPIN8, one of eight SERPINs identified from the Penaeus monodon database, is studied and reported herein. The open reading frame of PmSERPIN8 gene derived from a genomic gene contains 5 exons of 320, 139, 244, 239 and 312 bp separated by 4 introns of 447, 657, 326 and 479 bp. The PmSERPIN8 gene is highly expressed at nauplius stage and gradually subsided as the shrimp grow through zoea, mysis and postlarva stages. At sub-adult stage, the PmSERPIN8 gene is expressed mainly in the hemocyte and epipodite. The expression in response to Vibrio harveyi and YHV injection is up-regulated, respectively, at 24 and 48 h post-injection. The number of PmSERPIN8-producing hemocytes, however, is observed highest at 48 h post V. harveyi injection. All three hemocyte cell types: hyaline, semigranular and granular hemocytes are able to produce PmSERPIN8. The recombinant mature PmSERPIN8 (rPmSERPIN8) with a predicted size of 45.5 kDa was over-produced in an Escherichia coli system, solubilized from the inclusion bodies, purified and tested for its activity. We have found that the rPmSERPIN8 is able to inhibit the growth of Gram-positive bacterium, Bacillus subtilis, but not Gram-negative bacterium, V. harveyi 639, and inhibit the shrimp prophenoloxidase system. The PmSERPIN8 is, thus, involved in the shrimp innate immunity.

The transcriptomic response to viral infection of two strains of shrimp (Litopenaeus vannamei).

The extent to which data-intensive studies of the transcriptome can provide insight into biological responses is not well defined, especially in the case of species (such as shrimp) where much physiological and biochemical knowledge is missing. In this study we took a transcriptomic approach to gain insight into the response to viral infection of two strains of the Pacific whiteleg shrimp (Litopenaeus vannamei) that differ in their resistance to Taura Syndrome Virus (TSV). Changes in gene expression in the hepatopancreas following infection with TSV and Yellow Head Virus (YHV) were assessed using a cDNA microarray containing 2469 putative unigenes. The null hypothesis tested was that significant differences between the transcriptomic responses to viral infection of resistant and sensitive strains would not be detected. This hypothesis was broadly rejected, with the most surprising observation being that the baseline (control, unchallenged) sensitive and resistant strains expressed distinguishable transcriptomic signatures. The resistant line was pre-disposed to lower expression of genes encoding viral (and host) proteins. Many of the genes differentiating resistant and sensitive lines are involved in protein metabolism, cellular trafficking, immune defense and stress response, although it was not possible to clearly identify candidate genes responsible for TSV resistance. In contrast to TSV challenge, YSV either failed to perturb the host transcriptome or created a "confused" response that was difficult to interpret.

Microarray analyses of shrimp immune responses.

Shrimp aquaculture is one of the major foodproducing industries in the world. However, it is being impacted by several problems including diseases, antibiotic use, and environmental factors. The extent of the effects of these problems in the immune system of the shrimp at the molecular level is just beginning to be understood. Here, we review the gene expression profile of shrimp in response to some of these problems using the high-throughput microarray analysis, including white spot syndrome virus, yellow head virus, Vibrio spp., peptidoglycan, oxytetracycline, oxolinic acid, salinity, and temperature.

Identification of genes expressed in response to yellow head virus infection in the black tiger shrimp, Penaeus monodon, by suppression subtractive hybridization.

Suppression subtractive hybridization (SSH) was employed to identify yellow head virus (YHV)-responsive genes from the hemocytes of the black tiger shrimp, Penaeus monodon. Two SSH cDNA libraries were constructed to identify viral responsive genes in the early (24I) and late (48/72I) phases of YHV infection. From 240 randomly selected clones from each library, 155 and 30 non-redundant transcripts were obtained for the early and late libraries, respectively. From these clones, 72 and 16, respectively, corresponded to known genes (E-values < 1 x 10(-4)) that could be categorized according to their putative functions. The upregulated genes identified as likely to be associated with cell defense and homeostasis were found at a high proportion in the 24I SSH library, but not in 48/72I SSH library implying that these immune molecules participate in viral defense immunity in the early phase of YHV infection whereas their expressions were suppressed in the late phase of infection. Novel YHV-responsive genes were uncovered from these SSH libraries including caspases, histidine triad nucleotide-binding protein 2, Rab11, beta-integrin, tetraspanin, prostaglandin E synthase, transglutaminase, Kazal-type serine proteinase inhibitor and antimicrobial peptides. Among these YHV-responsive genes, several have been previously reported to participate in defense against white-spot syndrome virus (WSSV) implying that YHV infection in shrimp induces similar host immune responses as observed during WSSV infection. The expression of four apparently upregulated immune-related genes identified from the two SSH libraries, anti-lipopolysaccharide factor isoform 6 (ALFPm6), crustin isoform 1 (crustinPm1), transglutaminase and Kazal-type serine proteinase inhibitor isoform 2 (SPIPm2), was evaluated by real-time RT-PCR to reveal differential expression in response to YHV infection at 6, 24, 48 and 72 h post-infection. The results confirmed their differential expression and upregulation, and thus verified the success of the SSHs and the likely involvement of these genes in shrimp antiviral mechanisms.

A key gene of the RNA interference pathway in the black tiger shrimp, Penaeus monodon: identification and functional characterisation of Dicer-1.

RNA interference (RNAi) is an evolutionarily conserved mechanism by which double-stranded RNA (dsRNA) initiates post-transcriptional silencing of homologous genes. Here we report the amplification and characterisation of a full length cDNA from black tiger shrimp (Penaeus monodon) that encodes the bidentate RNAase III Dicer, a key component of the RNAi pathway. The full length of the shrimp Dicer (Pm Dcr1) cDNA is 7629bp in length, including a 5' untranslated region (UTR) of 130bp, a 3' UTR of 77bp, and an open reading frame of 7422bp encoding a polypeptide of 2473 amino acids with an estimated molecular mass of 277.895kDa and a predicted isoelectric point of 4.86. Analysis of the deduced amino acid sequence indicated that the mature peptide contains all the seven recognised functional domains and is most similar to the mosquito (Aedes aegypti) Dicer-1 sequence with a similarity of 34.6%. Quantitative RT-PCR analysis showed that Pm Dcr1 mRNA is most highly expressed in haemolymph and lymphoid organ tissues (P<0.05). However, there was no correlation between Pm Dcr1 mRNA levels in lymphoid organ and the viral genetic loads in shrimp naturally infected with gill-associated virus (GAV) and Mourilyan virus (P>0.05). Treatment with synthetic dsRNA corresponding to Pm Dcr1 sequence resulted in knock-down of Pm Dcr1 mRNA expression in both uninfected shrimp and shrimp infected experimentally with GAV. Knock-down of Pm Dcr1 expression resulted in more rapid mortalities and higher viral loads. These data demonstrated that Dicer is involved in antiviral defence in shrimp.

Down-regulation of defender against apoptotic death (DAD1) after yellow head virus (YHV) challenge in black tiger shrimp Penaeus monodon.

Here we describe the highly conserved gene, defender against apoptotic death (DAD1) identified from an EST library of the black tiger shrimp Penaeus monodon. The full-length cDNA of DAD1 of P. monodon comprised 638bp with an ORF of 345bp corresponding to 114 deduced amino acids. The deduced amino acid sequence was compared to known DAD1 sequences in the GenBank and in other databases. Phylogenetic analysis revealed that P. monodon DAD1 clustered with DAD1 from other invertebrates. Real-time RT-PCR with RNA extracts from normal P. monodon revealed DAD1 expression in several tissues including those of digestive and defense organs such as the hepatopancreas and hemocytes, respectively. If death from YHV infection was related to increased levels of apoptosis, we reasoned that the level of DAD1 should decrease as YHV infections progressed, especially in hemocytes (HC), one of its main targets. Real-time RT-PCR with RNA extracts from HC of P. monodon challenged with YHV revealed that the transcriptional level of DAD1 declined dramatically (approximately 50%) after YHV challenge. Although this suggests that DAD1 plays a role in mortality caused by YHV, control of apoptosis is complex and involves the interaction of many proteins, few of which have been characterized for shrimp. Thus, firm conclusions regarding the role of DAD1 must await the description and characterization of other proteins.

Characterization and diagnostic use of a recombinant single-chain antibody specific for the gp116 envelop glycoprotein of Yellow head virus.

Yellow head virus (YHV) is an invertebrate nidovirus that can cause mass mortality of the cultured Penaeus monodon shrimp. A single-chain variable fragment (scFv) antibody directed against the gp116 envelop glycoprotein of YHV was constructed from hybridomas. Variable heavy (V(H)) and light (V(L)) chain genes were amplified from cDNA using antibody-specific primers, linked to generate a full-length gene via a standard peptide linker, ligated into the pET28a expression vector and transformed into E. coli. The expressed insoluble scFv antibody was solubilized, purified using immobilized metal affinity chromatography and rapid refolded; final yield 1-1.5 mg/l. Solid-phase non-competitive enzyme-linked immunosorbent assay (non-competitive ELISA) determined the affinity constant (K(A)) to be 3.34+/-0.38 x 10(8)l/mol. The sensitivity and specificity of scFv antibody was demonstrated by ELISA, dot blot and Western blot analysis. The detection limit determined by dot blot and indirect ELISA was 9 ng and 45 ng of purified YHV, respectively. Dot-blot assays revealed that the scFv antibody could detect YHV-infected shrimp at 24h post-infection and did not cross-react with White spot syndrome virus (WSSV) and Taura syndrome virus (TSV) proteins. The scFv antibody therefore might find application in rapid, simple and sensitive diagnostic tests to detect YHV in farmed shrimp.

High expression of a novel leucine-rich repeat protein in hemocytes and the lymphoid organ of the black tiger shrimp Penaeus monodon.

A novel leucine-rich repeat (LRR) cDNA has been cloned from hemocytes of the black tiger shrimp Penaeus monodon by 5' rapid amplification of cDNA ends. The full-length of P. monodon LRR (PmLRR) consisted of 2604 bp with a 1686-bp open reading frame, encoding 561 amino acids. The deduced protein contained a high proportion of leucine residues (17%) and had significant homology to LRR-containing proteins from bacteria to humans. Sixteen tandem LRR motifs of 23-24 amino acids in length occurred in the primary sequence. The computed 3D structure revealed a horseshoe shape consisting of alternately repeated strand and helical domains. Such structures are generally considered to mediate protein - protein interactions and to our knowledge, this is the first report of an LRR protein from a crustacean. PmLRR expression was tissue-specific (i.e. highest in hemocytes, intestine and lymphoid organ) suggesting that it may play some roles in shrimp defense against pathogens. A preliminary test suggested that PmLRR may be down-regulated after viral injection.

Structural and antigenic analysis of the yellow head virus nucleocapsid protein p20.

Yellow head virus (YHV) is an invertebrate nidovirus that is highly pathogenic for marine shrimp. Nucleotide sequence analysis indicated that the YHV ORF2 gene encodes a basic protein (pI = 9.9) of 146 amino acids with a predicted molecular weight of 16,325.5 Da. The deduced amino acid sequence indicated a predominance of basic (15.1%), acidic (9.6%) and hydrophilic polar (34.3%) residues and a high proportion proline and glycine residues (16.4%). The ORF2 gene was cloned and expressed in Escherichia coli as a M(r) = 21 kDa His(6)-protein that reacted with YHV nucleoprotein (p20) monoclonal antibody. Segments representing the four linear quadrants of the nucleoprotein were also expressed in E. coli as GST-fusion proteins. Immunoblot analysis using YHV polyclonal rabbit antiserum indicated the presence of linear epitopes in all except the V(37)-Q(74) quadrant. Immunoblot analysis of the GST-fusion proteins and C-terminally truncated segments of the nucleoprotein allowed mapping of YHV monoclonal antibodies Y19, Y20 and YII4 to linear epitopes in the acidic domain between amino acids I(116) and E(137). The full-length nucleoprotein was expressed at high level in E. coli and was easily purified in quantity from the soluble cell fraction by Ni(+)-NTA affinity chromatography.