Development of a monoclonal antibody specific to yellow head virus (YHV) from Penaeus monodon

A monoclonal antibody specific to yellow head virus (YHV) was produced from a mouse immunized with gill extracts prepared from laboratory-reared Penaeus monodon dually infected with YHV and white spot syndrome virus (WSSV). One clone designated V3-2B specifically bound to native and SDS-treated viral specific antigens. Immunocytochemical studies of infected gills revealed viral specific immunoreactivities in the cytoplasm of gill tissue and in haemocytes. No antibody binding was observed in gills from non-infected shrimp. In addition, immunocytochemical examination of tissues from shrimp experimentally infected with YHV gave a positive reaction, while tissues from uninfected control shrimp or shrimp experimentally infected with WSSV did not. Western blot analysis indicated that the antibody reacted with a protein of approximately 135 kD that was present only in shrimp infected with YHV. In dot-blot indirect immunoperoxidase assays, the antibody was able to detect viral associated antigen in diluted haemolymph up to 1:50 dilution and in an ammonium sulfate precipitate of haemolymph up to 1:1000 dilution. The results suggested that this antibody might be useful for development of effective diagnostic techniques for both heavy and mild YHV infections in shrimp.     

Monoclonal antibodies specific to haemocytes of black tiger prawn Penaeus monodon

Monoclonal antibodies specific to haemocytes of Penaeus monodon were generated from a mouse immunized with a mixture of SDS-treated and formalin-fixed haemocytes. Hybridoma clones were selected by immunohistochemistry against fixed haemocytes, heart, lymphoid organ, and haemopoietic tissue, and Western blot against haemocyte extract and haemolymph. Sixteen monoclonal antibodies specific to haemocytes were obtained and could be divided into six groups according to their binding capacities to various haemocyte proteins in Western blot analyses, 102, 43, approximately 20, 61, 175 and approximately 230 kDa, and their differences in recognition of haemocyte sub-populations. The first group of antibodies strongly recognized a small subset of semi-granulocytes (SG) and hyalinocytes (H) but occasionally stained lightly a very small population of granulocytes (G). The antibodies also bound to a group of cells in haemopoietic tissue as well as cells located at the inner layers of the tubules in the lymphoid organ but not in the spheroid. The second group of antibodies strongly bound to a large sub-population of G and SG with coarse granules but did not bind to most of the H. This group of antibodies also cross-reacted with cells in the outer layer of the tubules in the lymphoid organ. The third group of antibodies recognized all G and only a small portion of SG. The fourth, fifth and sixth groups bound to sub-populations of G, SG and H in similar proportions. None of the antibodies showed any cross-reactivity to other components in haemolymph. The common antigens recognized by the first and the second groups of antibodies in the haemopoietic tissue and the lymphoid organ may reflect relationships among these organs in the development of the sub-populations of G and SG. Haemopoietic tissue may be the site for haemocyte production and the lymphoid organ may be the site for further differentiation of at least two different lines of haemocytes.     

Generation of monoclonal antibodies specific to Hepatopancreatic parvovirus (HPV) from Penaeus monodon

Hepatopancreatic parvovirus (HPV) was isolated from the hepatopancreas (HP) of slow growth Penaeus monodon by urografin gradient centrifugation. The presence of HPV in the fraction was monitored by PCR and sodium dodecyl sulphate polyacrylamide gel electrophoresis (SDS-PAGE). Only 1 major 54 kDa protein band was observed in the strong PCR-positive fractions used to immunize mice for monoclonal antibody production. After cell fusion, the first step in selecting specific antibodies was performed by dot-blot assay with purified HPV viral particles. The second screening step was carried out using Western blots of purified HPV proteins and immunohistochemistry of HPV-infected HP tissue. Four monoclonal antibodies were isolated; these bound to the 54 kDa protein in Western blots and to intranuclear inclusion bodies in tubule epithelial cells of HPV-infected prawn tissue by immunohistochemistry. None of the antibodies showed cross-reactivity either to uninfected shrimp tissue or to other shrimp viruses tested. These reagents have potential for use in developing a highly sensitive immunoassay such as sandwich ELISA or a convenient kit for detection of HPV infection.     

Up-regulation of ribophorin I after yellow head virus (YHV) challenge in black tiger shrimp Penaeus monodon

This work constitutes the second report from a continuing investigation of shrimp genes that may be involved in apoptosis associated death resulting from yellow head virus (YHV) infection. Here, we describe from the black tiger shrimp Penaeus monodon, a ribophorin I-like gene that is probably a subunit of the oligosaccharyltransferase complex (OST), a key enzyme in N-linked glycosylation that occurs in the endoplasmic reticulum. The OST complex also contains DAD1 (defender against apoptotic death 1) that has been reported to control apoptosis and that we have previously reported from P. monodon. The full length ribophorin I of P. monodon comprised 2157 bp with the ORF of 1806 bp corresponding to 601 deduced amino acids and three putative N-linked glycosylation sites. Analysis revealed hydrophobic properties implying that it could be a membrane protein. Tissue distribution analysis using real-time RT-PCR with SYBR Green revealed that ribophorin I was endogenously expressed in all examined tissues of normal shrimp. However, unlike DAD1 that was down-regulated after YHV challenge, ribophorin I expression was up-regulated and remained high until the moribund stage.     

YHV-protease dsRNA inhibits YHV replication in Penaeus monodon and prevents mortality

Yellow head virus infects cultured shrimps and causes severe mortality resulting in a great economic loss. Haemolymph injection of dsRNA(pro) corresponding to the protease motif of YHV genome resulted in a complete inhibition of YHV replication. The effect of dsRNA lasted for at least 5 days. Injecting sequence-unrelated dsRNA(gfp) or dsRNA(TSV-pol) also resulted in an inhibition of YHV replication but at a comparatively much less extent. Shrimp mortality was monitored for 10 days when more than 90% shrimps receiving no dsRNA died within 8 dpi. However, those receiving dsRNA(pro) showed no mortality. A partial mortality was observed among the shrimps receiving dsRNA(gfp) or dsRNA(TSV-pol). Thus, Penaeus monodon possesses the sequence-specific protection to YHV infection, most likely through the RNAi pathway, in addition to sequence-independent protection. It gives a new notion that dsRNA induction of antiviral immunity in shrimp goes through two pathways, sequence-independent and sequence-dependent.     

Monoclonal antibodies specific to plant tubulin

Summary Tubulin was isolated from mung bean seedling by a combination of affinity (ethyl N-phenylcarbamate-Sepharose 4 B) and ion exchange (DEAE-Sephacel) chromatography. Using SDS-PAGE together with blotting with subunit-specific antitubulins, mung bean tubulin has been shown to consist of two -tubulin subunits, MBT₂ and MBT₃, of which MBT₃ is a minor component, and one -tubulin, MBT₁.Monoclonal antibodies were produced by fusing mouse myeloma cells and spleen cells from a Balb/c mouse immunized with mung bean tubulin. Antibody producing cell lines were identified by an ELISA assay and immunofluorescence microscopy and subsequently cloned by limiting dilution.The properties of monoclonal antibody (K₄E₇G₃) were examined by Western blot analysis and indirect immunofluorescence studies. K₄E₇G₃ reacts with MBT₂ and MBT₃ -tubulin subunits of mung bean tubulin, but not with MBT₁ -tubulin nor with the - and -subunits of sheep brain tubulin. Peptide fragments transferred onto nitrocellulose papers were treated with K₄E₇G₃ and with other monoclonal antibodies that are known to be specific to the -subunit of yeast tubulin and - or -subunit of mammalian brain tubulin. MBT₂ and MBT₃ are shown to be similar but not identical and are quite different from MBT₁ and the -subunit of sheep brain tubulin. K₄E₇G₃ reacts with peptide fragments in MBT₂ and MBT₃ that are not found in digests of brain tubulin, and that are either not reactive or only weakly reactive to the antibodies to yeast and brain -tubulin. It is concluded that K₄E₇G₃ and another monoclonal antibody, K₂D₇B₈, which has similar properties, are relatively specific for plant -tubulin.In indirect immunofluorescence studies on a wide range of plant cells, the epitopes recognised by these monoclonal antibodies are shown to be present in all types of microtubule array that were investigated. The spindle, preprophase band, phragmoplast and interphase microtubules were clearly observed in onion and mung bean root tip cells. Reactions with spindle microtubules ofFunaria spore mother cells and with the blepharoplast and flagella microtubules of fern spermatozoa are also seen. However, studies using several animal cell lines have shown that K₄E₇G₃ and K₂D₇B₈ do not give positive immunofluorescent localization of animal microtubules, correlating with the inability of K₄E₇G₃ to react with brain tubulin subunits on Western blot analysis.     

White spot syndrome virus (WSSV) in cultured Penaeus monodon in the Philippines

The prevalence and geographic distribution of white spot syndrome virus (WSSV) infection among cultured penaeid shrimp in the Philippines was determined from January to May, 1999, using PCR (polymerase chain reaction) protocol and Western blot assays. A total of 71 samples consisting of 18 post-larvae (PL) and 53 juvenile/adult shrimp samples (56 to 150 days-of-culture, DOC) were screened for WSSV. Of the 71 samples tested, 51 (72%) were found positive for WSSV by PCR: 61% (31/51) after 1-step PCR and 39% (20/51) after 2-step, non-nested PCR. Of the PL and juvenile/adult shrimp samples tested, 50 and 79% were positive for WSSV, respectively. By Western blot, only 6 of the 51 (12%) PCR-positive samples tested positive for WSSV. Of the 20 samples negative for WSSV by PCR, all tested negative for WSSV by Western blot assay. This is the first report of the occurrence of WSSV in the Philippines.     

Characterisation of different morphological features of black tiger shrimp (Penaeus monodon) haemocytes using monoclonal antibodies

Monoclonal antibodies (mabs) specific for Penaeus monodon haemocytes were produced by immunising mice with membrane lysates of shrimp haemocytes. Four mabs (WSH 6, WSH 7, WSH 8 and WSH 16) were characterised using flow cytometry, light microscopy, laser scanning microscopy, electron microscopy and immunoprecipitation. WSH 6 recognised a carbohydrate determinant on an 85 kDa molecule. WSH 7, WSH 8 and WSH 16 recognised 50, 35 and 115 kDa molecules, respectively. For all mabs, differences in amount and intensity of the labelling were found when haemocytes were fixed immediately in 2% formaldehyde in Alsever's Solution (AS), compared with non-fixed haemocytes that were kept in AS (which reduced activation of the haemocytes) or in L15 cell culture medium. WSH 6 reacted with the cell membranes of all fixed haemocytes, while WSH 7 and WSH 16 reacted with the cell membranes of >80% of fixed haemocytes. The membrane labelling appeared to decrease when cells were kept in L15 medium. WSH 8 did not react with the haemocyte membranes. All mabs reacted with some granules, mainly present in the hyaline cells, when the haemocytes were immediately fixed. When non-fixed cells were kept in AS and in L15 medium, positive granules were also observed in semigranular and granular haemocytes as well as in the largest granules of a fourth cell type, that contains many granules of different size and electron density. Immunoreactive extracellular thread-like material could be observed in cells in L15 medium. The change in staining pattern was extreme for WSH 8, somewhat less for WSH 6 and WSH 7 and the lowest for WSH 16. Double labelling revealed that all mabs showed a different staining pattern on membranes as well as on granules. WSH 16 also showed labelling in cytoplasmic vesicles, as well as in haemolymph plasma on histological sections. The hypothesis is put forward that immunoreactive molecules recognised by these mabs, are related to haemocyte activation factors.     

Monoclonal antibodies specific for African swine fever virus proteins.

We have obtained 60 stable hybridomas which produced immunoglobulins that recognized 12 proteins from African swine fever virus particles and African swine fever virus-infected cells. Most of the monoclonal antibodies were specific for the three major structural proteins p150, p72, and p12. The specificity of some monoclonal antibodies for the structural proteins p150 and p37 and the nonstructural proteins p220 and p60 indicated that proteins p150 and p220 are antigenically related to proteins p37 and p60. The association of some viral antigens to specific subcellular components was determined by immunofluorescence and analysis of the binding of monoclonal antibodies to infected cells. A host protein (p24) seemed to be associated with the virus particles.     

Monoclonal antibodies to beet soil-borne virus

Four monoclonal antibodies (MCA) were obtained to the ‘Ahlum’ serotype of beet soil-borne virus (BSBV). On ELISA plates which had been precoated with polyclonal antibodies (PCA) all four MCA detected this serotype with a higher sensitivity than alkaline phosphatase-labelled PCA. Three of the MCA were specific for the ‘Ahlum’ serotype, but a fourth one also detected the distantly related ‘Wierthe’ serotype. Cross-reactions with wheat soil-borne or oat golden stripe furoviruses were not observed. One of the MCA reacted with an epitope which is exposed along the entire length of the BSBV particles, whereas two others were specific for epitopes which are exposed on one particle extremity only. Although these latter two epitopes occur apparently on the same extremity of the particles, they seem to be different, because one is found only on the particles of the ‘Ahlum’ serotype, whereas the other one is present also on the particles of the ‘Wierthe’ serotype. The fourth MCA is specific for a cryptotope which is not exposed on the intact virus particles, but presumably on some degradation product or precursor of the viral coat protein present in crude sap preparations. All four epitopes are SDS-labile; they are not detected on denatured viral coat protein on Western blots.     

Changes in tissue defence system in white spot syndrome virus (WSSV) infected Penaeus monodon

The present study examined the changes occurring in the pro phenoloxidase system and antioxidant defence status in haemolymph, hepatopancreas and muscle tissue of white spot syndrome virus (WSSV) infected Penaeus monodon. Tiger shrimps (P. monodon) were infected with white spot virus by intramuscular injection of the virus inoculum. Levels of lipid peroxides and the activities of phenoloxidase, glutathione-dependent antioxidant enzymes [glutathione peroxidase (GPX), glutathione-S-transferase (GST)] and antiperoxidative enzymes [superoxide dismutase (SOD) and catalase (CAT)] were determined. WSSV infection induced a significant increase in lipid peroxidation in haemolymph, muscle and hepatopancreas of experimental P. monodon compared to normal controls. This was paralleled by significant reduction in the activities of phenol oxidase, glutathione-dependent antioxidant enzymes and antiperoxidative enzymes. The results of the present study indicate that the tissue antioxidant defence system in WSSV infected P. monodon is operating at a lower rate, which ultimately resulted in the failure of counteraction of free radicals, leading to oxidative stress as evidenced by the increased level of lipid peroxidation.     

Different responses to infectious hypodermal and hematopoietic necrosis virus (IHHNV) in Penaeus monodon and P. vannamei

Infectious hypodermal and hematopoietic necrosis virus (IHHNV) is widespread in cultured Penaeus monodon and P. vannamei in Thailand. It causes runt-deformity syndrome that is characterized by physical abnormalities and stunted growth in P. vannamei, but causes no apparent disease in P. monodon. In both species, the virus may produce Cowdry Type A inclusions in tissues of ectodermal and mesodermal origin, but these are common in P. vannamei and rare in P. monodon. The virus can be more easily detected in both species by IHHNV-specific PCR primers. By in situ hybridization (ISH) using specific IHHNV probes, fixed phagocytes associated with myocardial cells tended to show strong positive reactions in both shrimp species. Ovarian and neural tissue (neurons in the nerve ganglia and glial cells in the nerve cord) were ISH positive for IHHNV only in P. vannamei. By transmission electron microscopy, necrotic cells were found in the gills of IHHNV-infected P. vannamei, while paracrystalline arrays of virions and apoptotic cells rather than necrotic cells were found in the lymphoid organ of IHHNV-infected P. monodon. Thus, it is possible that apoptosis in P. monodon contributes to the absence of clinical disease from IHHNV. These findings reveal different responses to IHHNV infection by the 2 shrimp species. A curious feature of IHHNV infection in P. monodon was inconsistency in the comparative viral load amongst tissues of different specimens, as detected by both ISH and real-time PCR. This inconsistency in apparent tissue preference and the reasons for different cellular responses between the 2 shrimp species remain unexplained.