Molluscan death effector domain (DED)-containing caspase-8 gene from disk abalone (Haliotis discus discus): molecular characterization and expression analysis

The caspase family represents aspartate-specific cysteine proteases that play key roles in apoptosis and immune signaling. In this study, we cloned the first death effector domain (DED)-containing molluscan caspase-8 gene from disk abalone (Haliotis discus discus), which is named as hdCaspase-8. The full-length hdCaspase was 2855 bp, with a 1908 bp open reading frame encoding 636 amino acids. The hdCaspase-8 had 72 kDa predicted molecular mass with an estimated isoelectric point (PI) of 6.0. The hdCaspase-8 amino acid sequence contained the characteristic feature of an N-terminal two DED, a C-terminal catalytic domain and the caspase family cysteine active site ⁵¹³KPKLFFLQACQG⁵²⁴. Phylogenetic analysis results showed that hdCaspase-8 is more similar to the invertebrate Tubifex tubifex (sludge worm) caspase-8.Real-time RT-PCR results showed that hdCaspase-8 constitutively and ubiquitously expressed in all tested tissue of unchallenged disk abalone. The basal expression level of hdCaspase-8 in gill tissue was higher than all other tested tissues. The hdCaspase-8 mRNA expression in gill and hemocytes was significantly up-regulated by exposure to bacteria (Vibrio alginolyticus, Vibrio parahemolyticus and Listeria monocytogenes) and VHSV (viral hemorrhagic septicemia virus), as compared to control animals. These results suggest that hdCaspase-8 may be involved in immune response reactions in disk abalone.     

Molluskan fasciclin-1 domain-containing protein: Molecular characterizationand gene expression analysis of fasciclin 1-like protein from disk abalone (Haliotis discus discus)

Cell-to-cell contacts play a key role in multicellular systems and organisms. Fasciclin-1 (FAS-1) is a lipid-linked membrane associated glycoprotein that is a member of a newly recognized family of cell adhesion molecules sharing features with the immunoglobulins, cadherins, integrins, and selectins. Here, we report the identification and molecular characterization of a novel FAS-1 domain-containing cDNA from disk abalone (Haliotis discus discus), including its gene expression profile and immune response to bacterial stimuli and tissue injuries. Designated as Abfac1, the 909 bp open reading frame (ORF) encodes 303 amino acid (aa) residues with a predicted molecular mass of 33 kDa and isoelectric (pI) value of 4.9. The aa sequence contains two FAS-1 domains and three conserved regions, FRa motif, H-box, and FRb motif. Phylogenetic analysis showed the closest relation to Jellyfish cell adhesion protein. In healthy abalone, Abfac1 expression is highest in hepatopancreas followed by mantle and lowest in digestive gland. In immune-stimulated abalones, relative Abfac1 mRNA expression was increased in hemocytes by ~ 11-fold at 48 h after the Vibrio parahaemolyticus infection, by 3.1-fold at 6 h after the Listeria monocytogenes infection and by ~ 9-fold at 6 h after the LPS injection. Similarly, tissue injuries caused significant increase of relative mRNA expression by 3.5-fold in hemocytes and by ~ 10-fold in mantle at 12 h post-injury. These results suggest that the novel member of the FAS-1 domain-containing protein family, Abfac1, may be involved in immune response and cell adhesion in disk abalone.     

Molecular cloning and expression analysis of interferon-gamma inducible lysosomal thiol reductase (GILT)-like cDNA from disk abalone (Haliotis discus discus)

Interferon Gamma (IFN-gamma) Inducible Lysosomal Thiol reductase (GILT) has been described as a key enzyme in processing and presentation of major histocompatibility complex (MHC) class II restricted antigen (Ag) by catalyzing disulfide bond (S-S) reduction in mammals. Abalone GILT-like (AbGILT) full-length cDNA was isolated from the normalized disk abalone cDNA library. The 807-bp AbGILT cDNA consists of an open reading frame of 684-bp, encoding 228 amino acid residues. The predicted AbGILT protein has a molecular weight of 25kDa and an isoelectric point of 7.8. The N-terminus of the AbGILT was found to have a putative signal peptide with a cleavage site amino acid position at 19-20. AbGILT contains two active site C-XX-C motifs, ((23)CLDC(26) and (46)CPYC(49)) which motif is highly conserved in GILT protein family. AbGILT exhibited a characteristic GILT signature sequence (92)CQHGX(2)ECX(2)NX(4)C(107) and 12 cysteine residues representing 5% in the mature peptide. Phylogenetic analysis showed that AbGILT has been derived from a common ancestor with other GILT proteins. RT-PCR results showed that AbGILT expression was up-regulated in the gill, mantle and digestive tract 24h post injection of phytohemagglutinin (PHA) while Vibrio alginolyticus up-regulation appeared in the gill and digestive tract after 48h. In contrast, AbGILT expression was not up-regulated by poly inosinic-cytidylic acid (poly I:C) during the 48h induction. However, AbGILT was constitutively expressed in gill, mantle, and digestive tract tissues suggesting that it may maintain first line of innate immune defense at basal level in disk abalone.     

Characterization of abalone Haliotis tuberculata–Vibrio harveyi interactions in gill primary cultures

The decline of European abalone Haliotis tuberculata populations has been associated with various pathogens including bacteria of the genus Vibrio. Following the summer mortality outbreaks reported in France between 1998 and 2000, Vibrio harveyi strains were isolated from moribund abalones, allowing in vivo and in vitro studies on the interactions between abalone H. tuberculata and V. harveyi. This work reports the development of primary cell cultures from abalone gill tissue, a target tissue for bacterial colonisation, and their use for in vitro study of host cell—V. harveyi interactions. Gill cells originated from four-day-old explant primary cultures were successfully sub-cultured in multi-well plates and maintained in vitro for up to 24 days. Cytological parameters, cell morphology and viability were monitored over time using flow cytometry analysis and semi-quantitative assay (XTT). Then, gill cell cultures were used to investigate in vitro the interactions with V. harveyi. The effects of two bacterial strains were evaluated on gill cells: a pathogenic bacterial strain ORM4 which is responsible for abalone mortalities and LMG7890 which is a non-pathogenic strain. Cellular responses of gill cells exposed to increasing concentrations of bacteria were evaluated by measuring mitochondrial activity (XTT assay) and phenoloxidase activity, an enzyme which is strongly involved in immune response. The ability of gill cells to phagocyte GFP-tagged V. harveyi was evaluated by flow cytometry and gill cells-V. harveyi interactions were characterized using fluorescence microscopy and transmission electron microscopy. During phagocytosis process we evidenced that V. harveyi bacteria induced significant changes in gill cells metabolism and immune response. Together, the results showed that primary cell cultures from abalone gills are suitable for in vitro study of host-pathogen interactions, providing complementary assays to in vivo experiments.     

Cloning and expression analysis of a HSP70 gene from Pacific abalone (Haliotis discus hannai)

Heat shock protein 70 (HSP70), the primary member of HSPs that are responsive of thermal stress, is found in all multicellular organisms and functions mostly as molecular chaperon. The inducible HSP70 cDNA cloned from Pacific abalone (Haliotis discus hannai) using rapid amplification of cDNA ends (RACE), was highly homologous to other HSP70 genes. The full-length cDNA of the Pacific abalone HSP70 was 2631bp, consisting of a 5'-terminal untranslated region (UTR) of 90bp, a 3'-terminal UTR of 573bp with a canonical polyadenylation signal sequence AATAAA and a poly (A) tail, and an open reading frame of 1968bp. The HSP70 cDNA encoded a polypeptide of 655 amino acids with an ATPase domain of 382 amino acids, the substrate peptide binding domain of 161 amino acids and a C-terminus domain of 112 amino acids. The temporal expression of HSP70 was measured by semi-quantitative RT-PCR after heat shock and bacterial challenge. Challenge of Pacific abalone with heat shock or the pathogenic bacteria Vibrio anguillarum resulted in a dramatic increase in the expression of HSP70 mRNA level in muscle, followed by a recovery to normal level after 96h. Unlike the muscle, the levels of HSP70 expression in gills reached the top at 12h and maintained a relatively high level compared with the control after thermal and bacterial challenge. The upregulated mRNA expression of HSP70 in the abalone following heat shock and infection response indicates that the HSP70 gene is inducible and involved in immune response.     

Molecular cloning and expression analysis of interferon-γ inducible lysosomal thiol reductase (GILT)-like cDNA from disk abalone (Haliotis discus discus)

Interferon Gamma (IFN-γ) Inducible Lysosomal Thiol reductase (GILT) has been described as a key enzyme in processing and presentation of major histocompatibility complex (MHC) class II restricted antigen (Ag) by catalyzing disulfide bond (S–S) reduction in mammals. Abalone GILT-like (AbGILT) full-length cDNA was isolated from the normalized disk abalone cDNA library. The 807-bp AbGILT cDNA consists of an open reading frame of 684-bp, encoding 228 amino acid residues. The predicted AbGILT protein has a molecular weight of 25 kDa and an isoelectric point of 7.8. The N-terminus of the AbGILT was found to have a putative signal peptide with a cleavage site amino acid position at 19–20. AbGILT contains two active site C-XX-C motifs, (²³CLDC²⁶ and ⁴⁶CPYC⁴⁹) which motif is highly conserved in GILT protein family. AbGILT exhibited a characteristic GILT signature sequence ⁹²CQHGX₂ECX₂NX₄C¹⁰⁷ and 12 cysteine residues representing 5% in the mature peptide. Phylogenetic analysis showed that AbGILT has been derived from a common ancestor with other GILT proteins. RT-PCR results showed that AbGILT expression was up-regulated in the gill, mantle and digestive tract 24 h post injection of phytohemagglutinin (PHA) while Vibrio alginolyticus up-regulation appeared in the gill and digestive tract after 48 h. In contrast, AbGILT expression was not up-regulated by poly inosinic–cytidylic acid (poly I:C) during the 48 h induction. However, AbGILT was constitutively expressed in gill, mantle, and digestive tract tissues suggesting that it may maintain first line of innate immune defense at basal level in disk abalone.     

First report of invertebrate Mx: cloning, characterization and expression analysis of Mx cDNA in disk abalone (Haliotis discus discus)

Myxovirus resistance (Mx) protein is one of the most studied antiviral proteins. It is induced by the type I interferon system (IFN alpha/beta) in various vertebrates, but its expression has not been identified or characterized in mollusks or other multi-cellular invertebrates to date. In this study, we isolated the Mx gene from a disk abalone (Haliotis discus discus) normalized cDNA library. Mx cDNA was sequenced, cloned and compared to other known Mx proteins. The full-length 1664 bp of abalone Mx cDNA contained a 1533-bp open reading frame that codes for 511 amino acids. Within the coding sequence of abalone Mx, characteristic features were found, such as a tripartite guanosine-5'-triphosphate (GTP)-binding motif and a dynamin family signature. In addition, leucine residues in the C-terminal region displayed a special leucine domain at L(468), L(475), L(489) and L(510), suggesting that abalone Mx may have a similar oligomerization function as other leucine zipper motifs. Abalone Mx protein exhibited 44% amino acid similarity with channel catfish Mx1, rainbow trout Mx2 and Atlantic halibut Mx. Abalones were injected intramuscularly with the known IFN inducer poly I:C and RT-PCR was performed for Mx mRNA analysis. The results showed enhanced Mx expression in abalone gill and digestive tissues 24h as well as 48 h after injection of poly I:C. Mx mRNA was expressed in gill, digestive gland, mantle and foot tissues in healthy abalone, suggesting that the basal level of Mx expressed is tissue-specific. There is no known Mx protein closely related to abalone Mx according to phylogenetic analysis. Abalone Mx may have diverged from a common gene ancestor of fish and mammalian Mx proteins, since abalone Mx showed high similarity in terms of conserved tripartite GTP-binding, dynamin family signature motifs and poly I:C enhancement of Mx mRNA expression.     

Viral hemorrhagic septicemia virus alters turbot Scophthalmus maximus macrophage nitric oxide production.

The effect of viral hemorrhagic septicemia virus (VHSV) in vitro infection on the nitric oxide (NO) production by turbot Scophthalmus maximus kidney macrophages has been addressed in the past. Previously, we had determined that only a small fraction of turbot possess head kidney macrophages that respond to a single exposure of lipopolysaccharide (LPS) with NO production (LPS-responsive macrophages), whereas macrophage cultures from other individuals were not activated by LPS alone and needed a combination of stimuli to respond (LPS-non-responsive macrophages). In the current work, we examined the effect of VHSV on NO production by macrophages characterized as LPS-responsive macrophages or LPS-non-responsive macrophages. Combinations of LPS and tumor necrosis factor alpha (TNF-alpha) and macrophage-activating factor (MAF) were also used to stimulate the cells for NO production. The effect of VHSV on NO production depends on the response to LPS alone. When a low multiplicity of infection was used (1.78 x 10(-3)), the NO production in response to LPS in LPS-responsive macrophages was significantly decreased. However, LPS-non-responsive macrophage cultures produced NO when a combination of LPS and VHSV was used. In the case of a higher VHSV multiplicity of infection (1.78), no significant change was observed in LPS-non-responsive animals. Combinations of LPS with TNF-alpha, LPS with MAF, and TNF-alpha with MAF were used to induce NO production in LPS-non-responsive macrophages. In all these cases, VHSV suppressed NO production, although at a significant level only when a combination of TNF-alpha and MAF was used for the induction of NO.     

Molecular characterization and expression analysis of lipopolysaccharide and β-1,3-glucan-binding protein (LGBP) from pearl oyster <Emphasis Type="Italic">Pinctada fucata</Emphasis>

The lipopolysaccharide and β-1,3-glucan-binding protein (LGBP) plays an important function in the innate immune response of invertebrates as a pattern recognition receptor (PRR). Herein, we described the isolation and characterization of pearl oyster Pinctada fucata LGBP (designated as poLGBP). The poLGBP cDNA was 2,075 bp long and consisted of a 5′-untranslated region (UTR) of 18 bp, a 3′-UTR of 299 bp with one cytokine RNA instability motifs (ATTTA), and an open reading frame (ORF) of 1,758 bp encoding a polypeptide of 585 amino acids with an estimated molecular mass of 65.1 kDa and a theoretical isoelectric point of 5.80. Homology analysis of the deduced amino acid sequence of the poLGBP with other known LGBP sequences by MatGAT software revealed that the poLGBP shared 26.3–56.7% identity and 40.5–70.9% similarity to the other known LGBP sequences. SMART and alignment analysis revealed that the poLGBP possessed a potential polysaccharide-binding motif, a glucanase motif, a LPS-binding site, a β-1,3-linkage of polysaccharide, a glycine-rich region, a threonine-rich region and two N-glycosylation sites. In healthy pearl oyster, the poLGBP mRNA was specifically expressed in digestive gland, and not detected in gill, adductor muscle, gonad, intestine, mantle and hemocytes. However, after bacteria stimulation, the expression of the poLGBP mRNA was significantly up-regulated in digestive gland and also weakly detected in haemocytes, gonad and intestine. After LPS stimulation, the poLGBP mRNA expression was significantly up-regulated at 8 and 12 h in digestive gland, and the expression level was 10.7-fold higher than the PBS group at 12 h. After bacteria stimulation, the expression level of the poLGBP mRNA was also significantly up-regulated in digestive gland and was 12.9-fold higher than the PBS group at 8 h. However, during the experiment, the poLGBP mRNA expression was not detected in gill after LPS or bacteria stimulation. The tissue-specific expression and the expression up-regulation after LPS or bacteria stimulation in digestive gland suggested that the poLGBP was an inducible acute-phase protein and might play an important function in digestion as digestive enzyme and pattern recognition receptor.     

Molecular cloning and characterization of SOCS-2 from Manila clam Ruditapes philippinarum

Suppressor of cytokine signaling (SOCS) family members are key regulators of immunological homeostasis. In this study, we have discovered the SOCS-2 member from Manila clam Ruditapes philippinarum and further analyzed its immune responses against lipopolysaccharide (LPS) and polyinosinic:polycytidylic acid (poly I:C). Amino acid sequence of RpSOCS-2 consists of cytokine inducible SRC homology 2 (SH2) and SOCS box domains similar to vertebrate SOCS counterparts. It has the highest amino acid identity (41%) with Pacific oyster (Crassostrea gigas) SOCS-2 and showed close evolutional relationship with disk abalone (Haliotis discus discus) SOCS-2. Tissue specific expression results showed that RpSOCS-2 was constitutively expressed in all examined tissues with the highest level in gill tissue of un-challenged clams. RpSOCS-2 mRNA expression was up-regulated by LPS and poly I:C challenge in gills. Discovery of RpSOCS-2 homologue and expression analysis would support for understanding evolutional relationships and their role in innate immune responses in mollusks, respectively.     

Impact of exposure to bacteria on metabolism in the penaeid shrimp Litopenaeus vannamei

We hypothesized that aggregation of bacteria and hemocytes at the gill, which occurs as part of the shrimp's antibacterial immune defenses, would impair normal respiratory function and thereby disrupt aerobic metabolism. Changes in oxygen uptake and lactate accumulation were determined in Litopenaeus vannamei, the Pacific white shrimp, following injection with either saline (control) or a strain of the gram-negative bacterium Vibrio campbellii that is pathogenic in crustaceans. The rate of oxygen uptake was determined during the first 4 h after injection and after 24 h. Injection of bacteria decreased oxygen uptake by 27% (from 11.0 to 8.2 micromol g-1 h-1) after 4 h, while saline-injected shrimp showed no change. Decreased oxygen uptake persisted 24 h after Vibrio injection. In well-aerated water, resting whole-animal lactic acid levels increased in shrimp injected with bacteria (mean=2.59 micromol lactate g-1+/-0.39 SEM, n=8) compared to saline-injected control shrimp, but this difference did not persist at 24 h. Exposure to hypercapnic hypoxia (PCO2=1.8 kPa, PO2=6.7 kPa) also resulted in significant whole-body lactic acid differences (mean=3.99 and 1.8 micromol g-1 tissue in Vibrio and saline-injected shrimp, respectively). Our results support the hypothesis that the crustacean immune response against invading bacteria impairs normal metabolic function, resulting in depression of oxygen uptake and slightly increased anaerobic metabolism.