Youngdeuk Lee

Transcriptional analysis of antioxidant and immune defense genes in disk abalone (Haliotis discus discus) during thermal, low-salinity and hypoxic stress.

This study describes the transcriptional analysis of antioxidant and immune defense genes in gills tissue of disk abalone exposed to thermal, salinity and hypoxia-related stress, using quantitative real-time PCR. Results showed that manganese superoxide dismutase (MnSOD), copper zinc superoxide dismutase (CuZnSOD), catalase (CAT), thioredoxin peroxidase (TPx), selenium dependant glutathione peroxidase (SeGPx), and thioredoxin-2 (TRx-2) transcripts were expressed differently in gills, and that they respond collectively as a classical enzymatic antioxidant defense system in abalone. Comparative analysis of expression profiles indicated that CAT, TPx and SeGPx transcripts were significantly up-regulated (p<0.05) by all three physical stress conditions - thermal (28 degrees C), salinity (25 per thousand) and hypoxia - relative to levels in respective controls. In contrast, CuZnSOD and TRx-2 transcription were down-regulated in response to thermal stress. Interestingly, all the antioxidant transcripts exhibited significant up-regulation in response to salinity-related stress. Meanwhile, hypoxia caused up-regulation of the MnSOD, CAT, TPx and SeGPx, but not the CuZnSOD and TRx-2 transcripts. One of the most significant outcomes was the more than 10-fold induction of SeGPx, suggesting that SeGPx is a potential biomarker gene among antioxidant enzymes, under conditions of physical stress. The effects of physical stress on the transcriptional responses of immune functional genes namely suppressor of cytokine signaling-2 (SOCS-2) and myxovirus resistance (Mx) were investigated. We observed that salinity and hypoxia increase both the SOCS-2 and Mx transcripts, while thermal stress at 28 degrees C exerts less of an effect, producing mixed transcriptional responses (both up and down regulation). Based upon these results, we postulate that abalones utilize antioxidant and immune defense mechanisms together to overcome physical stresses.

Characterization and expression analysis of a goose-type lysozyme from the rock bream Oplegnathus fasciatus, and antimicrobial activity of its recombinant protein

Lysozyme (muramidase) represents an important defense molecule of the fish innate immune system. Known for its bactericidal properties, lysozyme catalyzes the hydrolysis of β-(1,4)-glycosidic bonds between the N-acetyl glucosamine and N-acetyl muramic acid in the peptidoglycan layer of bacterial cell walls. In this study, the complete coding sequence of a g-type lysozyme (RBgLyz) was identified in the Oplegnathus fasciatus rock bream fish genome by means of multi-tissue normalized cDNA pyrosequencing using Roche 454 GS-FLX™ technology. RBgLyz is composed of 669 bp, with a 567 bp open reading frame that encodes 188 amino acids. Protein motif searches indicated that RBgLyz contains the soluble lytic transglycosylase domain involved in maintaining cell wall integrity. Furthermore, RBgLyz shares significant identity (81.4%) with Chinese perch Siniperca chuatsi. Quantitative real-time RT-PCR analysis results showed that RBgLyz transcripts are constitutively expressed in various tissues from healthy rock breams. In order to determine RBgLyz function in immunity, its expression was analyzed in head kidney following exposure to known immune stimulants or pathogens. RBgLyz transcripts were significantly up-regulated in response to challenge with lipopolysaccharide (LPS) and Edwardsiella tarda, as compared to non-injected control fish. Polyinosinic:polycytidylic acid (poly I:C) dsRNA stimulated a moderate expression of RBgLyz, as did Streptococcus iniae but to a lesser extent. There were no specific time-dependent effects on RBgLyz mRNA expression observed in response to rock bream iridovirus (RBIV) infection. Taken together, the gene expression results indicated that g-type lysozyme plays a role in the innate immune response to LPS, poly I:C, E. tarda and S. iniae in rock bream. Thus, we generated recombinant RBgLyz in an Escherichia coli expression system and characterized its antimicrobial activity. Our results indicated that recombinant RBgLyz had lytic activity against Gram-negative Vibrio salmonicida, Gram-positive Listeria monocytogenes, S. iniae and Micrococcus lysodeikticus. In addition, observations by scanning electron microscope (SEM) confirmed that the cell morphology of M. lysodeikticus was altered in the presence of recombinant RBgLyz.

Defensin from disk abalone Haliotis discus discus: molecular cloning, sequence characterization and immune response against bacterial infection.

Gene-encoded antimicrobial peptides (AMPs) serve a major role in host defense systems against pathogens. In this study, cDNA of a new mollusk defensin was identified from a normalized cDNA library constructed from whole tissues of disk abalone. Abalone defensin peptide (pro-defensin) has a 198-bp coding sequence comprised of a putative 66 amino acids with a mature defensin consisting of 48 amino acid residues. The presence of an invertebrate defensin family domain, an arrangement of six cysteine residues and their disulfide linkage in C(1)-C(4), C(2)-C(5) and C(3)-C(6) form, an alpha helix in three-dimensional structure and a phylogenetic relationship suggests that abalone defensin could be a new member of the invertebrate defensin family, and related to arthropod defensins. In non-stimulated abalone, defensin transcripts were constitutively expressed in all examined tissues including hemocytes, gills, mantle, muscle, digestive tract and hepatopancreas. It was observed that abalone defensin transcripts were significantly induced in hemocytes, gills and digestive tract at different time intervals after infection by pathogenic bacteria mixture containing Vibrio alginolyticus, Vibrio parahemolyticus and Lysteria monocytogenes. Our overall results suggest that disk abalone defensin could be involved in the immune response reactions as a host defense against pathogenic bacteria.

A novel molluscan sigma-like glutathione S-transferase from Manila clam, Ruditapes philippinarum: Cloning, characterization and transcriptional profiling

Glutathione S-transferases (GSTs) are versatile enzymes, act as primary intracellular detoxifiers and contribute to a broad range of physiological processes including cellular defense. In this study, a full-length cDNA representing a novel sigma-like GST was identified from Manila clam, Ruditapes philippinarum (RpGSTσ). RpGSTσ (884 bp) was found to possess an open reading frame of 609 bp. The encoded polypeptide (203 amino acids) had a predicted molecular mass of 23.21 kDa and an isoelectric point of 7.64. Sequence analysis revealed two conserved GST domain profiles in N- and C-termini. Alignment studies revealed that the identity between deduced peptides of RpGSTσ and known GSTσ members was relatively low (<35%), except a previously identified Manila clam GSTσ isoform (87.2%). Phylogenetic analysis indicated that RpGSTσ clustered together with molluscan GSTσ homologs, which were closely related to insect GSTσs. The RpGSTσ was subsequently cloned and expressed as recombinant protein, in order to characterize its biological activity. The recombinant RpGSTσ exhibited characteristic glutathione conjugating catalytic activity toward 1-chloro-2,4-dinitrobenzene, 3,4-dichloronitrobenzene and ethacrynic acid. It had an optimal pH and temperature of 8.0 and 35 °C, respectively. Expression profiles under normal conditions and in response to lipopolysaccharide-, poly I:C- and Vibrio tapetis-challenges were also investigated. RpGSTσ demonstrated a differential tissue distribution with robust transcription in gills of normal animals. We explored potential association of GSTσ in cellular defense during bacterial infection and found that in challenged clams, RpGSTσ gene was significantly induced in internal and external tissues, in conjunction with manganese- as well as copper-zinc superoxide dismutase (MnSOD and CuZnSOD) genes. Moreover, the induction was remarkably higher in hemocytes than in gill. Collectively, our findings suggested that RpGSTσ could play a significant role in cellular defense against oxidative stress caused by bacteria, in conjunction with other antioxidant enzymes, such as SODs.

Molecular characterization and expression analysis of Cathepsin B and L cysteine proteases from rock bream (Oplegnathus fasciatus).

Cathepsins are lysosomal cysteine proteases of the papain family that play an important role in intracellular protein degradation and turn over within the lysosomal system. In the present study, full-length sequences of cathepsin B (RbCathepsin B) and L (RbCathepsin L) were identified after transcriptome sequencing of rock bream Oplegnathus fasciatus mixed tissue cDNA. Cathepsin B was composed of 330 amino acid residues with 36 kDa predicted molecular mass. RbCathepsin L contained 336 amino acid residues encoding for a 38 kDa predicted molecular mass protein. The sequencing analysis results showed that both cathepsin B and L contain the characteristic papain family cysteine protease signature and active sites for the eukaryotic thiol proteases of cysteine, asparagine and histidine. In addition, RbCathepsin L contained EF hand Ca(2+) binding and cathepsin propeptide inhibitor domains. The rock bream cathepsin B and L showed the highest amino acid identity of 90 and 95% to Lutjanus argentimaculatus cathepsin B and Lates calcarifer cathepsin L, respectively. By phylogenetic analysis, cathepsin B and L exhibited a high degree of evolutionary relationship to respective cathepsin family members of the papain superfamily. Quantitative real-time RT-PCR analysis results confirmed that the expression of cathepsin B and L genes was constitutive in all examined tissues isolated from un-induced rock bream. Moreover, activation of RbCathepsin B and L mRNA was observed in both lipopolysaccharide (LPS) and Edwardsiella tarda challenged liver and blood cells, indicating a role of immune response in rock bream.

Characterization of a novel molluscan MyD88 family protein from manila clam, Ruditapes philippinarum.

Myeloid differentiation factor 88 (MyD88) is a universal adaptor protein which is required for signal transduction of TLR/IL-1R family. In this study, a novel molluscan MyD88 family member protein (named as RpMyD88) was identified from manila clam, Ruditapes philippinarum. It was identified using BLAST algorithm from GS-FLX™ sequencing data. The cDNA of RpMyD88 consists of 1416 bp open reading frame (ORF) encoding 471 amino acid residues. The RpMyD88 contains death domain and Toll/interleukin-1 receptor (TIR) domain which are typical features of MyD88 family proteins. The predicted amino acid sequence of RpMyD88 shares 27% identity with scallop MyD88. The expression level of RpMyD88 mRNA was investigated in healthy and challenged clams by quantitative real-time RT-PCR. The RpMyD88 gene expression is ubiquitous in all selected tissues. The RpMyD88 mRNA was strongly expressed in hemocyte, gill and mantle. In contrast, it was weakly expressed in siphon, foot and adductor muscle. RpMyD88 was up-regulated in gill and hemocyte after immune challenge with both Vibrio tapetis and LPS challenge. All results considered, sequence characterization, comparison and gene expression data suggesting that MyD88-dependent signaling pathway is presence in manila clam and RpMyD88 plays an important role in innate immune response against bacteria.

Heparin cofactor II (RbHCII) from rock bream (Oplegnathus fasciatus): molecular characterization, cloning and expression analysis.

Heparin cofactor (HCII) is a serine protease inhibitor (SPI), and plays important physiological roles in various biological events including hemostasis. The gene encoding the HCII was isolated from GS-FLX™ genomic data of rock bream (Oplegnathus fasciatus), designated as RbHCII. The RbHCII (1950 bp) consists of a 1512 bp open reading frame (ORF) encoding 504 amino acids (aa), with a signal peptide of 19 aa residues. The predicted molecular mass and the estimated isoelectric point of RbHCII were 58 kDa and 5.9, respectively. The deduced aa sequence of RbHCII displayed a characteristic serpin domain and a serpin signature motif (FTVDQPFLFLI). RbHCII demonstrated homology with vertebrate HCIIs and the greatest degree of similarity (90.1%) was observed with Gasterosteus aculeatus HCII. Various functional domains including the reactive center loop (RCL), glycosaminoglycan (GAG) and thrombin binding sites and acidic repeats of human and RbHCII were found to be orthologs through the molecular modeling studies. Phylogenetic analysis revealed that RbHCII belongs to the clade D serpins, and is closely related to the clade A members. Constitutive expression of RbHCII mRNA was detected at different levels in various tissues in a tissue-specific manner. Interestingly, RbHCII transcription was significantly downregulated (p < 0.05) in liver after challenge with lipopolysaccharide (LPS), Edwardsiella tarda and rock bream iridovirus (RBIV). However, after the immune challenges, RbHCII showed a significant downregulation in blood tissue only at the late-phase of investigation. The recombinant RbHCII (rRbHCII) was overexpressed in Rosetta-gami (DE3) cells and purified using the pMAL™ system. The rRbHCII inhibited thrombin and chymotrypsin in a dose-dependent manner. Remarkably, heparin was found to be an enhancer of RbHCIIs thrombin-inhibitory activity. Correlating the heparin-dependent thrombin-inhibition activity of RbHCII with its temporal downregulation against immune stimulants, it could be suggested that it is not only involved in the blood coagulation cascade, but also plays an incognito role in immune modulation.

A novel acute phase reactant, serum amyloid A-like 1, from Oplegnathus fasciatus: genomic and molecular characterization and transcriptional expression analysis.

Acute phase response is a significant component of innate immunity, playing a vital role in the signaling processes and elimination of invading pathogens. Acute phase proteins are synthesized in liver and secreted into the blood for transportation to an infection site, where the defense function is exerted. Serum amyloid A (SAA) and C-reactive proteins are the major positive acute phase proteins. In this study, we have identified and characterized a novel SAA related gene from rock bream (Oplegnathus fasciatus), designated OfSAAL1. Genomic characterization revealed the presence of 13 exons and 12 introns, similar to SAAL1 in zebrafish. Multiple protein sequence alignment revealed high conservation with other SAAL1 homologues. Phylogenetic analysis showed that OfSAAL1 clustered with another fish homologue, and pairwise alignment revealed highest identity and similarity at the amino acid level with zebrafish SAAL1. Promoter region analysis revealed the presence of immunologically significant transcription factor binding sites. Tissue distribution profiling to indicate physiological relevance showed the highest levels occur in blood, followed by liver, suggesting a positive immune role in rock bream. Transcriptional analysis by reverse transcription polymerase chain reaction to understand OfSAAL1 responsiveness to immune challenge with poly I:C, Edwardsiella tarda, Streptococcus iniae and rock bream iridovirus, revealed a significant level of elevation from 12h to 48 h post-infection in blood, spleen, head kidney, and liver. To our knowledge, OfSAAL1 is the first characterized SAAL1 homologue from teleosts. We anticipate that its identification will prove inspiring for further studies of SAAL1 homologues as biomarkers of the acute phase response.

Cytosolic thioredoxin from Ruditapes philippinarum: Molecular cloning, characterization, expression and DNA protection activity of the recombinant protein

Thioredoxin (TRx) is a small redox protein that plays significant roles in protection against oxidative stress and in cell homeostasis by maintaining oxidized proteins in a reduced state. Here, we describe the isolation and characterization of a full-length TRx cDNA sequence from manila clam, Ruditapes philippinarum and named it as RpTRx. The full length sequence consists of 1416 bp with an open reading frame of 318 bp encoding for 106 amino acids. RpTRx protein harbors evolutionarily-conserved TRx active site (32)WCGPC(36). Phylogenetic analysis revealed a close proximity of RpTRx with the orthologue in Japanese scallop, Chlamys farreri. RpTRx was found to be constitutively expressed in hemocyte, gill, mantle, foot and siphon indicating a general role in physiological processes in various tissues. With regard to a potential role in immune responses, the RpTRx mRNA was found to be up-regulated in hemocytes after bacterial (Vibrio tapetis) and lipopolysaccharide (LPS) challenge at 3h post-infection (p.i.); a wavering increase was observed up to 96 h p.i. for LPS challenge and 48 h p.i. for bacterial challenge. Thus, RpTRx may function as an intracellular antioxidant to protect the cells against ROS induced by LPS and bacterial challenges. Indeed, when recombinant RpTRx protein (rRpTRx) was over-expressed in Escherichiacoli Rosetta gami(TM) (DE3) cells, it was able to scavenge free radicals and protect super-coiled DNA from oxidative damage induced by a metal-ion catalyzed oxidation reaction. In summary, RpTRx plays an essential role in cellular defense and maintenance of homeostasis in the manila clam.

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.