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.

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.

First molluscan theta-class Glutathione S-Transferase: identification, cloning, characterization and transcriptional analysis post immune challenges

Glutathione S-Transferases (GSTs) are multifunctional cytosolic isoenzymes, distinctly known as phase II detoxification enzymes. GSTs play a significant role in cellular defense against toxicity and have been identified in nearly all organisms studied to date, from bacteria to mammals. In this study, we have identified a full-length cDNA of the theta class GST from Ruditapes philippinarum (RpGSTθ), an important commercial edible molluscan species. RpGSTθ was cloned and the recombinant protein expressed, in order to study its biochemical characteristics and determine its physiological activities. The cDNA comprised an ORF of 693 bp, encoding 231 amino acids with a predicted molecular mass of 27 kDa and an isoelectric point of 8.2. Sequence analysis revealed that RpGSTθ possessed characteristic conserved domains of the GST_N family, Class Theta subfamily (PSSM: cd03050) and GST_C_family Super family (PSSM: cl02776). Phylogenetic analysis showed that RpGSTθ evolutionarily linked with other theta class homologues. The recombinant protein was expressed in Escherichia coli BL21(DE3) cells and the purified enzyme showed high activity with GST substrates like CDNB and 4-NBC. Glutathione dependent peroxidase activity of GST, investigated with cumene hydroperoxide as substrate affirmed the antioxidant property of rRpGSTθ. By quantitative PCR, RpGSTθ was found to be ubiquitously expressed in all tissues examined, with the highest levels occurring in gills, mantle, and hemocytes. Since GSTs may act as detoxification enzymes to mediate immune defense, the effects of pathogen associated molecular pattern, lipopolysaccharide and intact Vibrio tapetis bacteria challenge on RpGSTθ gene transcription were studied. Furthermore, the RpGSTθ expression changes induced by immune challenges were similar to those of the antioxidant defense enzyme manganese superoxide dismutase (RpMnSOD). To our knowledge, RpGSTθ is the first molluscan theta class GST reported, and its immune-related role in Manila clam may provide insights into potential therapeutic targets for protecting this important aquaculture species.

A manganese superoxide dismutase (MnSOD) from Ruditapes philippinarum: comparative structural- and expressional-analysis with copper/zinc superoxide dismutase (Cu/ZnSOD) and biochemical analysis of its antioxidant activities

Superoxide dismutases (SODs), antioxidant metalloenzymes, represent the first line of defense in biological systems against oxidative stress caused by excessive reactive oxygen species (ROS), in particular O(2)(•-). Two distinct members of SOD family were identified from Manila clam Ruditapes philippinarum (abbreviated as RpMnSOD and RpCu/ZnSOD). The structural analysis revealed all common characteristics of SOD family in both RpSODs from primary to tertiary levels, including three MnSOD signatures and two Cu/ZnSOD signatures as well as invariant Mn(2+)- and Cu/Zn(2+)-binding sites in RpMnSOD and RpCu/ZnSOD, respectively. Putative RpMnSOD and RpCu/ZnSOD proteins were predicted to be localized in mitochondrial matrix and cytosol, respectively. They shared 65.2% and 63.9% of identity with human MnSOD and Cu/ZnSOD, respectively. Phylogentic evidences indicated the emergence of RpSODs within molluscan monophyletic clade. The analogous spatial expression profiles of RpSODs demonstrated their higher mRNA levels in hemocytes and gills. The experimental challenges with poly I:C, lipopolysaccharide and Vibrio tapetis illustrated the time-dependent dynamic expression of RpSODs in hemocytes and gills. The recombinant RpMnSOD was expressed in a prokaryotic system and its antioxidant property was studied. The rRpMnSOD exhibited its optimum activity at 20 °C, under alkaline condition (pH 9) with a specific activity of 3299 U mg(-1). These outcomes suggested that RpSODs were constitutively expressing inducible proteins that might play crucial role(s) in innate immunity of Manila clam.

Molecular genomic- and transcriptional-aspects of a teleost TRAF6 homolog: Possible involvement in immune responses of Oplegnathus fasciatus against pathogens

Tumor necrosis factor receptor (TNFR)-associated factor 6 (TRAF6) is a crucial docking molecule for TNFR superfamily and Interleukin-1 receptor/Toll-like receptor (IL-1R/TLR) superfamily. As an adaptor protein in pathogen-induced signaling cascades, TRAF6 modulates both adaptive- and innate-immunity. In order to understand the immune responses of teleost TRAF6, Oplegnathus fasciatus TRAF6-like gene (OfTRAF6) was identified and characterized. Genomic length of OfTRAF6 (4 kb), obtained by means of a genomic BAC library, spanned seven exons which represented a putative coding sequence of 1716 bp and encoded 571 amino acids (aa) with an estimated molecular weight of 64 kDa. This putative protein demonstrated the classical tetra-domain architecture composed of a zinc finger RING-type profile, two zinc finger TRAF-type profiles, a coiled-coil region and a MATH domain. While the sequence similarity with human TRAF6 was 66.5%, OfTRAF6 shared a higher overall similarity with teleost homologs (∼75-92%). Phylogeny of TRAF-family was examined and TRAF6-subfamily appeared to be the precursor of other subfamilies. In addition, the clustering pattern confirmed that OfTRAF6 is a novel member of TRAF6subfamily. Based on comparative genomic analysis, we found that vertebrate TRAF6 exhibits two distinct structures in teleost and tetrapod lineages. An intron-loss event has probably occurred in TRAF6 gene during the evolution of tetrapods from teleosts. Inspection of putative OfTRAF6 promoter revealed the presence of several immune responsive transcription factor binding sites. Real-time qPCR assay detected OfTRAF6 transcripts in eleven juvenile fish tissues with higher levels in peripheral blood cells followed by liver. Putative role of OfTRAF6 in response to flagellin, LPS, poly I:C, pathogenic bacteria (Edwardsiella tarda and Streptococcus iniae) and rock bream iridovirus (RBIV) was profiled in different tissues and OfTRAF6 revealed up-regulated transcript levels. Altogether, these findings implicate that OfTRAF6 is not only involved in flagellin-induced signaling cascade, but also contributes to the antibacterial- and antiviral-responses.

A potential antioxidant enzyme belonging to the atypical 2-Cys peroxiredoxin subfamily characterized from rock bream, Oplegnathus fasciatus

Peroxiredoxins (Prxs), a diverse family of antioxidant enzymes, exert their antioxidant function through which different peroxide species are detoxified. This study describes both structural and functional characterization of a mitochondrial Prx identified in rock bream, Oplegnathus fasciatus (RbPrx5). The ORF (573 bp) of RbPrx5 encoded a protein of 190 amino acids (20 kDa) containing a putative mitochondrial targeting sequence (residues 1-20) and a thioredoxin-2 motif (residues 31-190) and three conserved Cys residues. Homology assessment and phylogenetic analysis clearly disclosed relatively higher amino acid sequence similarities and a closer evolutionary position of RbPrx5 with those of other teleost homologs. The ORF of RbPrx5 was distributed among six exons as found in other vertebrates, but it possessed an additional exon in its 5'-UTR. In silico examination of RbPrx5 gene's putative promoter region revealed the presence of several cis-elements which may be important in its transcriptional regulation. Constitutive expression of RbPrx5 was detected in eleven tissues with the highest level in the heart. Modulation of RbPrx5 transcription was evidenced from varying mRNA levels in head kidney post in vivo LPS-, poly I:C-, Edwardsiella tarda bacterial- and rock bream iridoviral-challenges. The antioxidant function of RbPrx5 was investigated using recombinant RbPrx5 protein. Results of an in vitro mixed-function oxidase assay demonstrated a dose-dependent inhibition of DNA damage by rRbPrx5. A H2O2 tolerance assay showed that in vivo overexpression of rRbPrx5 increased the bacterial survival under H2O2-mediated oxidative stress condition. These findings provide an overall insight into the structural, expressional and functional aspects of RbPrx5.

Molecular characterization, genomic structure and expressional profiles of a CXC chemokine receptor 4 (CXCR4) from rock bream Oplegnathus fasciatus

The CXC chemokine receptor 4 (CXCR4) is the cognate receptor of the CXC chemokine ligand 12 (CXCL12) and plays a pivotal role under immune-pathophysiological conditions. In the current study, the CXCR4 homolog of Oplegnathus fasciatus (OfCXCR4) was sequenced and the mRNA expression levels were characterized. The genomic structure of the cloned OfCXCR4 coding region (2094 bp) revealed a bi-exonic element, where the open reading frame (ORF) appears split by a single intron. Analysis of the ORF (1134 bp) of OfCXCR4 revealed a predicted protein of 42.1 kDa with typical seven transmembrane (TM) domain architecture and several conserved structural features, including two cysteine residues forming a predicted disulfide bond, a characteristic CXC motif (containing CYC) and a G-protein-coupled receptor (GPCR) family 1 signature. Furthermore, based on comparative analysis, the structure OfCXCR4 appears well conserved at both the genomic DNA and the amino acid levels. Phylogenic analysis of OfCXCR4 revealed that the greatest homology was with its teleostean relatives. Expression studies showed ubiquitous OfCXCR4 transcription, mainly in immune organs, with the highest levels in the head kidney. Examination of OfCXCR4 transcriptional regulation post injection to different stimuli or pathogens revealed a significant modulation of mRNA expression as detected by reverse transcription-quantitative real-time PCR. Evidence of various transcription factor binding sites present in the 5'-flanking region of OfCXCR4 coupled with its observed regulated mRNA expression suggest that it may have an important role in immune surveillance in rock bream.

A manganese superoxide dismutase with potent antioxidant activity identified from Oplegnathus fasciatus: genomic structure and transcriptional characterization

In this study, we describe the identification and characterization of manganese superoxide dismutase, an important antioxidant enzyme acting as the chief reactive oxygen species (ROS) scavenger, from rock bream Oplegnathus fasciatus (Of-mMnSOD) at genomic- and transcriptional-levels as well as the biological activity of recombinant protein. The Of-mMnSOD protein portrayed distinct MnSOD family features including signature motifs, metal association sites and the typical active site topology. It was also predicted to be localized in mitochondrial matrix. The Of-mMnSOD had a quinquepartite genome organization encompassing five exons interrupted by four introns. Comparison of its sequence and gene structure with that of other lineages emphasized its strong conservation among different vertebrates. The Of-mMnSOD was ubiquitously transcribed in different rock bream tissues with higher levels in blood cells and metabolically active tissues. Transcription of Of-mMnSOD was kinetically modulated in response to investigational challenges using mitogens (lipopolysaccharide and poly I:C) and live-pathogens (Edwardsiella tarda and rock bream irido virus) in blood cells and liver tissue. The purified recombinant Of-mMnSOD possessed potential antioxidant capacity and actively survived over a range of pH (7.5-11) and temperature (15-40 °C) conditions. Collectively, findings of this study suggest that Of-mMnSOD combats against oxidative stress and cellular damages induced by mitogen/pathogen-mediated inflammation, by detoxifying harmful ROS (O(2)(●-)) in rock bream.

Mitochondrial thioredoxin-2 from Manila clam (Ruditapes philippinarum) is a potent antioxidant enzyme involved in antibacterial response

Thioredoxin (TRx) is a ubiquitous protein involved in the regulation of multiple biological processes. The TRx-2 isoform is exclusively expressed in mitochondria, where it contributes to mitochondrial redox state maintenance. In the present study, a novel thioredoxin-2 gene was identified in the Manila clam, Ruditapes philippinarum. The full-length sequence of RpTRx-2 (1561 bp) consists of a 498 bp coding region encoding a 166 amino acid protein. The N-terminal region of RpTRx-2 harbors a mitochondrial localization signal (56 amino acids), while the C-terminal portion contains the characteristic (89)WCGPC(93) catalytic active site. Phylogenetic analysis revealed that RpTRx-2 is closest to its ortholog from abalone. The broad distribution pattern of RpTRx-2 mRNA in healthy animal tissues implicates a generally significant function in normal clam physiology. The transcription level of RpTRx-2, however, is highest in hemocytes. Lipopolysaccharide and Vibrio tapetis bacterium caused up-regulation of the RpTrx-2 transcript levels in gill and hemocytes. Interestingly, clam manganese superoxide dismutase (MnSOD) mRNA levels in hemocytes elicited a corresponding response to these immune challenges. RpTRx-2 was recombinantly expressed in Escherichia coli BL21 (DE3) and used in insulin disulfide reduction assay as well as metal-catalyzed oxidation assay to elucidate its antioxidant property by reducing substrate and protecting super-coiled DNA from oxidative damage through free radical scavenging, respectively. Collectively, our data indicated that RpTRx-2, a mitochondrial TRx-2 family member, is an antioxidant enzyme that may be involved in antibacterial defense of clams.

A mu class glutathione S-transferase from Manila clam Ruditapes philippinarum (RpGSTμ): cloning, mRNA expression, and conjugation assays

Glutathione S-transferases (GSTs) are enzymes that catalyze xenobiotic metabolism in the phase II detoxification process. GSTs have a potential for use as indicators or biomarkers to assess the presence of organic and inorganic contaminants in aquatic environments. In this study, a full-length cDNA of a mu (μ) class GST (RpGSTμ) was identified from Manila clam (Ruditapes philippinarum) and biochemically characterized. The 1356 bp of the cDNA included an open reading frame of 651 bp encoding a polypeptide of 217 amino acid residues with a molecular mass of 25.04 kDa and an estimated pI of 6.34. Sequence analysis revealed that the RpGSTμ possessed several characteristic features of μ class GSTs, such as a thioredoxin-like N-terminal domain containing binding sites for glutathione (GSH), a C-terminal domain containing substrate binding sites, and a μ loop. The recombinant RpGSTμ (rRpGSTμ) protein exhibited GSH-conjugating catalytic activity towards several substrates, and significantly strong activity was detected against 4-nitrophenethyl bromide (5.77 ± 0.55) and 1-chloro-2,4-dinitrobenzene (CDNB, 3.19 ± 0.05). Kinetic analysis as a function of GSH and CDNB concentrations revealed relatively low Km values of 1.03 ± 0.46 mM and 0.56 ± 0.20 mM, respectively, thereby indicating a GSH-conjugation attributed with high rates. The optimum pH and temperature for the catalytic activity of the rRpGSTμ protein were 7.7 and 37°C, respectively. The effect of two inhibitors, Cibacron blue and hematin, on the activity of rRpGSTμ was evaluated and the IC50 values of 0.65 μM and 9 μM, respectively, were obtained. While RpGSTμ transcripts were highly expressed in gills and hemocytes, a significant elevation in mRNA levels was detected in these tissues after lipopolysaccharide (LPS), polyinosinic-polycytidylic acid (poly I:C) and live bacterial (Vibrio tapetis) challenges. These findings collectively suggest that RpGSTμ functions as a potent detoxifier of xenobiotic toxicants present in the aquatic environment, and that its mRNA expression could be modulated by pathogenic stress signal(s).

Identification and in silico analysis of a novel troponin C like gene from Ruditapes philippinarum (Bivalvia: Veneridae) and its transcriptional response for calcium challenge

Troponin C (TnC) is one of the subunits composing the troponin complex, which is primarily expressed in muscle tissue and plays a major role in regulating contractility. We have identified a novel TnC-like gene (RpTnC) from the Ruditapes philippinarum Manila clam. Sequence analysis indicated that RpTnC has a 450bp coding sequence, encoding a 150 amino acid protein with a molecular mass of 17.4 kDa. The RpTnC protein consisted of four EF-hand motifs (I-IV), each with a Ca2+-binding site. In silico comparative analysis of protein sequence showed that only site IV, demonstrating a conserved stretch (DxDxSx6E), is functionally active for Ca2+-coordination. Moreover, RpTnC was homologically (61.3% identity) and phylogenetically closest to Japanese flying squid TnC. The mRNA expression analysis using quantitative real-time PCR revealed a differential basal-expression of RpTnC transcripts in six different clam tissues, with higher levels in adductor muscle and mantle. Intramuscular administration of CaCl2 caused a prominent upregulation of RpTnC transcripts in adductor muscle (~5 fold). Collectively, our findings suggest that the TnC homolog of Manila clam identified in this study may be involved in important role(s) in clam physiology, mainly in its muscle tissues, and its transcription could be significantly influenced by increased Ca2+ levels.

A teleostean angiotensinogen from Oplegnathus fasciatus responses to immune and injury challenges

Angiotensinogen (AGT) is the precursor of the renin-angiotensin system and contributes to osmoregulation, acute-phase and immune responses. A full-length cDNA of the AGT (2004 bp with a 1389 bp coding region) was isolated from rock bream (Rb), Oplegnathus fasciatus. The encoded polypeptide of 463 amino acids had a predicted molecular mass of 51.6 kDa. RbAGT possessed a deduced signal peptide of 22 residues upstream of a putative angiotensin I sequence ((23)NRVYVHPFHL(32)). RbAGT possessed a specific domain profile and a signature motif which are characteristics of the serpin family. Sequence homology and phylogenetic analysis indicated that RbAGT was evolutionarily closest to AGT of Rhabdosargus sarba. The mRNA expression profile of RbAGT was determined by quantitative RT-PCR and it demonstrated a constitutive and tissue-specific expression with the highest transcript level in the liver. Significantly up-regulated RbAGT expression was elicited by systemic injection of a lipopolysaccharide, rock bream iridovirus (RBIV) and bacteria (Edwardsiella tarda and Streptococcus iniae), revealing its pathogen inducibility. RbAGT manifested a down-regulated response to systemic injury, contemporaneously with two other serpins, protease nexin-1 (PN-1), and heparin cofactor II (HCII). In addition, a synchronized expression pattern was elicited by RbAGT and RbTNF-α in response to injury, suggesting that TNF-α might be a potential modulator of AGT transcription.

Molecular aspects, genomic arrangement and immune responsive mRNA expression profiles of two CXC chemokine receptor homologs (CXCR1 and CXCR2) from rock bream, Oplegnathus fasciatus

The CXCR1 and CXCR2 are the prototypical receptors and are the only known receptors for mammalian ELR+ (Glu-Leu-Arg) CXC chemokines, including CXCL8 (interleukin 8). These receptors transduce the ELR+ chemokine signals and operate the downstream signaling pathways in inflammation and innate immunity. In this study, we report the identification and characterization of CXCR1 and CXCR2 genes from rock bream fish (OfCXCR1 and OfCXCR2) at the molecular level. The cDNA and genomic DNA sequences of the OfCXCR1 and OfCXCR2 were identified from a transcriptome library and a custom-constructed BAC library, respectively. Both OfCXCR genes consisted of two exons, separated by an intron. The 5'-flanking regions of OfCXCR genes possessed multiple putative transcription factor binding sites related to immune response. The coding sequences of OfCXCR1 and OfCXCR2 encoded putative peptides of 355 and 360 amino acids (aa), respectively. The deduced aa sequences of OfCXCR1 and OfCXCR2 comprised of a G-protein coupled receptors (GPCR) family 1 profile with a GPCR signature and a DRY motif. In addition, seven conserved transmembrane regions were predicted in both OfCXCRs. While our multiple alignment study revealed the functionally significant conserved elements of the OfCXCR1 and OfCXCR2, phylogeny analyses further confirmed their position in teleost sub clade, in which they manifested an evolutionary relatedness with other fish counterparts. Based on comparative analyses, teleost CXC chemokine receptors appear to be distinct from their non-fish orthologs in terms of evolution (both CXCR1 and CXCR2) and genomic organization (CXCR2). Quantitative real-time PCR (qPCR) detected the transcripts of OfCXCR1 and OfCXCR2 in eleven examined tissues, with higher levels in head kidney, kidney and spleen highlighting their crucial importance in immunity. In vitro stimulation of peripheral blood leukocytes (PBLs) with concanavalin A (Con A) resulted in modulation of OfCXCR2 transcription, but not that of OfCXCR1. In addition, the magnitude of the OfCXCR1 and OfCXCR2 transcripts in head kidney and spleen was differentially increased after the in vivo administration of immune stimulants, LPS and poly I:C and in the infection models injected with rock bream irido virus, Edwardsiella tarda and Streptococcus iniae. These lines of evidence suggest that these receptors may play an important role(s) in immune responsive signaling during pathogenesis of rock bream.

Two NF-κB inhibitor-alpha (IκBα) genes from rock bream (Oplegnathus fasciatus): molecular characterization, genomic organization and mRNA expression analysis after immune stimulation

IkBa is a member of IkB family, which sequesters NF-kB in an inactivate form in the cytoplasm and blocks the translocation of NF-kB to nucleus. The IkBa paralogs of rock bream (OfIkBa-A and OfIkBa-B) encoded IkBa proteins with typical features including, highly conserved IkB degradation motif, six ankyrin repeats and a PEST sequence. However, their amino acid identity and similarity were only 55.6 and 69.7%, respectively suggesting that these two genes could be the two different isoforms of IkBa. The number and size of the exons of OfIkBa-A and OfIkBa-B were conserved well with all the compared vertebrate species, although they have significantly different genomic sizes. Phylogenetic analysis revealed that OfIkBa-A and OfIkBa-B proteins cluster with IkBa family members; however, they were grouped with different subclades in IkBa family. Tissue specific expression of OfIkBa mRNA was constitutively detected in all the tested tissues, and they showed the higher transcription level in heart, liver, gill and peripheral blood cells, respectively. The injection of flagellin stimulated the mRNA expression of OfIkBa paralogs in head kidney and intestine. Moreover, the OfIkBa mRNA expression in gill and liver was significantly upregulated by LPS, poly I:C and Edwardsiella tarda challenges. The transcription of OfIkBa was up-regulated in early-phase of injection and then rapidly restored. These results suggest that the OfIkBa paralogs might be involved in rapid immune responsive reactions in rock bream against bacterial and viral pathogens.

A C1 inhibitor ortholog from rock bream (Oplegnathus fasciatus): molecular perspectives of a central regulator in terms of its genomic arrangement, transcriptional profiles and anti-protease activities of recombinant peptide

C1 inhibitor (C1Inh), a member of serpin superfamily, is a crucial regulator of the activation of various plasmatic cascades associated with immunity and inflammation. This study describes the identification and characterization of a C1Inh gene from rock bream Oplegnathus fasciatus (OfC1Inh) at structural, expressional and functional levels. The cDNA-(2245bp) and corresponding gDNA-sequences (5.2kbp) of OfC1Inh were isolated from rock bream transcriptome- and BAC-libraries, respectively. Predicted amino acid sequence of OfC1Inh revealed a two-domain architecture composed of an N-terminal region with two Ig-like domains and a C-terminal region with a serpin domain. Tertiary model of OfC1Inh disclosed its active site topology. In the multi-exonic genomic arrangement of OfC1Inh, it consisted of eleven exons disjoined by ten introns as observed in few other fish homologs. Our comparative analysis indicated that the teleostean C1Inhs were distinct from their non-teleostean vertebrate counterparts in terms of their (1) extended N-terminal domains, (2) evolutionary divergence and (3) exon-intron distribution. The OfC1Inh had a TATA-deficient promoter with a putative initiator element, and two tandemly arranged downstream promoter elements. Several components associated with the immune and inflammatory transcriptional activation were also predicted to exist in 5' flanking region of OfC1Inh. The exclusive mRNA levels in liver and moderate levels in extra-hepatic tissues intimated the diversified importance of OfC1Inh in rock bream physiology. We also provide an evidence for the involvement of OfC1Inh in immune balance, based on its modulated transcription upon different PAMP (lipopolysaccharide and poly I:C)- or pathogen (Streptococcus iniae and rock bream irido virus)-challenges. A recombinantly expressed fusion protein [(r)OfC1Inh] was employed in demonstrating the anti-protease function of OfC1Inh. The (r)OfC1Inh exhibited detectable inhibitory activity against C1 esterase and thrombin, where the anti-C1 esterase role was shown to be potentiated by heparin. Taken together, the results of this study provide the first line of evidence for the possible involvement of a teleostean C1Inh in fish immunity, based on its expressional response(s) and inhibitory properties against two enzymes involved in biological cascades.

A systematic review on Valproate induced rat model of autism: Pathophysiology, treatment, developmental and neurobehavioral assessment of rat offsprings

Autism Spectrum disorder (ASD) is charecterised by certain degrees of disabilities in social communication, restrictive repetitive behaviour and altered motor and sensory perception. Translational research is carried out by creating animal models of autism to find out the correlation between behavioural changes and the pathology of brain tissue and for clinical trials of newer therapeutic formulations. Valproate induced animal model of autism has significant validity to demonstrate ASD manifestations. An early appreciation of ASD symptoms is needed for a better prognosis. So assessment of behavioural abnormalities and development stones in the first month of animal life are much important to study ASD.An extensive literature search was done on different databases. (PUBMED-MeSH, PMC, Webof Science, Google scholar and Research Gate). Original articles reported between the years 2000-2020 were selected. PRISMA protocol was followed. There are good quantities of studies on behavioural assessment of valproate induced animal model. This review explains the pathophysiology and various treatment modalities tried in valporate induced animal model and it also enlists the developmental and behavioural assessment methods of rat off springs. It will be useful to demonstrate all signs of autism.  

Revealing Stature and Facial Proportions from Teeth: An Adjunct to Forensic Science

Background: Teeth and skull remains are often some of the evidences available that can be used reliably for identification in medicolegal cases. Determination of Stature and facial proportions from teeth dimensions have not been utilised fully in the field of forensics. This study was designed with the aim to estimate stature as well as facial proportions from teeth and head measurements. Objectives: To correlate height of an individual to combined mesiodistal width (CMDW) of maxillary anterior teeth and head circumference and to correlate the facial height and facial width to the cervicoincisal and mesiodistal dimensions of maxillary central incisor. Methodology: This was a descriptive cross-sectional study conducted among 1000 patients of age group 18–30 years of Kerala origin by birth and domicile who fulfilled the inclusion and exclusion criteria. Study variables included length and width of the face, combined mesiodistal (MD) width of maxillary anterior teeth, mesiodistal and cervicoincisal dimension of maxillary central incisor, circumference of the head and height of the individual. The results were statistically analysed using Karl Pearson’s correlation coefficient. Results: Correlation between height and head circumference, height and combined mesiodistal width of maxillary anterior teeth, width of face to mesio-distal width of maxillary central incisor showed significant correlation with p value <0.05, but the correlation coefficients were very weak. But while correlating facial length to cervicoincisal length of maxillary central incisor the values obtained were not statistically significant.