Characterization of the CCR3 and CCR9 genes in miiuy croaker and different selection pressures imposed on different domains between mammals and teleosts

Characterization, expressional and evolutionary analysis of five fish-specific CCRs (CCR4La, CCR4Lc, CCR12a1, CCR12a2, and CCR12b) in largemouth bass (Micropterus salmoides)

CC chemokine receptors (CCRs), the numbers of the G protein-coupled receptor (GPCR) superfamily, had crucial roles in treating infection, inflammation, and tissue damage by binding to their ligands. In this study, five fish-specific CCRs, namely CCR4La, CCR4Lc, CCR12a1, CCR12a2, and CCR12b, were identified in largemouth bass (Micropterus salmoides). The correction of nomenclatures of these CCRs were confirmed by phylogenetic analysis, structural analysis and genomic synteny analysis. Following 1 × 106 CFU/mL and 1 × 107 CFU/mL Edwardsiella piscicida infection, these five CCRs were significantly induced in spleen of largemouth bass, indicating their important roles in the immune response against bacterial infection. Selection pressure analysis revealed that CCR4La, CCR4Lc, CCR12a1, and CCR12a2 underwent negative selection pressure, whereas CCR12b experienced positive selection pressure. Robust selection site detection methods identified that positive selected sites of CCR4La, CCR4Lc, CCR12a1, and CCR12a2 mainly distributed in their extracellular regions, which involved in ligand binding and pathogen interaction. Similarly, the positive selected sites of CCR12b were also located in its extracellular regions. The accuracy of the pressure selected sites were also validated by molecular docking analysis. The potential ligands for these five CCRs were identified by molecular docking analysis, with finding that CCL3 and CCL5 might be the ligands of largemouth bass CCR4La/Lc, and CCL5, CCL8, CCL7, CCL13 and CCL26 might be that of largemouth bass CCR12a1/a2/b. Our results provided basis for elucidating the functions of chemokine-receptor complex in largemouth bass.

METTL16, an evolutionarily conserved m6A methyltransferase member, inhibits the antiviral immune response of miiuy croaker (Miichthys miiuy)

Methyltransferase like-16 (METTL16) is an m6A RNA methylation transferase that is known to methylate U6 snRNA and pre-mRNA of S-adenosylmethionine synthase but has been poorly studied in fish. In this study, METTL16 was identified in miiuy croaker (Miichthys miiuy). We first performed bioinformatics analysis of the miiuy croaker METTL16 (mmiMETTL16). MmiMETTL16 and other vertebrates METTL16 have a relatively conserved MTD structural domain and gene structure, suggesting that their methylase activity may also be conservative. In healthy miiuy croaker, mmiMETTL16 was commonly expressed in the tested tissues. Expression of mmiMETTL16 in kidney, liver, and spleen tissues was significantly increased after poly(I:C) stimulation. Consistently, mmiMETTL16 was sensitive to poly(I:C) stimulation in miiuy croaker kidney cell (MKC), suggesting that METTL16 might participate in antiviral immunity. For further functional experiments, immunofluorescence of mmiMETTL16 presents in the nucleus in kidney cells. In addition, the overexpression of mmiMETTL16 could significantly increase the overall m6A level of MKC cells, which shows that the function of METTL16 as methyltransferase is conservative in miiuy croaker. Last, mmiMETTL16 can inhibit the expression of TNF-α, IFN-1, Mx1, and ISG15, suggesting that mmiMETTL16 can suppress the immune response caused by viral stimulation. In summary, studies on mmiMETTL16 will contribute to future studies on the role of METTL16 and potential mechanisms of the m6A regulation network in the teleost immune system.

microRNA-27c negatively regulates NF-κB and IRF3 signaling pathway via targeting MITA in miiuy croaker

As a non-coding RNA with regulatory functions, microRNAs(miRNAs) can regulate gene expression and participate in a variety of physiological and pathological processes. In recent years, although there have been many studies on miRNA, the regulation mechanisms of miRNA in teleost fish have not been fully elucidated. In this study, it was first predicted that MITA is the target of miR-27c through bioinformatics, and it was confirmed by dual fluorescence experiments. Then we found that miR-27c can inhibit the expression of MITA at the mRNA and protein levels, thereby promoting the NF-κB or IRF3 pathway. It is speculated that miR-27c plays an important role in the innate immunity of teleost fish. This study will help to further understand miRNAs regulatory mechanism in teleost fish.

Rho-GDP-dissociation inhibitor-γ negatively regulates NF-κB signaling by promoting the degradation of TAK1 in miiuy croaker (Miichthys miiuy)

Transforming growth factor-beta activated kinase 1 (TAK1) is an adaptor molecular in TLR-mediated NF-κB signaling pathway and plays indispensable roles in innate immunity. As the most typical innate immune pathway, the strict regulation of NF-κB signaling pathway is particularly important. Rho-GDP-dissociation inhibitor-γ (Rho-GDIγ) is a member of the Rho protein family that regulates many important physiological processes. In this study, we demonstrated the mechanism of suppressing TAK1 expression in the teleost and found that Rho-GDIγ negatively regulated the NF-κB signaling pathway mediated by TAK1. We determined that TAK1 could directly interact with Rho-GDIγ. It is interesting that Rho-GDIγ promotes TAK1 degradation through the ubiquitin proteasome pathway. This study brings a new experimental basis to the teleost fish innate immune signaling pathway. Moreover, this discovery may provide new insights into innate immune regulation mechanism in mammals.

Circular RNA circRara promote the innate immune responses in miiuy croaker, Miichthys miiuy

With the in-depth study of circRNA, more and more biological studies have shown that circRNAs play an important role in mammals, such as cell proliferation, apoptosis, invasion, development and disease state. However, the regulatory mechanism of circRNA in lower vertebrates remains unclear. Here, we found a new circular RNA and named it circRara. We carried out the experimental study on its antiviral and antibacterial response, cell proliferation and activity. The results showed that circRara had a positive regulatory effect on the antiviral and antibacterial response, cell proliferation and activity in miiuy croaker. First, we found that the expression of circRara could be up-regulated under the stimulation of LPS and poly (I: C), but not the expression of linear Rara. In addition, the increase of circRara can increase the production of inflammatory factors and antiviral genes, which was confirmed by double luciferase reporter gene experiment and qPCR. These results will help to further understand the immunomodulatory mechanism of circRNA in teleost fish.

Long Noncoding RNA MIR122HG Inhibits MAVS-Mediated Antiviral Immune Response by Deriving miR-122 in Miiuy Croaker (Miichthys miiuy)

Long noncoding RNAs (lncRNAs) function as micro regulators to impact gene expression after multiple pathogen infections, which have been largely studied in the last few years. Although lncRNA studies on lower vertebrates have received less attention than those on mammals, current studies suggest that lncRNA plays an important role in the immune response of fish to pathogen infections. Here, we studied the effect of MIR122HG as the host gene of miR-122 and indirectly negatively regulate MAVS-mediated antiviral immune responses in miiuy croaker (Miichthysmiiuy). We found that poly(I:C) significantly increases the host MIR122HG expression. The increased MIR122HG expression inhibited the production of the antiviral immune-related genes IFN-1, ISG15 and Viperin upon SCRV treatment. In addition, MIR122HG can act as a pivotally negative regulator involved in the MAVS-mediated NF-κB and IRF3 signaling pathways, which can effectively avoid an excessive immune response. Additionally, we found that MIR122HG can promote the replication of SCRV. Our study provides evidence about the involvement of lncRNAs in the antiviral immune response of fish and broadens the understanding of the function of lncRNAs as a precursor miRNA in teleost fish.

MicroRNA-103 and microRNA-190 negatively regulate NF-κB-mediated immune responses by targeting IL-1R1 in Miichthys miiuy

Accumulating evidence has demonstrated that microRNAs (miRNAs) regulate various physiological and pathological processes at the transcriptional level, thus called novel regulators in immune response. In this study, we used bioinformatics and functional experiments to determine the role of miR-103 and miR-190 in the regulation of IL-1R1 gene involved in the immune and inflammatory responses in miiuy croakers. First, we predicted the target genes of miR-103 and miR-190 through bioinformatics and found that IL-1R1 is a direct target gene of miR-103 and miR-190. This was further confirmed by the dual-luciferase reporter assay that the over-expression of miR-103, miR-190 mimics and the pre-miR-103, pre-miR-190 plasmids inhibit the luciferase levels of the wild-type of IL-1R1 3'UTR. miR-103 and miR-190 inhibitors increase the luciferase levels of IL-1R1-3'UTR. Additionally, we found that miR-103 and miR-190 could negatively regulate the mRNA expression of IL-1R1. Importantly, we demonstrated that miR-103 and miR-190 significantly inhibit the NF-κB signaling pathway by targeting IL-1R1 upon LPS stimulation. Collectively, these results provide strong evidence for an important regulatory mechanism of miR-103 and miR-190 targeting the IL-1R1 gene, thereby preventing excessive inflammatory immune responses from causing autoimmunity.

Characterization of MDA5 and microRNA-203 negatively regulates the RLR signaling pathway via targeting MDA5 in miiuy croaker

MDA5 is a member of retinoic acid-inducible gene I (RIG-I)-like receptors (RLR receptors), which may play a crucial role in the immune regulation process. Recently, microRNAs (miRNAs) have been shown to act as an important regulator in the RLRs signaling pathway. Additionally, the MDA5 gene, as a significant cytosolic pathogen recognition receptor (PRR), its characteristics and functions have been extensively investigated, while less research has been done on the mechanisms of MDA5-miRNA mediated gene regulation. In this study, the evolution and functional characterization of MDA5 from miiuy croaker (mmiMDA5) were characterized. Comparative genomic analysis demonstrated that the ascidiacea and superclass do not have the MDA5 gene in the process of evolution. MDA5 contains four structural domains: CARD, ResIII, Helicase C, and RIG-I C-RD. The MDA5 was ubiquitously expressed in all tested miiuy croaker tissues. Moreover, the expressions were significantly up-regulated after stimulation with poly (I: C), which indicated that MDA5 might be involved in the antiviral immune response. The bioinformatics predicted programs have indicated that miR-203 has a direct negative regulatory effect on MDA5 in miiuy croaker. Furthermore, the dual-luciferase reporter assay have showed that miR-203 was the direct negative regulator of MDA5 in miiuy croaker. This study is the first to demonstrate that miRNA can suppress cytokines by regulating the RLR signaling pathway in teleost fish, providing some new ideas for studying miRNA-mediated regulation of immune responses in mammals.

Genome-wide identification and analysis of chemokine receptor superfamily in miiuy croaker, Miichthys miiuy

The chemokine receptor (ChemR) superfamily, which is divided into 4 subfamilies (CXCR, CCR, XCR, and CX3CR), is the main receptors of chemokines in innate immune responses. In the current study, we have identified 27 ChemRs in miiuy croaker: 13 CCR genes, 11 CXCR genes, and 3 XCR genes. Multiple characteristics of these genes, including phylogeny, gene structures, conserved motifs, chromosome locations, evolutionary mechanism, and expression levels upon the bacterial challenge were analyzed. Gene structure and location analysis showed that all ChemR genes contain fewer introns (≤4) and they are unevenly distributed on the 12 chromosomes. And the XCR subfamily of miiuy croaker don't have the DRY motif of ChemR. Phylogenetic and synteny analysis showed that these genes experienced tandem and segmental duplication event in several species, and tandem duplication might be the main expansion way in miiuy croaker. The major ChemRs of each orthologous group in vertebrates were selected for molecular evolution analysis, the results of which indicated that compared with vertebrates, ChemRs of teleost fishes may have a relatively high evolutionary dynamic. In addition, a total of 21 positively selected codons were detected in vertebrate ChemRs under Model 8. RNA-Seq analysis and qRT-PCR verification demonstrated that CXCR3.2, CXCR5, and XCR1 genes were up-regulated significantly upon the Vibrio harveyi infection. These results provide valuable information for investigating the evolutionary relationships of chemokine receptor superfamily in miiuy croaker and laid the basis for further functional analysis.

Chitosan Treatment of E-11 Cells Modulates Transcription of Nonspecific Immune Genes and Reduces Nodavirus Capsid Protein Gene Expression

This study explores whether crustacean products inhibit viral infections in aquaculture. Chitosan (CHT) was extracted from waste products of Parapenaeus longirostris. Biochemical composition, viscosity measurement, molecular weight, structure and cytotoxicity tests were used to characterize the extracted chitosan. Cultures of E-11 cells derived from snakehead Ophicephalus striatus were inoculated with 106.74 TCID50 of an isolate of betanodavirus genotype RGNNV (redspotted grouper nervous necrosis virus) after being treated with solutions of 0.3% CHT for 1 h at room temperature. The antiviral effect of CHT was assessed by comparing the ability of RGNVV to replicate and produce cytopathic effects on CHT-treated cell cultures. The change in RNA expression levels of the nodavirus capsid protein gene and three mediator genes in infected cells with or without CHT treatment was evaluated by qPCR. Changes in gene expression compared to control groups were monitored at 6, 24, 48 and 71 h post treatment in all target gene transcripts. The CCR3 expression in CHT treated cells showed a significant increase (p < 0.05) until day 3. On the other hand, the expression of TNF-α decreased significantly (p < 0.05) in CHT treated cells throughout the experimental period. Likewise, the expression of the IL-10 gene showed a significant downregulation in CHT treated cells at all time points (p ≤ 0.05). As further evidence of an antiviral effect, CHT treatment of cells produced a reduction in virus load as measured by a reduced expression of the viral capsid gene and the increase in RQ values from 406 ± 1.9 at hour 1 to 695 ± 3.27 at 72 h post inoculation. Statistical analysis showed that the expression of the viral capsid gene was significantly lower in cells treated with chitosan (p ≤ 0.05). These results improve our knowledge about the antiviral activity of this bioactive molecule and highlight its potential use in fish feed industry.

Inducible MicroRNA-3570 Feedback Inhibits the RIG-I-Dependent Innate Immune Response to Rhabdovirus in Teleost Fish by Targeting MAVS/IPS-1

Effectively recognizing invading viruses and subsequently inducing innate antiviral immunity are essential for host antiviral defense. Although these processes are closely regulated by the host to maintain immune balance, viruses have evolved the ability to downregulate or upregulate these processes for their survival. MicroRNAs (miRNAs) are a family of small noncoding RNAs that play vital roles in modulating host immune response. Accumulating evidence demonstrates that host miRNAs as mediators are involved in regulating viral replication and host antiviral immunity in mammals. However, the underlying regulatory mechanisms in fish species are still poorly understood. Here, we found that rhabdovirus infection significantly upregulated host miR-3570 expression in miiuy croaker macrophages. Induced miR-3570 negatively modulated RNA virus-triggered type I interferon (IFN) and antiviral gene production, thus facilitating viral replication. Furthermore, miR-3570 was found to target and posttranscriptionally downregulate mitochondrial antiviral signaling protein (MAVS), which functions as a platform for innate antiviral signal transduction. Moreover, we demonstrated that miR-3570 suppressed the expression of MAVS, thereby inhibiting MAVS-mediated NF-κB and IRF3 signaling. The collective results demonstrated a novel regulation mechanism of MAVS-mediated immunity during RNA viral infection by miRNA.IMPORTANCE RNA viral infection could upregulate host miR-3570 expression in miiuy croaker macrophages. Induced miR-3570 negatively modulates RNA virus-triggered type I IFN and antiviral gene production, thus facilitating viral replication. Remarkably, miR-3570 could target and inhibit MAVS expression, which thus modulates MAVS-mediated NF-κB and IRF3 signaling. The collective results of this study suggest a novel regulation mechanism of MAVS-mediated immunity during RNA viral infection by miR-3570. Thus, a novel mechanism for virus evasion in fish is proposed.

Molecular characterization and expression analysis of four fish-specific CC chemokine receptors CCR4La, CCR4Lc1, CCR4Lc2 and CCR11 in rainbow trout (Oncorhynchus mykiss)

The chemokine and chemokine receptor networks regulate leukocyte trafficking, inflammation, immune cell differentiation, cancer and other biological processes. Comparative immunological studies have revealed that both chemokines and their receptors have expanded greatly in a species/lineage specific way. Of the 10 human CC chemokine receptors (CCR1-10) that bind CC chemokines, orthologues only to CCR6, 7, 9 and 10 are present in teleost fish. In this study, four fish-specific CCRs, termed as CCR4La, CCR4Lc1, CCR4Lc2 and CCR11, with a close link to human CCR1-5 and 8, in terms of amino acid homology and syntenic conservation, have been identified and characterized in rainbow trout (Oncorhynchus mykiss). These CCRs were found to possess the conserved features of the G protein-linked receptor family, including an extracellular N-terminal, seven TM domains, three extracellular loops and three intracellular loops, and a cytoplasmic carboxyl tail with multiple potential serine/threonine phosphorylation sites. Four cysteine residues known to be involved in forming two disulfide bonds are present in the extracellular domains and a DRY motif is present in the second intracellular loop. Signaling mediated by these receptors might be regulated by N-glycosylation, tyrosine sulfation, S-palmitoylation, a PDZ ligand motif and di-leucine motifs. Studies of intron/exon structure revealed distinct fish-specific CCR gene organization in different fish species/lineages that might contribute to the diversification of the chemokine ligand-receptor networks in different fish lineages. Fish-specific trout CCRs are highly expressed in immune tissues/organs, such as thymus, spleen, head kidney and gills. Their expression can be induced by the pro-inflammatory cytokines, IL-1β, IL-6 and IFNγ, by the pathogen associated molecular patterns, PolyIC and peptidoglycan, and by bacterial infection. These data suggest that fish-specific CCRs are likely to have an important role in immune regulation in fish.

Up-regulated of miR-8159-5p and miR-217-5p by LPS stimulation negatively co-regulate TLR1 in miiuy croaker

Toll-like receptors (TLRs) are a group of pattern-recognition receptors which play vital roles in ligand recognition and activation of the innate immune response. As an important member of TLRs family, TLR1 is mainly responsible for PAMPs from bacteria and play a pivotal role in sensing microbial products. Recent studies revealed that TLR1 could perceive LPS stimulation and transfer signals to activate the NF-κB pathway, whereas ligands and signaling pathway of TLR1 are still unclear in fish. Growing evidence has shown that miRNAs (microRNAs) play as negative regulators in controlling the diverse of biophysical and biochemical processes at the post-transcriptional level. In this study, we used a combination of bioinformatics and experimental techniques to exhibit that both miR-8159-5p and miR-217-5p were the direct negative regulators of TLR1 in miiuy croaker. Furthermore, dual-luciferase reporter assays showed that combining miR-8159-5p and miR-217-5p exhibited a greater negative regulatory effect on TLR1 than only miR-8159-5p or miR-217-5p. Additionally, we also demonstrated that the expression of both the two miRNAs could be up-regulated by LPS stimulation in either LPS-stimulation spleen tissue or LPS-treated cultured macrophage, which indicating that miR-8159-5p and miR-217-5p could be induced by LPS and may be as the negative regulators of TLR1 involved in the immune response to LPS stimulation. These results would enhance our understanding of the miRNA regulation in fish TLR signaling pathways.

miR-200a-3p regulates TLR1 expression in bacterial challenged miiuy croaker

MicroRNAs (miRNAs) are highly conserved, small non-coding RNAs which post-transcriptionally regulate various biological processes by repressing mRNA translation or degradating mRNA. It has been demonstrated that miRNAs play crucial roles in regulating the immune system. In this study, we explored the potential roles of miR-200a-3p in regulating TLR signaling pathway in miiuy croaker. Bioinformatics analysis showed that miiuy croaker TLR1 (mmiTLR1) was a putative target of miR-200a-3p. Negative expression profiles in spleen of Vibrio anguillarum challenged miiuy croaker and in lipopolysaccharide (LPS) stimulated miiuy croaker leukocytes further validated the prediction. Luciferase reporter assays showed that the dual-luciferase reporter fused to the 3'UTR of wild type mmiTLR1 cotransfected with miR-200a-3p mimics exhibited a reduction in luciferase activity compared with the controls. All of the present data provide direct evidence that miR-200a-3p is involved in TLR1 expression modulation in miiuy croaker, which will offer a basis for better understanding of miRNA regulation in fish TLR signaling pathways.

Identification and characteristic analysis of TLR28: A novel member of the TLR1 family in teleost

Toll-like receptors (TLRs) play a critical role in the innate immune response of fish to recognize microorganisms. Fish TLRs have significant variety and distinct features. This study focuses on a novel TLR member that belongs to the TLR1 family and was first discovered in miiuy croaker (designated as TLR28, mmiTLR28). In phylogenetic analysis, the mmiTLR28 clustered in the TLR1 family. Further characteristic analysis showed a high homology with TLR2 despite some differences between them. The predicted tertiary structure of mmiTLR28 possesses a hydrophobic pocket in the ectodomain region. Expression analysis showed the high expression level in the liver of miiuy croaker. Further functional experiments on the liver after Vibrio anguillarum, Staphylococcus aureus, lipopolysaccharides (LPS), and poly (I:C) stimulation showed significant upregulation; these results indicate the potential role of mmiTLR28 in immune response. For LPS stimulation in miiuy croaker leukocytes, mmiTLR28 also displayed significant upregulation. The discovery of mmiTLR28 will enrich the information on TLR family; the functional experiments have shown the role of mmiTLR28 in immunity. The results of this study lay the foundation for future research on fish immune systems.

Comparative genomic evidence for duplication of TLR1 subfamily and miiuy croaker TLR1 perceives LPS stimulation via MyD88 and TIRAP

Being indispensable pattern recognition receptors in innate immune responses in host protection, Toll-like receptors (TLRs) play an important role in pathogen recognition. Fish TLRs exhibit high variety and distinct features, although little is known about their function on ligand recognition and signaling pathway in fish. This paper reports the evolutionary spectrum of the TLR1 subfamily (referred to as TLR1, TLR6, and TLR10) as determined using the comparative genomic approach. We hypothesized that the TLR1 subfamily underwent two rounds of gene duplication events; the first duplication occurred prior to the divergence of amphibians, and the second one occurred prior to the divergence of eutherians. To further study the function of fish TLR1, we identified miiuy croaker (Miichthys miiuy) TLR1 (mmiTLR1) and determined its potential ability to perceive Vibrio anguillarum and lipopolysaccharide stimulation. Data further suggested that mmiTLR1 is dependent on TIRAP and MyD88 for signal transmission. In addition, immunocytochemistry showed the speculative interaction between MyD88 and mmiTLR1 TIR domain. Overall, we systematically and comprehensively analyzed evolution of TLR1 subfamily and the function of mmiTLR1, which will provide the basis for future scientific research on fish TLRs.

A genome-wide survey of expansive NLR-C subfamily in miiuy croaker and characterization of the NLR-B30.2 genes

NOD-like receptors (NLRs) are essential intracellular pattern-recognition receptors that respond to pathogens and regulate innate immunity. NLRs include three distinct subfamilies: NLR-A, NLR-B and NLR-C, thereinto, NLR-C as a large subfamily is unique to bony fish and little research about it has been done. In the current study, we identified the members of NLR-B and NLR-C subfamilies containing 2 and 48 genes respectively in miiuy croaker. Compared with other teleosts except for zebrafish, NLR-C subfamily genes occurred expansion in miiuy croaker. The gene expansions of NLR-C subfamily may illustrate adaptive genome evolution in response to specific aquatic environments. Structural analysis showed that the N-terminus of NLR-C subfamily receptors has different characteristics of the domains including RING domain, FISNA domain or PYRIN domain. Interestingly, the C-terminus of 18 NLR-C subfamily members contains an extra B30.2 domain (named NLR-B30.2 genes) which plays an important role in antiviral immune recognition. Simultaneously, molecular evolutionary analysis indicated that the positively sites in miiuy croaker are mainly located in NACHT domain which was the vital region for signal transduction in immune response. Significantly, pathogens challenge in spleen and macrophages demonstrated that NLR-B30.2 genes exhibited more sensitive response to virus than bacteria, suggesting these genes play enhanced roles in innate antiviral immunity, which may represent a new family used for antiviral infection.

Discovery of toll-like receptor 13 exists in the teleost fish: Miiuy croaker (Perciformes, Sciaenidae)

Toll-like receptors (TLRs) play an indispensable role in the immune response for pathogen recognition and triggering not only innate immunity but also adaptive immunity. Here we report the TLR13 homologue, one member of TLRs, in Perciformes (especially Sciaenidae). And we used the miiuy croaker as represented species for further functional experiments. Former study reported the TLR13 only expressed in murine, and we are the first to report the teleost TLR13 (mmiTLR13). MmiTLR13 expressed highly in immune defense related tissues, such as the liver, spleen, and kidney, and Vibrio anguillarum or poly(I:C) infection showed the immune response of mmiTLR13. Further luciferase reporter assays showed the ability for activation of ISRE luciferase reporter, but it failed to active NF-κB. And further gene silence by short hairpin RNA (shRNA) confirmed the results. Immunofluorescence of mmiTLR13 presents the cytoplasmic distribution in Hela cell. In addition, the Toll/interleukin 1 receptor (TIR) domain of mammal TLR5 exhibits high identity with TLR13, which indicated the high homology between TLR5 and TLR13. These findings will lay the fundamental cornerstone for further research of teleost TLR13 and expand the horizon for better understand the teleost TLRs system.

Identification and functional characterization of miiuy croaker IRF3 as an inducible protein involved regulation of IFN response

IFN regulatory factor (IRF) 3 as an important member of IRF family, is required for the host antiviral response. In mammals, IRF3 is known to be a critical player in regulating the transcription of IFN and IFN-stimulated genes (ISGs). However, only a few studies investigated the characteristics of IRF3 genes in fish. In this study, IRF3 from miiuy croaker was identified and characterized in bioinformatics and functions. Miiuy croaker IRF3 had conserved DBD, IAD and SRD domains with other vertebrates IRF3 genes, also miiuy croaker IRF3 had relatively conserved gene synteny and gene structures with other fish IRF3 genes. Evolutionary analysis showed IRF3 genes in mammals underwent positive selection, while IRF3 in fish underwent purifying selection. Expression analysis showed miiuy croaker IRF3 was expressed in all tested tissues and up-regulated expressed in infected liver and kidney; and up-regulated expression of miiuy croaker IRF3 was observed in head kidney macrophages which stimulated with poly(I:C) indicating that miiuy croaker IRF3 participated in the immune response to defense against poly(I:C) infection. Furthermore, luciferase reporter assay showed that overexpression of miiuy croaker IRF3 can activate the production of ISRE and IFNα, suggesting that miiuy croaker IRF3 acted as transcription activators in immune responses and maybe activate IFN signaling pathway. Immunofluorescence assay showed miiuy craoker IRF3 was localized in the cytoplasm in Hela cells. Overall, we systematically and comprehensively analyzed the bioinformatics and functions of miiuy croaker IRF3, which provided further insights into the transcriptional regulation of IRF3 gene in fish and valuable information for the study of evolution of IRF3 genes.

miR-192 targeting IL-1RI regulates the immune response in miiuy croaker after pathogen infection in vitro and in vivo

Activation of innate and acquired immune responses is regulated by detailed mechanisms to control their onset and termination. MicroRNAs have been implicated as negative regulators controlling the diverse of biophysical and biochemical processes at the post-transcriptional level. However, the physiological roles of miRNAs in aquatic organisms are largely unclear. In this study, we explored the potential roles of mmi-miR-192 in regulating interleukin 1 receptor type I (IL-1RI) involved in immune and inflammatory response in miiuy croakers. This was further evaluated by negative expression profiles in both LPS exposure macrophages and Vibrio anguillarum challenged miiuy croaker. By means of promoter analysis, mmi-miR-192 was found to be an AP-1 dependent gene. Importantly, the dual luciferase reporter assay presented the regulation between mmi-miR-192 and IL-1RI. The result of miiuy croaker miR-192 reduced the wild-type IL-1RI but not the mutant one luciferase levels suggested that mmi-miR-192 modulated IL-1RI expression by directly targeting the 3'UTR of IL-1RI mRNA. Overall, our study revealed the mechanism that the miR-192-IL1RI pathway regulated bacteria infection in miiuy croakers.

Identification of 48 full-length MHC-DAB functional alleles in miiuy croaker and evidence for positive selection

Major histocompatibility complex (MHC) molecules play a vital role in the immune response and are a highly polymorphic gene superfamily in vertebrates. As the molecular marker associated with polymorphism and disease susceptibility/resistance, the polymorphism of MHC genes has been investigated in many tetrapods and teleosts. Most studies were focused on the polymorphism of the second exon, which encodes the peptide-binding region (PBR) in the α1- or β1-domain, but few studies have examined the full-length coding region. To comprehensive investigate the polymorphism of MHC gene, we identified 48 full-length miiuy croaker (Miichthys miiuy) MHC class IIB (Mimi-DAB) functional alleles from 26 miiuy croaker individuals. All of the alleles encode 34 amino acid sequences, and a high level of polymorphism was detected in Mimi-DAB alleles. The rate of non-synonymous substitutions (dN) occurred at a significantly higher frequency than that of synonymous substitutions (dS) in the PBR, and this result suggests that balancing selection maintains polymorphisms at the Mimi-DAB locus. Phylogenetic analysis based on the full-length and exon 2 sequences of Mimi-DAB alleles both showed that the Mimi-DAB alleles were clustered into two major groups. A total of 19 positive selected sites were identified on the Mimi-DAB alleles after testing for positive selection, and 14 sites were predicted to be associated with antigen-binding sites, which suggests that most of selected sites are significant for disease resistance. The polymorphism of Mimi-DAB alleles provides an important resource for analyzing the association between the polymorphism of MHC gene and disease susceptibility/resistance, and for researching the molecular selective breeding of miiuy croaker with enhanced disease resistance.

Comparative analysis of the small RNA transcriptomes of miiuy croaker revealed microRNA-mediated regulation of TLR signaling pathway response to Vibrio anguillarum infection

MicroRNAs (miRNAs) are an abundant class of endogenous noncoding small RNAs (sRNAs) that are partially complementary to their target messenger RNA (mRNA), which post-transcriptionally regulate various biological processes by repressing mRNA translation or inducing mRNA degradation. MiRNAs have been demonstrated to play crucial roles in the host response to infection by diverse pathogens. As an important bacterial pathogen, Vibrio anguillarum has been caused great economic losses in miiuy croaker aquaculture. To identify immune-related miRNAs of miiuy croaker in response to V. anguillarum infection, we constructed two sRNA libraries with or without bacterial infection. High-throughput deep sequencing and subsequent bioinformatic analysis identified 241 conserved and 137 novel miRNA precursors in miiuy croaker based on its whole genome sequences, encoding 293 and 124 mature miRNAs, respectively. Then we compared the expression patterns of miRNAs in the two libraries. There were significant differences in the expression of 12 miRNAs between the infection group (IG) and control group (CG). Further, the expressions of six miRNAs were validated by real-time quantitative PCR. The target gene prediction and function analysis were conducted for the 12 differential miRNAs. This analysis revealed that these miRNAs participated in the regulation multiple immune-related signaling pathways. Transcription factors in TLR signaling, such as AP-1, IRF5, NF-κB and IRF3, were activated by these miRNAs via post-transcriptionally regulating the expression of TLRs and TLR-associated signaling proteins, inducing effective host immune response to eradicate infectious pathogens. This is the first study of the identification and characterization of miiuy croaker miRNAs in response to V. anguillarum infection. The comprehensive analysis of the expression of miRNAs and the target gene and function prediction of differently expressed miRNAs may help to understand the regulatory mechanisms of miRNA in fish during the interaction between host and bacterial pathogens.

De novo assembly of the blunt snout bream (Megalobrama amblycephala) gill transcriptome to identify ammonia exposure associated microRNAs and their targets

De novo transcriptome sequencing is a robust method for microRNA (miRNA) target gene prediction, especially for organisms without reference genomes. Following exposure of Megalobrama amblycephala to ammonia (0.1 or 20 mg L⁻¹ ), two cDNA libraries were constructed from the fish gills and sequenced using Illumina HiSeq 2000. Over 90 million reads were generated and de novo assembled into 46, 615 unigenes, which were then extensively annotated by comparing to different protein databases, followed by biochemical pathway prediction. The expression of 2666 unigenes significantly differed; 1961 were up-regulated, while 975 were down-regulated. Among these, 250 unigenes were identified as the targets for 10 conserved and 4 putative novel miRNA families by miRNA target computational prediction. We examined expression of ssa-miRNA-21 and its target genes by real-time quantitative PCR and found agreement with the sequencing data. This study demonstrates the feasibility of identifying miRNA targets by transcriptome analysis. The transcriptome assembly data represent a substantial increase in the genomic resources available for Megalobrama amblycephala and will be useful for gene expression profile analysis and miRNA functional annotation.

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Several differentially expressed genes and miRNA were identified.

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Target prediction indicated that a number of miRNAs involved in immunity.

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The study provides an understanding of molecular mechanisms of ammonia-induced toxicology in fish.

The genome of the miiuy croaker reveals well-developed innate immune and sensory systems

The miiuy croaker, Miichthys miiuy, is a representative Sciaenidae known for its exceptionally large otoliths. This species mainly inhabits turbid aquatic environments with mud to sandy mud bottoms. However, the characteristics of the immune system of this organism and its specific aquatic environment adaptations are poorly understood. Thus, we present a high-quality draft genome of miiuy croaker. The expansions of several gene families which are critical for the fish innate immune system were identified. Compared with the genomes of other fishes, some changes have occurred in the miiuy croaker sensory system including modification of vision and expansion of taste and olfaction receptors. These changes allow miiuy croaker to adapt to the environment during the long-term natural selection. The genome of miiuy croaker may elucidate its relatively well-developed immune defense and provide an adaptation model of the species thriving in turbid deep aquatic environments.

Characterization of six IL-17 family genes in miiuy croaker and evolution analysis of vertebrate IL-17 family

Interleukin-17 (IL-17) family is a cytokine family which is one of the major signaling molecules family involved in immunity. Six member of IL-17 family cytokines (IL-17A-F) were found in mammals. In fish, all IL-17 family genes except IL-17B and IL-17E have been isolated and identified. Besides, IL-17N is uniquely found from teleosts. IL-17 family genes are widely studied in mammals, but have not been widely reported in lower vertebrates. In this study, we identify six IL-17 family genes (IL-17A/F1-3, IL-17C, IL-17D, IL-17N) from miiuy croaker, using LPS and poly (I:C) to infect miiuy croaker in order to analyze the expression response to bacteria and virus and expression in normal tissues. Challenge experiment showed that miiuy croaker IL-17 family genes exhibited more sensitive response to the poly (I:C) than the LPS. The expression of IL-17 in un-stimulated tissues showed that different gene has expressed in different tissues. Through the analysis of IL-17 family members exist in various representative species to study the evolution of the IL-17 family, and the result showed IL-17A/F, IL-17B, IL-17C, and IL-17D should be present in early gnathostomes species.

Molecular characterization of three IRF1 subfamily members reveals evolutionary significance of IRF11 in miiuy croaker

The interferon regulatory factors IRF1 and IRF2 of the IRF1 subfamily play essential roles in immune responses against viruses. IRF11 is a novel IRF gene of the IRF1 subfamily; IRF11 genes share almost the same evolutionary distance with IRF1 and IRF2 genes. However, the structure and characteristics of IRF11 gene in fish have been rarely reported. In our study, IRF1, IRF2 and IRF11 genes were identified and characterized from miiuy croaker genome. Results showed that the IRF1, IRF2 and IRF11 genes contain the same domains; each of these genes is composed of conserved gene organizations and characterized by gene synteny with the orthologous genes. Interestingly, IRF11 was likely found only in fish (but not specific to teleost fish). Evolutionary analysis results showed that IRF1 gene in mammals, IRF2 and IRF11 gene in fish underwent positive selection. IRF1, IRF2 and IRF11 were expressed in a wide range of miiuy croaker tissues. These genes also exhibited the same expression patterns after miiuy croaker was infected with poly(I:C). Therefore, our data enhanced our understanding of the functions and evolution of IRF11 in fish.

Teleost Chemokines and Their Receptors

Chemokines are a superfamily of cytokines that appeared about 650 million years ago, at the emergence of vertebrates, and are responsible for regulating cell migration under both inflammatory and physiological conditions. The first teleost chemokine gene was reported in rainbow trout in 1998. Since then, numerous chemokine genes have been identified in diverse fish species evidencing the great differences that exist among fish and mammalian chemokines, and within the different fish species, as a consequence of extensive intrachromosomal gene duplications and different infectious experiences. Subsequently, it has only been possible to establish clear homologies with mammalian chemokines in the case of some chemokines with well-conserved homeostatic roles, whereas the functionality of other chemokine genes will have to be independently addressed in each species. Despite this, functional studies have only been undertaken for a few of these chemokine genes. In this review, we describe the current state of knowledge of chemokine biology in teleost fish. We have mainly focused on those species for which more research efforts have been made in this subject, specifically zebrafish (Daniorerio), rainbow trout (Oncorhynchusmykiss) and catfish (Ictaluruspunctatus), outlining which genes have been identified thus far, highlighting the most important aspects of their expression regulation and addressing any known aspects of their biological role in immunity. Finally, we summarise what is known about the chemokine receptors in teleosts and provide some analysis using recently available data to help characterise them more clearly.

Transcriptome comparative analysis revealed poly(I:C) activated RIG-I/MDA5-mediated signaling pathway in miiuy croaker

Miiuy croker (Miichthys miiuy) as an important economical aquaculture species has challenged many more diseases caused by various pathogens recently. To better explore the immune response to virus, we have analyzed the transcriptome profiling of miiuy croaker challenged with poly(I:C) synthetic analog of virus dsRNA. We have obtained differentially expressed genes (DEGs) with up/down-relevant from comparison of the Ctrl and Poly transcriptome libraries. Through GO and KEGG enrichment analysis, immune-relevant DEGs whose expression are significantly rise or fall after challenged have been identified and classified. In order to detailedly analysis host immune response patterns for dsRNA virus, we have performed a map based on RIG-I/MDA5-mediated and TLR3-mediated signaling pathway which both induced type I IFNs response. In this pathway, both MDA5 and LGP2 are important RLRs in host surveillance against infection of dsRNA viruses and induce type I IFNs response which subsequently form a transcription factor complex ISGF3 that promote downstream genes referred to as ISGs to inhibits virus replication.

Evolution of akirin family in gene and genome levels and coexpressed patterns among family members and rel gene in croaker

Akirins, which are highly conserved nuclear proteins, are present throughout the metazoan and regulate innate immunity, embryogenesis, myogenesis, and carcinogenesis. This study reports all akirin genes from miiuy croaker and analyzes comprehensively the akirin gene family combined with akirin genes from other species. A second nuclear localization signal (NLS) is observed in akirin2 homologues, which is not in akirin1 homologues in all teleosts and most other vertebrates. Thus, we deduced that the loss of second NLS in akirin1 homologues in teleosts likely occurred in an ancestor to all Osteichthyes after splitting with cartilaginous fish. Significantly, the akirin2(2) gene included six exons interrupted by five introns in the miiuy croaker, which may be caused by the intron insertion event as a novel evidence for the variation of akirin gene structure in some species. In addition, comparison of the genomic neighborhood genes of akirin1, akirin2(1), and akirin2(2) demonstrates a strong level of conserved synteny across the teleost classes, which further proved the deduction of Macqueen and Johnston 2009 that the produce of akirin paralogues can be attributed to whole-genome duplications and the loss of some akirin paralogues after genome duplications. Furthermore, akirin gene family members and relish gene are ubiquitously expressed across all tissues, and their expression levels are increased in three immune tissues after infection with Vibrio anguillarum. Combined with the expression patterns of LEAP-1 and LEAP-2 from miiuy croaker, an intricate network of co-regulation among family members is established. Thus, it is further proved that akirins acted in concert with the relish protein to induce the expression of a subset of downstream pathway elements in the NF-kB dependent signaling pathway.

Characterization and evolutionary analysis of duplicated C7 in miiuy croaker

The complement system, as one of the most sophisticated innate immune system, plays an important role in defense against invading microorganisms. The complement component C7 participates in the cytolytic phase of complement activation through a series of polymerization reactions with other terminal complement components. In this study, we derived two C7 genes from the whole genome of miiuy croaker which were the consequence of the fish-specific genome duplication. Our data showed that miiuy croaker C7-1 and C7-2 genes shared same structure domains. The analysis of gene synteny showed that high degree conserved of synteny was retained between miiuy croaker and other teleosts, and miiuy croaker had a relatively closer relationship with fugu. The expression of C7-1 and C7-2 in miiuy croaker healthy tissues revealed that they were ubiquitously expressed in all ten tested tissues. Besides, the immune response of C7-1 and C7-2 were different in spleen with Vibrio anguillarum, Staphylococcus aureus, poly I:C and LPS at 24 h post-injection, respectively. Furthermore, the expression patterns of C7-1 and C7-2 were different in liver, spleen and kidney after infected with V. anguillarum at different time-point. Evolutionary analysis showed that all the ancestral lineages underwent positive selection except for the ancestral lineages of fish C7-2, indicated that the ancestral lineages of fish C7-1 genes undertook more pressures than C7-2 in defense against the invading microorganisms. Meanwhile, a series of maximum likelihood methods were used to explore the evolutionary patterns on extant vertebrates' C7 genes. Three and one positive selection sites were found in extant mammalian C7 genes and fish C7-2 genes, but no positive selection site was found in extant fishes C7-1 genes. The result showed that extant fish C7-2 genes undertook more pressures compared with C7-1. In conclusion, fish C7-1 and C7-2 gene underwent different evolutionary patterns.

Characterization of the duplicate L-SIGN and DC-SIGN genes in miiuy croaker and evolutionary analysis of L-SIGN in fishes

Dendritic cell-specific ICAM-3-grabbing non-integrin (DC-SIGN/CD209) and liver/lymph node-specific ICAM-grabbing non-integrin (L-SIGN/CD299) which are homologues of DC-SIGN are important members in C-type lectin receptors family as key molecules to recognize and eliminate pathogens in the innate immune system. DC-SIGN and L-SIGN have become hot topics in recent studies which both served as cell adhesion and phagocytic pathogen recognition receptors in mammals. However, there have been almost no studies of DC-SIGN and L-SIGN structure and characters in fish, only DC-SIGN in the zebrafish had been studied. In our study, we identified and characterized the full-length miiuy croaker (Miichthys miiuy) DC-SIGN (mmDC-SIGN) and L-SIGN (mmL-SIGN) genes. The sequence analysis results showed that mmDC-SIGN and mmL-SIGN have the same domains with other vertebrates except primates, and share some conserved motifs in CRD among all the vertebrates which play a crucial role in interacting with Ca(2+) and for recognizing mannose-containing motifs. Gene synteny of DC-SIGN and L-SIGN were analyzed for the first time and gene synteny of L-SIGN was conserved among the five fishes. Interestingly, one gene next to L-SIGN from gene synteny had high similarity with L-SIGN gene that was described as L-SIGN-like in fish species. While only one L-SIGN gene existed in other vertebrates, two L-SIGN in fish may be in consequence of the fish-specific genome duplication to adapt the specific environment. The evolutionary analysis showed that the ancestral lineages of L-SIGN gene in fishes experienced purifying selection and the current lineages of L-SIGN gene in fishes underwent positive selection, indicating that the ancestral lineages and current lineages of L-SIGN gene in fishes underwent different evolutionary patterns. Both mmDC-SIGN and mmL-SIGN were expressed in all tested tissues and ubiquitously up-regulated in infected liver, spleen and kidney at different sampling time points, indicating that the mmDC-SIGN and mmL-SIGN participated in the immune response to defense against bacteria infection.

Comparative genomic of the BAFF and BAFF-like genes and immune response to bacteria of miiuy croaker (Miichthys miiuy)

As a member of the tumor necrosis factor (TNF) family, B cell activating factor (BAFF), also known as TNF ligand superfamily member 13B (TNF13B), playing a critical role in enhancing immune responses. BAFF is a central cytokine for B-cell survival, proliferation, maturation and immunoglobulin secretion. In the present study, we describe the identification of the miiuy croaker BAFF (designed MmBAFF) and BAFF-like (designed MmBAFF-like) genes. The cDNA of MmBAFF contains an open reading frame (ORF) of 795 nucleotides that are translated into a predicted 264 amino acids. The ORF of MmBAFF-like consists of 705 bases encoding 234 amino acids. Amino acid sequence comparison indicated that MmBAFF and MmBAFF-like possessed the TNF signatures, a predicted transmembrane domain, three conserved cysteine residues and a putative furin protease cleavage site, which were the typical characteristics of TNF gene in mammals and birds. The predicted three-dimensional (3D) structure of the MmBAFF and MmBAFF-like monomer analyzed by comparative protein modeling revealed that they were very similar to human counterpart. Comparative genomic analysis revealed that the locations of MmBAFF and MmBAFF-like genes are conserved among the bony fish. Phylogenetic analysis shows the MmBAFF is most closely related to other teleost BAFFs with the highest similarity to Epinephelus awoara. And BAFF-like cluster get together first to BAFF cluster than three closely related TNF superfamily (TNFSF) members. Real-time quantitative PCR analysis shows the MmBAFF and MmBAFF-like transcripts are expressed in a wide range of tissues with the highest expression in skin and lymphoid tissue spleen. Upon induction by Vibrio anguillarum, their expressions are significantly upregulated in liver, spleen and kidney as compared to phosphate-buffered saline injected control fish. The association of increased BAFF expression after bacterial infection suggests that it plays a potentially important role in immune system of fish.

CCR9-CCL25 interaction suppresses apoptosis of lung cancer cells by activating the PI3K/Akt pathway

CC chemokine receptor-9 (CCR9) is highly expressed in non-small cell lung cancer (NSCLC) tissues and cell lines. However, the biological functions and the signals elicited by the interaction between CCR9 and its natural ligand CCL25 in NSCLC are unknown. Here, we selectively depleted CCR9 and inhibited CCR9-CCL25 interaction in NSCLC cells using small recombinant lentivirus-mediated miRNA, and investigated the tumorigenic effects in vitro and in vivo. Compromised CCR9-CCL25 interaction promoted apoptosis in NSCLC cells by activating phosphoinositide 3-kinase (PI3K)/Akt in vitro. In addition, we showed that CCR9-CCL25 interaction mediated the activation of the PI3K/Akt pathway in NSCLC cells, resulting in the up-regulation of anti-apoptotic proteins, as well as the down-regulation of apoptotic proteins in a PI3K-/Akt-dependent manner. These CCR9-CCL25-mediated effects were abrogated in the presence of a PI3K inhibitor (wortmannin 10 nM) or by inhibiting the CCR9-CCL25 interaction through CCR9 silencing, which also suggested that the biological function of CCR9-CCL25 was mainly regulated by PI3K. In vivo studies also demonstrated a significantly lower tumor burden in mice receiving CCR9-silence cells than those in mice receiving control cells. Together, these data suggested that CCR9-CCL25 interaction induced tumorigenesis of NSCLC cells and that this induction might be accomplished through the activation of the PI3K/Akt pathway. These findings may lead to a better understanding of the biological effects of CCR9-CCL25 interaction and provide clues for identifying novel therapeutic and preventive molecular markers for NSCLC.

Comparative genomic of the teleost cathepsin B and H and involvement in bacterial induced immunity of miiuy croaker

Cathepsins are a family of lysosomal proteases play different roles at physiological and pathological states and present in almost all animals as well as other organisms. Cathepsins B and H are both cysteine proteases of cathepsins. Cathepsin B and H have been studied playing parts in protein degradation/turnover, antigen presentation/processing and hormone maturation in mammals. However, little is known about the structures and functions of cathepsin B and H in teleosts. In the present study, we identified and characterized the full-length miiuy croaker (Miichthys miiuy) cathepsin B and H genes. The sequence analysis results showed that both cathepsin B and H contain the characteristics of papain family with a signal peptide, propeptide and mature peptide regions. The comparison of the genomic organizations and locations indicated the conserved synteny and mild evolution in the cathepsin B and H genes adjacent regions. In addition, the gene synteny analysis showed that miiuy croaker cathepsin B has a closer relationship to stickleback and fugu than to cave fish and zebrafish, and cathepsin H was most similar with the 2 subtype in tilapia and fugu. By phylogenetic analysis, miiuy croaker cathepsin B and H were all assigned to cysteine proteases, and with a close relationship to Salmo salar cathepsin B and Oplegnathus fasciatus cathepsin H, respectively. Quantitative real-time RT-PCR analysis results confirmed that cathepsin B and H genes expressed ubiquitously in all tested healthy tissues from miiuy croaker. Furthermore, up-regulated expression of the cathepsin B and H transcripts in liver, spleen and kidney after exposure upon Vibrio anguillarum suggested that they may play important roles in innate immune response and antigen processing of miiuy croaker.

Characterization, evolution and functional analysis of the liver-expressed antimicrobial peptide 2 (LEAP-2) gene in miiuy croaker

As an evolutionarily older defense strategy, the innate immune is the dominant immune system and provides a first line of antimicrobial host defense in teleost. Liver-expressed antimicrobial peptide-2 (LEAP-2) is a critical molecule of the innate immune system and plays a very important role in resistance against bacterial infections. We reported comprehensive analysis and characterization of LEAP-2 gene from miiuy croaker (Miichthys miiuy) in here. The complete cDNA of miiuy croaker LEAP-2 consists 2360 bp, including a 5' terminal untranslated region (UTR) of 170 bp, an open reading frame (ORF) of 312 bp, and a 3'-UTR of 1878 bp. Interestingly, two polyadenylation signals (AATTAAA) which may involve the stability, translation efficiency, or localization of an mRNA in a tissue were found in 3'-UTR. Genomic DNA of miiuy croaker LEAP-2 includes three exons and two introns, which is similar to LEAP-2 genes in other mammals and fish. The deduced 103 amino acids consist of signal peptide, prodomain and mature peptide. Four highly conserved cysteine residues involved two disulfide bridges in mature peptide. Real-time PCR results showed that LEAP-2 was ubiquitously expressed in all tissues and the expression level was highest in liver. Significantly, the expression levels were increased after infection with Vibrio anguillarum in liver and spleen. The antimicrobial activity analysis result of LEAP-2 in vitro indicated that LEAP-2 of miiuy croaker was effective in controlling Aeromonas hydrophila. In addition, we performed evolutionary analysis in order to estimate the selective constraints on the LEAP-2 gene. The result indicated that no positive selection exists in LEAP-2 gene sequences, which may be on account of irreplaceable function constrains. Meanwhile, we compared the structure of LEAP-2 with that of another Liver-expressed antimicrobial peptide (LEAP-1, also named HAMP), and found the LEAP-2 from miiuy croaker comprises of α-helix, β-sheet, and β-turn while the LEAP-1 of miiuy croaker only contains β-sheet.

Genomic characterization and expression pattern of Bf/C2 and C4 in miiuy croaker and molecular evolution analysis on mammals and fishes

The complement system plays an important role in both innate and adaptive host defense against the invading microorganisms in vertebrates. It can be activated by three pathways: the classical, alternative and lectin pathways. Bf/C2 and C4, as members of complement, play a pivotal role in the activation of the complement system. In our study, we identified Bf/C2 and C4 genes and genomic structure in miiuy croaker, and expression patterns of Bf/C2 and C4 genes was analyzed. In healthy miiuy croaker tissues, Bf/C2 and C4 genes were found to be ubiquitously expressed in all ten tested tissues. Analysis of expression of Bf/C2 and C4 genes after bacterial infection showed a significant up-regulated in liver. The evolutionary analysis showed that the ancestral lineages of Bf/C2 and C4 genes in mammals and fishes experienced positive selection indicated that the ancestors of mammals and fishes had further evolved to adapt to their environment, respectively. A series of maximum likelihood (ML) methods were used to study the evolution on vertebrates' Bf/C2 and C4 genes. One and five positive selection sites were found in mammals of Bf/C2 and C4 genes, but no positive selection site was found in fishes of Bf/C2 and C4 genes, indicating that Bf/C2 and C4 genes in mammals and fishes underwent different evolutionary patterns.

Identification of 21 novel immune-type receptors in miiuy croaker and expression pattern of three typical inhibitory members

Novel immune-type receptor (NITR) genes belong to the immunoglobulin superfamily and are encoded by clusters of multigene families. NITRs encode type I transmembrane proteins and are only found in teleosts. In the current study, total 21 NITR genes are identified from miiuy croaker (Miichthys miiuy) and named as MmNITR1 to MmNITR21. Miiuy croaker NITR genes that encoded one or two extracellular immunoglobulin (Ig) domains, a transmembrane (TM) region, an immunoreceptor tyrosine-based inhibitor motif (ITIM) in the cytoplasmic (Cyt) region. The majority of MmNITRs possess cytoplasmic ITIM that can be classified as inhibitory receptors. However, a smaller number of NITRs (MmNITR8, MmNITR15 and MmNITR16) can be classified as activating receptors by the lack of cytoplasmic ITIMs and presence of a positively charged residue within their transmembrane domain. As typical inhibitory receptors, MmNITR1, MmNITR2 and MmNITR3 have different characteristics of the structure. In MmNITR1 gene, variable (V) and intermediate (I) domains are encoded by two separate exons. In contrast to MmNITR1, MmNITR3 gene encode V and I domains in a single exon. And MmNITR2 gene is characterized by the presence of only one Ig-like (V-type) extracellular domain and lack of J or J-like motifs. Also MmNITR2 gene displays an additional exon which is 48bp long between the V domain and the TM region. Two and four potential N-link giycosylation sites (N-X-S/T) are present in the extracellular Ig domains. Real-time RT-PCR results showed that upon induction with Vibrio anguillarum, NITR gene expressions were induced by bacteria in kidney, liver and spleen. Meanwhile, NITRs are also primarily detected in different tissues. Phylogenetic analyses of NITR V domains indicate that MmNITR1 and MmNITR2 are more similar than MmNITR3.

Characterization and expression of the CXCR1 and CXCR4 in miiuy croaker and evolutionary analysis shows the strong positive selection pressures imposed in mammal CXCR1

The innate immune system can recognize non-self, danger signals, and pathogen associated molecular patterns and provides a first line of antimicrobial host defense. Therefore, it plays an instructive role and is pretty important in vertebrates. In innate immune responses, CXCRs act as the main receptors of CXC chemokines and play a vital role in host defense and inflammation. In present study, we cloned two cDNA molecules of CXCR1 and CXCR4 in Miichthys miiuy (miiuy croaker). In these two genes, we found the most highly conserved DRY motif in the second intracellular loop adjacent to the third transmembrane domain. The expressions of CXCR1 and CXCR4 showed that they were ubiquitously expressed in ten normal tissues. After infection with Vibrio anguillarum and Vibrio harveyi, the expressions of CXCRs in the immune tissues were significantly regulated in most of tissues except that of CXCR1 in the kidney after V. harveyi injection. Evolutionary analysis showed that only the ancestral lineages of CXCR4 in amphibians underwent positive selection, indicating that the ancestors of amphibians boarded the land and had to further evolve to adapt to terrestrial environments. Multiple ML methods were implemented to detect the robust positively selected candidates for sites. In total, we detected 12 and 3 positively selected sites in the subsets of current mammal and fish CXCR1 genes, and only one site under positive selection was found in mammalian CXCR4 subsets. These positively selected sites were mainly located in the extracellular domains of CXCRs. The sliding window analysis and evolution test tended to favor positive selection acting on the N-terminal domain of CXCR1, which was the critical region for ligand/receptor signaling for neutrophils and receptor-ligand interaction, indicating that the N-terminal of CXCR1 in mammals underwent more positive selection than that of fish.