The systematic identification and mRNA expression profiles post viral or bacterial challenge of complement system in grass carp Ctenopharyngodon idella

Comprehensive transcriptomics and proteomics analysis of Carassius auratus gills in response to Aeromonas hydrophila

As one of the mucosal barriers, fish gills represent the first line of defense against pathogen infection. However, the exact mechanism of gill mucosal immune response to bacterial infection still needs further investigation in fish. Here, to investigate pathological changes and molecular mechanisms of the mucosal immune response in the gills of crucian carp (Carassius auratus) challenged by Aeromonas hydrophila, the transcriptomics and proteomics were performed by using multi-omics analyses of RNA-seq coupled with iTRAQ techniques. The results demonstrated gill immune response were mostly related to the activation of complement and coagulation cascades, antigen processing and presentation, phagosome, NOD-like receptor (NLR) and nuclear factor κB (NFκB) signaling pathway. Selected 21 immune-related DEGs (ie., Clam, nfyal, snrpf, acin1b, psme, sf3b5, rbm8a, rbm25, prpf18, g3bp2, snrpd3l, tecrem-2, cfl-A, C7, lysC, ddx5, hsp90, α-2M, C9, C3 and slc4a1a) were verified for their immune roles in the A. hydrophila infection via using qRT-PCR assay. Meanwhile, some complement (C3, C7, C9, CFD, DF and FH) and antigen presenting (HSP90, MHC Ⅱ, CALR, CANX and PSME) proteins were significantly participated in the process of defense against infections in gill tissues, and protein-protein interaction (PPI) network displayed the immune signaling pathways and interactions among these DEPs. The correlation analysis indicated that the iTRAQ and qRT-PCR results was significantly correlated (Pearson's correlation coefficient = 0.70, p < 0.01). To our knowledge, the transcriptomics and proteomics of gills firstly identified by multi-omics analyses contribute to understanding on the molecular mechanisms of local mucosal immunity in cyprinid species.

Two kinds of traditional Chinese medicine prescriptions reduce thymic inflammation levels and improve humoral immunity of finishing pigs

In animal husbandry, traditional Chinese medicine (TCM) as a reasonable alternative to antibiotics has attracted more and more concerns to reduce microbial resistance. This study was aimed to investigate the effects of dietary supplementation with TCM prescriptions on serum parameters and thymus inflammation responses in finishing pigs. Thirty finishing pigs were randomly divided into three groups, which included the Con group (basal diet), the TCM1 group (basal diet supplemented with Xiao Jian Zhong prescriptions), and the TCM2 group (basal diet supplemented with Jingsananli-sepsis). The results showed that the contents of C3 and C4 in the serum were significantly increased in both the TCM1 and TCM2 groups compared to the Con group on day 30. Similarly, the levels of IgA, IgG, and IgM were increased in the TCM2 group, and only the level of IgM in TCM1 was increased on day 30. Meanwhile, the levels of classical swine fever virus (CSFV) and respiratory syndrome virus (PRRSV) antibodies had a notable increase in the TCM1 and TCM2 groups. Both TCM1 and TCM2 inhibited the levels of TLR4/MyD88/NF-κB signaling pathway-related mRNA (TLR4, MyD88, NF-κB, IL6, IL8, and TNF-α) and protein (p-IκBα and p-P65) expression levels in the thymus. In conclusion, dietary supplementation with TCM could reduce thymic inflammation levels and improve humoral immunity of finishing pigs.

Complement C3a Enhances the Phagocytic Activity of B Cells Through C3aR in a Fish

The complement system is an important part of the immune system of teleost fish. Besides, teleost B cells possess both phagocytic activity and adaptive humoral immune function, unlike mammalian B1 cells with phagocytic activity and B2 cells specific to adaptive humoral immunity. However, the cross talk between complement system and phagocytic B cells in teleost fish still requires elucidation. Here, we show that, unlike tetrapods with a single C3 gene, nine C3 genes were identified from the grass carp (Ctenopharyngodon idella) genome, named C3.1-C3.9. Expression analysis revealed that C3.1 is the dominant C3 molecule in grass carp, for its expression was significantly higher than that of the other C3 molecules both at the mRNA and protein levels. The C3a fragment of C3.1 (C3a.1) was determined after the conserved C3 convertase cleavage site. Structural analysis revealed that C3a.1 consists of four α-helixes, with the C-terminal region forming a long α-helix, which is the potential functional region. Interestingly, we found that the recombinant GST-C3a.1 protein and the C-terminal α-helix peptide of C3a.1 both could significantly enhance the phagocytic activity of IgM⁺ B cells. Further study revealed that the C3a receptor (C3aR) was highly expressed in grass carp IgM⁺ B cells, and the phagocytosis-stimulating activity of C3a.1 could be dramatically inhibited by the anti-C3aR antibodies, indicating that C3a.1 performed the stimulating function through C3aR on IgM⁺ B cells. Taken together, our study not only uncovered the novel phagocytosis-stimulating activity of C3a, but also increased our knowledge of the cross talk between complement system and phagocytic B cells in teleost fish.

Complement genes in black rockfish (Sebastods schlegelii): genome-wide identification, evolution and their potential functions in response to Vibrio anguillarum infection

As complex components of innate immune system, members of complement system play crucial roles during the process of defensing against pathogens. Black rockfish (Sebastes schlegelii) is one of the important aquaculture species in East Asian. However, studies of complement genes in black rockfish and its related immune activities are still lacking. Therefore, a total of 112 members of the complement genes were identified from the genome of black rockfish and were classified into five subgroups. According to their functional annotations, 30 genes belonged to pattern recognition, 6 genes belonged to proteases, 14 genes belonged to complement components, 36 genes belonged to receptors, and 26 genes belonged to regulators. It can be found that many complement genes evolved into multi-copies, especially in teleost, which may be influenced by whole-genome duplication or tandem duplication events. Complement genes were randomly distributed on 22 chromosomes. The number of introns of complement genes varied from 1 to 70. Results of the expression patterns of 10 randomly selected genes from 5 subtypes response to Vibrio anguillarum infection revealed that most of the members of the complement genes were induced in gill and skin. In contrast, most genes in intestine showed downregulation. This study systematically characterized and analyzed the complement genes in black rockfish and provided new insights into their functions responding to bacterial infection.

Tracing and exploring the evolutionary origin and systematic function of fish complement C9

Complement C9, as a member of terminal complement component (TCC) protein, plays important roles in innate immunity. However, some complement components appear to show difference and evolutionary complexity between higher and lower vertebrates. Hence, it is essential to carry on a study of evolutionary origin and systematic function of C9 in fish and non-fish vertebrates. This study aims to explore the complement gene evolution and potential function in fish based on molecular and structural biology. Herein, we found complete divergence of C9 throughout the gene evolution. The optimal codons of C9 sequences tended to be closer to the genomes of lower vertebrates compared to higher vertebrates. Further, conserved amino acids in the C9 TMH1 region were identified, implying their potential functional association with MAC growth and pore formation. Transposons and simple repeats, as gene elements, exhibited a differential distribution in the genomic regions in different animal groups but were sparsely scattered around the sixth exon (TMH1 region). Notably, this demonstrated the regulatory complexity of the C9 gene in higher vertebrates. The negative selection pressures on fish and non-fish groups improved both the sequence conservation and similarity. Through gene/protein regulatory network and pathway analyses, the systematic function of C9 protein was showcased; thus, we could reveal the divergence of the systematic function of C9 across species from different evolutionary positions. In addition, more complicated functions of C9 in higher vertebrates could established by the altered spatial conformation of the protein. Collectively, the present study illustrates the C9 gene evolutionary process and the difference in its systematic function across multiple species. Such advances provide new insights for understanding the evolutionary and potential functions of complement C9.

The evolutionary analysis of complement component C5 and the gene co-expression network and putative interaction between C5a and C5a anaphylatoxin receptor (C5AR/CD88) in human and two Cyprinid fish

The complement system is a complex network of soluble and membrane-associated serum proteins that regulate immune response. Activation of the complement C5 generates C5a and C5b which generate chemoattractive effect on myeloid cells and initiate the membrane attack complex (MAC) assembly. However, the study of evolutionary process and systematic function of C5 are still limited. In this study, we performed an evolutionary analysis of C5. Phylogeny analysis indicated that C5 sequences underwent complete divergence in fish and non-fish vertebrate. It was found that codon usage bias improved and provided evolution evidence of C5 in species. Notably, the codon usage bias of grass carp was evolutionarily closer to the zebrafish genome compared with humans and stickleback. This suggested that the zebrafish cell line may provide an alternative environment for heterologous protein expression of grass carp. Sequence comparison showed a higher similarity between human and mouse, grass carp, and zebrafish. Moreover, selective pressure analysis revealed that the C5 genes in fish and non-fish vertebrates exhibited different evolutionary patterns. To study the function of C5, gene co-expression networks of human and zebrafish were built which revealed the complexity of C5 function networks in different species. The protein structure simulation of C5 indicated that grass carp and zebrafish are more similar than to human, however, differences between species in C5a proteins are extremely smaller. Spatial conformations of C5a-C5AR (CD88) protein complex were constructed, which showed that possible interaction may exist between C5a and CD88 proteins. Furthermore, the protein docking sites/residues were measured and calculated according to the minimum distance for all atoms from C5a and CD88 proteins. In summary, this study provides insights into the evolutionary history, function and potential regulatory mechanism of C5 in fish immune responses.

Fish complement C4 gene evolution and gene/protein regulatory network analyses and simulated stereo conformation of C4-MASP-2 protein complex

Complement C4 is a central protein by acting as pivotal molecule in the activation of the complement system. More than a decade ago, C4 gene duplication had been found in several species including fish, revealing the evolutionary origin of C4 gene. However, the evolutionary pattern and systematic function of C4 are still limited. In this study, C4 D and H types in different species groups were completely diverged. The codon usage of C4 H type in higher vertebrates were much closer to their own genome environment, in contrast to lower vertebrates, suggesting that the evolution may provide the dynamic for homogeneous codon usage between specific gene and genome. Multiple C4 sequence alignment showed that the sequences were conserved among different species. However, sequence similarity was obviously different between species C4 D and H type. Negative selection pressure was found on C4 gene evolution and it may be one of the possible reasons for the sequence broad similarity and conservation among interspecies. Proteins from C4 protein-protein interaction (PPI) network were enriched in more hematopoiesis, infections, diseases and immune-related pathways in human than zebrafish. The result suggested that the functional complexities of C4 isotypes are distinct in species from different evolutionary positions. The simulated C4 protein structures between human and grass carp shared structural similarity and the stereo structures of grass carp C4-MASP-2 protein complexes were further simulated according to a study of human. These results suggested that the interaction between C4 and MASP-2 proteins may also exist in grass carp. Our results can provide an insight for the evolutionary process of C4 and better understanding to the potential mechanism of interaction between C4 and MASP-2 in fish species.

Pattern recognition receptors in grass carp Ctenopharyngodon idella: II. Organization and expression analysis of NOD-like receptors

Nucleotide-binding domain and leucine-rich repeat containing receptors (NLRs) are a pivotal intracellular pattern recognition receptor family. However, studies on NLR genes in important economic fish grass carp (Ctenopharyngodon idella) are sporadic. The accumulations of genomic resource and transcriptomic sequences make it feasible to conduct a systematic analysis of these genes. In this study, we systematically conducted the genome-wide study of C. idella NLR genes and characterized their phylogeny, gene structure, conserved domain, evolutionary mechanism, and expression profiles post viral or bacterial challenge. A total of 65 NLR genes were identified and clustered into five subfamilies based on structural and phylogenetic features, including eight NODs (NLR-A), five NLRP-like receptors (NLR-B), forty-seven teleost-specific NLRs (NLR-C), two members with a B30.2 domain at the C-terminal (NLR-B30.2), and three additional NLRs (other NLRs). Gene structure analysis showed that NLRs were significantly different, with exon numbers from 3 to 31. Conserved domain analysis showed that most members of C. idella NLRs had additional domains besides the typical NLR domains. Gene duplication analysis indicated that the evolution of the NLR gene family was mainly related to segment duplication. mRNA expression analysis indicated that many members were differently expressed in multiple tissues post grass carp reovirus (GCRV) or Aeromonas hydrophila infection. The expression was particularly enhanced in liver post GCRV infection, and obviously lower post A. hydrophila infection than that post GCRV infection in spleen. These results provide systematic basic data for further functional studies of NLR, and insight into the immune responses of piscine fish NLRs to pathogen infections.

Identification and characterization of two mannan-binding lectin associated proteins in lectin complement pathway of grass carp

The lectin pathway of complement activation is an important component of the innate immune response, which must be tightly controlled to maintain immune homeostasis. However, its control mechanisms have not been investigated in detail in bony fish. In this study, we identified and characterized two novel, phylogenetically conserved mannan-binding lectin (MBL)-associated proteins (MAps) of grass carp (Ctenopharyngodon idella), CiMAp27 and CiMAp39, which were truncated, alternatively-spliced forms of grass carp MBL-associated serine proteases (MASPs), CiMASP1 and CiMASP2, respectively. Gene expression profiling showed that both CiMAp27 and CiMAp39 were upregulated by low doses of Aeromonas hydrophila, and inhibited by high doses, which lead to the inference that these genes acted as immune factors in antibacterial defense. Sequence analysis showed that CiMAp27 lack a catalytic domain but retains two domains (CUB1-EGF) involved in the association with MBL, while CiMAp39 retained four domains (CUB1-EGF-CUB2-CCP1). Not only the two CiMASPs but also the CiMAps were detected in grass carp serum. Furthermore, both recombinant CiMASPs (rCiMASPs) and recombinant rCiMAps (rCiMAps) interacted with recombinant MBL and the two CiMAps competed with CiMASPs for binding to MBL, and hence inhibited downstream C4 binding. These results indicated that CiMAps acted as competitive inhibitors in the lectin complement pathway of grass carp.

The potential sensing molecules and signal cascades for protecting teleost fishes against lipopolysaccharide

Lipopolysaccharide (LPS) is a classical pathogen-associated molecular pattern that can trigger strong inflammatory response mainly by TLR4-mediated signaling pathway in mammals, but the molecular mechanism of anti-LPS immunity is unclear in teleost fishes. In this study, we analyzed the gene expression features based on transcriptome analysis in Schizothorax prenanti (S. prenanti), after stimulation with two sources of LPS from Aeromonas hydrophila and Escherichia coli (Ah. LPS and Ecoli. LPS). 921 different expression genes (DEGs) after Ah. LPS stimulation and 975 DEGs after Ecoli.LPS stimulation were acquired, but only 706 and 750 DEGs were successfully annotated into the databases, respectively. Both of two groups of DGEs were significantly enriched into immune-related pathways by KEGG enrichment analysis, such as "Toll-like receptor signaling pathway", "Cytokine-cytokine receptor interaction" and "JAK-STAT signaling pathway". The annotated DEGs from Ah. LPS and Ecoli. LPS stimulation shared 470 DEGs, including 88 immune-related DEGs (IRGs) identified mainly by KEGG enrichment to immune-related signaling pathways. Among the shared IRGs, four pattern-recognition genes (TLR5, TLR25, PTX3 and C1q) were induced with high expression foldchange, and IFN-γ and relative genes also showed higher expression levels than control. Meanwhile, inflammatory signals were highlighted by upregulating the expression of inflammatory cytokines (IL-1β, IL-10 and IL-8). Moreover, some non-shared IRGs (including TLR2 and TLR4) were identified, suggesting that different sources of LPS own different potentials for the induction of immune gene expression. In conclusion, TLR5, TLR25, PTX3 and C1q may function as the sensing molecules to catch the invasion signal of LPS. The anti-LPS immune response may be involved into TLR25/TLR5-mediated inflammatory signals that regulate subsequently the activation of PTX3/C1q-modulated complement pathway upon the induction of PTX3 expression, and the crosstalk between IFN-γ and TLR signaling pathways in teleost fishes. This study will contribute to further explore the molecular mechanism of LPS-induced immunity in teleost fishes.

Genome-wide identification, evolution, and mRNA expression of complement genes in common carp (Cyprinus carpio)

Complement is a complex component of innate immune system, playing an important role in defense against pathogens and host homeostasis. The complement system has been comprehensively studied in mammals, however less is known about complement in teleost, especially in tetraploid common carp (Cyprinus carpio). In this study, a total of 110 complement genes were identified and characterized in common carp, which include almost all the homologs of mammalian complement genes. These genes were classified into three pathways (alternative pathways, lectin pathways and classical pathways), similar to those in mammals. Phylogenetic and selection pressure analysis showed that the complement genes were evolving-constrained and the function was conserved. Most of the complement genes were highly expressed in spleen, liver, brain and skin among the tested 12 health tissues of common carp. After Aeromonas hydrophila infection in the common carp, many members of complement genes were activated to bring about an immune response and expressed to against any pathogenic encroachment. Gene expression divergences which were found between two homoeologous genes suggested the functional divergences of the homoeologous genes after the 4R WGD event, revealing the evolutionary fate of the tetraploid common carp after the recent WGD.

Aeromonas hydrophila suppresses complement pathways via degradation of complement C3 in bony fish by metalloprotease

Aeromonas hydrophila is a pathogen that causes high mortality in the grass carp. The complement system, as a frontline defence of innate immunity, plays an important role in the immune response against pathogens. However, the immunity evasion mechanism of A. hydrophila against the complement system of grass carp remains unclear. In this study, we described an additional mechanism used by A. hydrophila GD18 to evade the complement system and survive in grass carp serum. First, A. hydrophila evaded the bactericidal activity of grass carp serum. Second, the haemolytic activity assays showed that A. hydrophila obviously suppressed the alternative pathway, which depended on preventing the formation or disabling the function of the membrane-attack complex (MAC). Further research indicated that A. hydrophila targeted complement C3, the central component of the three complement pathways, and degraded it in the grass carp serum, leading to the inhibition of the complement pathways, which resulted in the serum-resistance of A. hydrophila. Furthermore, cleavage analyses showed that extracellular proteases (ECPases) of A. hydrophila efficiently cleaved purified C3 as well as C3 in grass carp serum. Finally, protease inhibitor studies and mass spectrum analysis identified the secreted metalloprotease elastase (AhE), which was present in large amounts in crude ECPases, as the central molecule responsible for C3 cleavage. Compared to wild strain GD18, the AhE knockout, Δahe was dramatically reduced in the ability of serum resistance. Our findings suggested that A. hydrophila escaped serum-killing by suppressing the complement pathways via the degradation of complement C3 in bony fish, which was related to secreted metalloproteases.