Expansion of genes encoding complement components in bony fish: biological implications of the complement diversity

Transcriptome analysis unveils adaptation strategies in silver pomfret (Pampus argenteus) gills under hypoxic conditions

The silver pomfret (Pampus argenteus) is an economically valuable and highly sought-after table fish in China. In recent years, commercial farming of silver pomfret has been successfully developed in the country. However, silver pomfret is highly sensitive to environmental stress, and hypoxia-induced stress can lead to significant economic losses in aquaculture. This study investigated the transcriptomic response of silver pomfret gills under normal oxygen conditions (G0) and after hypoxic exposure for 6 h (G6) and 24 h (G24). Hypoxia exposure induced gill remodeling, characterized by increased gill lamellar height and a reduction in interlamellar cell mass (ILCM). Oxidative stress and antioxidant responses were significantly upregulated after 24 h of hypoxia exposure. Additionally, many downregulated genes were significantly enriched in pathways related to cardiac muscle contraction and calcium signaling, leading to impaired gill musculature contraction and reduced oxygen uptake under hypoxic conditions. Key signal transduction pathways, including HIF- 1, Apelin, and MAPK signaling, were identified as critical pathways in response to hypoxia. Furthermore, hypoxia tended to suppress the immune system and disrupted endoplasmic reticulum homeostasis and protein processing in the gills of silver pomfret. In summary, this study demonstrates that hypoxia disrupts gill function in silver pomfret and provides insights into hypoxia adaptation mechanisms in teleosts.

Transcriptomics, antioxidant enzyme activities, and immune-associated parameter analysis reveal the molecular responses of rainbow trout (Oncorhynchus mykiss) to transportation stress

To explore how transportation stress affects the physiology of rainbow trout, we measure antioxidant and immunity-related indicators in spleen tissues of adult fish during transportation (at 0, 2, and 6 h) and 24 h following it (r24 h). We report a significant reduction in spleen catalase activity among the 2, 6, and r24 h groups compared with the 0 h group (P < 0.05). Levels of glutathione peroxidase activity and total antioxidant capacity, and lipid peroxide, complement C4, and immunoglobulin M contents first decreased, then increased; complement C3 content and lysozyme activity first increased, then decreased; and tumor necrosis factor-α levels were relatively stable (P > 0.05). Transcriptome sequencing of spleen samples at 0, 6, and r24 h using Illumina HiSeq6000 identified 4419, 2733, and 4375 differentially expressed genes (DEGs) in 0 vs 6, 6 vs r24, and 0 vs r24 h comparisons, respectively. Gene ontology annotation of these DEGs revealed them to function mainly in binding and catalytic activities, and to be significantly enriched in cellular processes and biological regulation terms. Kyoto Encyclopedia of Genes and Genomes enrichment analysis revealed DEGs in the 0 h vs 6 h comparison to be significantly enriched in cytokine-cytokine receptor interaction, C-type lectin receptor signaling pathway, in regulating actin cytoskeleton, lysosome (0 vs r24 h); and in the Toll-like and MAPK signaling pathways (6 vs r24 h). Several immune-related genes were identified from both the 0 h vs 6 h and 6 h vs r24 h comparisons. These findings lay a solid foundation for further research on understanding how fish respond to transportation stress at the molecular level.

Identification of key overlapping DEGs and molecular pathways under multiple stressors in the liver of Nile tilapia (Oreochromis niloticus)

The identification of key genes and molecular pathways that are involved in the response to stressors is crucial for controlling stress in fish and sustainable aquaculture. Environmental stressors can induce stress responses in aquatic animals, resulting in compromised immune function, inhibited growth, and increased mortality rates. mRNA-seq analysis provides a powerful tool to identify key genes and pathways associated with stress response. In the present study, mRNA-seq analysis was employed to identify key overlapping differentially expressed genes (DEGs) and molecular pathways under salinity, nitrite, copper, and pH stress in the liver of Nile tilapia (Oreochromis niloticus). The pathways associated with the immune response, oxygen transport, homeostasis, and oxidative stress were enriched across all stressors. The top KEGG pathways were complement and coagulation cascades, PPAR signaling pathway, and cardiac muscle contraction. The top GO enrichment terms were oxidoreductase activity, aerobic respiration, endopeptidase inhibitor activity, endopeptidase regulator activity, heme binding, and iron ion binding. The complement genes (C3, C4, C5, factor B, and factor H), alpha-2-macroglobulin (A2M), hemoglobin subunit epsilon (HBE), hemoglobin subunit alpha (HBA), coagulation factor genes (XI and X) and the cytochrome c oxidase (COX) gene family (cox1, cox2, cox3, cytochrome P450) were identified as key shared genes across multiple stressors. The discovery of these genes and molecular pathways provided a better understanding of the molecular mechanism underlying the stress response in Nile tilapia. The results of the present study can facilitate the development of stress management strategies in Nile tilapia.

Summary and comparison of the perforin in teleosts and mammals: A review

Perforin, a pore-forming glycoprotein, has been demonstrated to play key roles in clearing virus-infected cells and tumour cells due to its ability of forming 'pores' on the cell membranes. Additionally, perforin is also found to be associated with human diseases such as tumours, virus infections, immune rejection and some autoimmune diseases. Until now, plenty of perforin genes have been identified in vertebrates, especially the mammals and teleost fish. Conversely, vertebrate homologue of perforin gene was not identified in the invertebrates. Although recently there have been several reviews focusing on perforin and granzymes in mammals, no one highlighted the current advances of perforin in the other vertebrates. Here, in addition to mammalian perforin, the structure, evolution, tissue distribution and function of perforin in bony fish are summarized, respectively, which will allow us to gain more insights into the perforin in lower animals and the evolution of this important pore-forming protein across vertebrates.

Identification, characterization, and immunological analysis of complement component 4 from grass carp (Ctenopharyngodon idella)

Complement component 4 (C4) has critical immunological functions in vertebrates. In the current study, a C4 homolog (gcC4) was identified in grass carp (Ctenopharyngodon idella). The full-length 5458 bp gcC4 cDNA contained a 5148 bp open reading frame (ORF) encoding a protein of 1715 amino acids with a signal peptide and eight conservative domains. The gcC4 protein has a high level of identity with other fish C4 counterparts and is phylogenetically clustered with cyprinid fish C4. The gcC4 transcript shows wide tissue distribution and is inducible by Aeromonas hydrophila in vivo and in vitro. Furthermore, its expression also fluctuates upon lipopolysaccharide or flagellin stimulation in vitro. During infection, the gcC4 protein level decreases or increases to varying degrees, and the intrahepatic C4 expression location changes. With gcC4 overexpression, interleukin 1 beta, tumor necrosis factor alpha, and interferon transcripts are all upregulated by A. hydrophila infection. Meanwhile, overexpression of gcC4 reduces bacterial invasion or proliferation. Moreover, gcC4 may activate the NF-κB signaling pathway. These findings demonstrate the vital role of gcC4 in the innate immunity of grass carp.

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.

Complement factor C5 in Atlantic salmon (Salmo salar): Characterization of cDNA, protein and glycosylation

Complement component 5 (C5) is an essential factor of the defensive complement system in all vertebrates. We report the characterization of C5 cDNA and protein from Atlantic salmon (Salmo salar), a teleost fish species of high importance in aquaculture. The C5 cDNA cloned from liver is 5079 nucleotides long, whose translation product has a molecular weight of 190 kDa, with the classical β-α orientation and motifs/sites for β-α cleavage (⁶⁷⁸RPKR⁶⁸¹) and cleavage by C5 convertases (R⁷⁵⁸). Mass spectrometric analysis show a single N-linked, biantennary, complex glycan at N¹¹²⁵. Moreover, the N-linked glycan displays an unusual modification in the form of acetylated sialic acid residues. Three anti-C5 antisera produced in mice using purified C5 worked in immunohistochemical analyses of formalin fixed liver tissue. The purification method, whereby inactive and activated (C5b) forms were isolated, opens for interesting studies on the complement function in fish, including possible connection to stress, disease and glycosylation.

Analyzing complement activity in the serum and body homogenates of different fish species, using rabbit and sheep red blood cells

Alternative complement activity was determined in whole body homogenates (WBHs) and serum samples of different fish species, by measuring the amount of sample that induces 50% hemolysis of red blood cells using the ACH50 assay (Alternative Complement pathway Hemolytic activity). Values of ACH50 obtained for serum samples were about two-fold higher when using rabbit red blood cells (RRBC), as compared to sheep red blood cells (SRBC). The increase in ACH50 when using RRBCs for WBH samples was 28, 7 and 4 folds for guppy, molly and zebrafish, respectively. Large variability in complement activity was evident between fish species for both serum and WBHs. Evaluating the effect of freeze-thaw cycles on complement revealed significant reduction in complement activity in all tested samples. Loss of activity following three freeze-thaw cycles amounted to 48-59% when serum was tested and over 95% loss in activity for WBH. To our knowledge, this is the first study where fish WBHs were used for assaying complement activity. Our results support the suitability of this method in evaluating complement activity in small fish species or larvae, where blood cannot be obtained, as long as samples can be tested upon first thawing.

Molecular characterization and expression analysis of complement component 3 in dojo loach (Misgurnus anguillicaudatus)

The complement component 3 (C3) is a central component of complement system. All three pathways converge at formation of C3 convertases and share the terminal pathways of membrane attack complex (MAC) formation. In this study, three isoforms of C3 were discovered in Misgurnus anguillicaudatus, named "C3-1", "C3-2" and "C3-3", respectively. The full-length of C3-1 cDNA sequence was firstly identified and analyzed from dojo loach (Misgurnus anguillicaudatus). The Ma-C3-1 cDNA sequence comprised of 4509 bp encoding 1454 amino acids with a putative signal peptide of 20 amino acid residues. The deduced amino acid sequence showed that Ma-C3-1 has conserved residues and domain, which are known to be crucial for C3 function. Interestingly, an amino acid substitution of the highly conserved GCGEQ was discovered in Ma-C3-1. Phylogenetic analysis showed that Ma-C3-1 was closely related to Cyprinidae. The mRNA expression levels of three isoforms of C3 were detected in kidney, eye, spleen, gonad, heart, fin ray, gut, muscle, brain, gill, skin, blood and liver. The expression of Ma-C3-1 and Ma-C3-3 were mainly detected in liver, followed by spleen, gonad. However, the high expression of Ma-C3-2 was found in kidney, followed by blood and gonad. The morphological changes of gill and skin, and the expression pattern of these three isoforms C3 molecular following the infection with Aeromonas hydrophila were investigated. The mRNA expression levels of three C3 isoforms were up-regulated in the gill, skin, liver and spleen after infection with A.hydrophila. Similarly, challenge experiments resulted in significant up-regulated expression of other complement-relevant genes in gill, liver and skin, such as C4, C5, C8b, especially at 24 h and 36 h. These results suggest that complement system might play an important role not only in liver, but also in the mucosal tissues as gill and skin of teleost fish.

Characterisation and expression analysis of two terminal complement components: C7 and C9 from large yellow croaker, Larimichthys crocea

The large yellow croaker Larimichthys crocea, as one of the most economically important marine fish in China and East Asian countries, are facing the fatal attraction of various pathogens in recent years. Elucidation of the organism immunomodulatory mechanism of croaker response to pathogen infection is essential for the disease control. In present study, we reported for the first time the molecular characterization and expression analysis of two terminal complement components (TCCs) of croaker, Lc-C7 and Lc-C9. These two structural conserved TCCs were detected in many tissues in adult healthy fish, with highest levels detected in liver. The transcriptional expression analysis of Lc-C7 and Lc-C9 at different developmental stages showed a continuous increase towards hatch, however the two TCCs mRNA were not detected at the unfertilized stage, hinting the origination of these two TCCs after fertilization. Rapid and drastic responses to Vibrio alginolyticus challenge were observed for Lc-C7 and Lc-C9, suggesting the involvement of component C7 and C9 in innate immune responses to pathogenic invasion in teleost fish. These findings could deepen our understanding about immunomodulatory mechanisms of croaker and shed a new light to the role of component system in teleostean immunomodulation.

Complement C5a acts as molecular adjuvant in fish by enhancing antibody response to soluble antigen

C5a, the most potent anaphylatoxin generated during complement activation, has important pro-inflammatory actions and has also been shown to enhance antigen-specific antibody response in mammals, thereby acting as a molecular adjuvant. In rainbow trout, C5a has been shown to have a chemoattractant ability and its receptor has also been found on potential APCs. In this study, we tested the possible role of trout C5a as a molecular adjuvant. We demonstrated the presence of native C5a in trout serum using the antibody generated by recombinant trout C5a, and then we generated recombinant infectious hematopoietic necrosis virus glycoprotein (G), and a G-C5a fusion protein to test the adjuvant activity of trout C5a. Recombinant G-C5a displayed a potent chemoattractant activity in contrast to G alone, indicating that the C5a portion of the fusion protein was functional. Thereafter, G-C5a, partially emulsified in a small quantity of IFA, was injected into one group of trout, while the other group of trout was inoculated with the same dose of recombinant G. At four to sixteen weeks post-injection, the serum IgM antibody levels of the fish injected with recombinant G-C5a were obviously higher than those injected with G protein alone. Thus, these results suggest, for the first time, that C5a acts as molecular adjuvant in teleost fish by enhancing antibody response to a soluble antigen.

Molecular cloning, sequencing and tissue-level expression of complement C3 of Labeo rohita (Hamilton, 1822)

Complement component C3 plays a central role in all known complement activation pathways. In the present study, we cloned, sequenced and analyzed the full-length cDNA sequence of Labeo rohita complement C3 (LRC3). The expression pattern of complement C3 mRNA in different tissues of healthy rohu and after challenge with Aeromonas hydrophila were evaluated using real-time PCR. The LRC3 cDNA sequence of rohu comprised of 5081 bp encoding a predicted protein of 1645 amino acids. The deduced amino acid sequence had the characteristic domain architecture. About eight domains specific to complement C3 are present in the sequence starting from signal peptide to netrin C345C (NTR) domain. The post-translational processing signal sequence (RKRR), the C3-convertase cleavage site sequence (LAR) and the canonical thiol-ester motif (GCGEQ) were found to be conserved in the LRC3. Real-time PCR analysis revealed the highest expression of C3 in liver and extra-hepatic expression of C3 was also observed in all the tissues studied. A. hydrophila challenge resulted in significant up-regulated expression of C3 transcripts in both liver and kidney at 6, 12, 24, 48 and 72 h post-infection.

Complement system in zebrafish

Zebrafish is recently emerging as a model species for the study of immunology and human diseases. Complement system is the humoral backbone of the innate immune defense, and our knowledge as such in zebrafish has dramatically increased in the recent years. This review summarizes the current research progress of zebrafish complement system. The global searching for complement components in genome database, together with published data, has unveiled the existence of all the orthologues of mammalian complement components identified thus far, including the complement regulatory proteins and complement receptors, in zebrafish. Interestingly, zebrafish complement components also display some distinctive features, such as prominent levels of extrahepatic expression and isotypic diversity of the complement components. Future studies should focus on the following issues that would be of special importance for understanding the physiological role of complement components in zebrafish: conclusive identification of complement genes, especially those with isotypic diversity; analysis and elucidation of function and mechanism of complement components; modulation of innate and adaptive immune response by complement system; and unconventional roles of complement-triggered pathways.

The binding spectra of carp C3 isotypes against natural targets independent of the binding specificity of their thioester

The central component of complement, C3, plays a versatile role in innate immune defense of vertebrates and some invertebrates. A notable molecular characteristic of this component is an intra-chain thioester site that enables C3 to bind covalently to its target. It has been reported that the binding preference of the thioester to hydroxyl or amino groups is primarily defined by presence or absence of the catalytic histidine residue at position 1126 in human C3. In teleosts, a unique C3 (non-His type) has been found, in addition to the common His type C3. These distinct C3 isoforms may provide diversity in the target-binding attributable to the different binding specificities of their thioesters. In the present study, we examine the hypothesized correlation of the catalytic histidine with the binding spectra of two major C3 isotypes of carp towards various model and natural targets. The results reveal that non-His type C3, rather than His type C3, has a wider range of binding spectrum, despite the binding specificity of its thioester being limited to amino groups. It is therefore hypothesized that the binding spectra of C3 isotypes are not defined by the binding specificity of the thioester but is more affected by differences in microbe-associated molecular patterns that activate complement. Overall, the present data imply that non-His type C3 plays a significant role against bacterial infections in the fish defense system.

Molecular characterization and expression analysis of two new C-reactive protein genes from common carp (Cyprinus carpio)

C-Reactive protein (CRP) plays an important role in the acute phase response. Transcripts encoding two new CRP-like molecules (ccCRP1 and ccCRP2) from European common carp have been characterized which has enabled seven CRP-like genes to be identified in zebrafish. 79.3% (ccCRP1) and 74.5% (ccCRP2) identity to CRP from East-Asian common carp occurs and fish CRP genes form a distinct clade. ccCRP2 gene organization comprises four exons and three introns, in contrast to the two exons/one intron organization of mammalian CRP genes. Gene expression assays showed both ccCRP-like molecules are constitutively expressed in liver, skin, gill, gut, muscle, kidney, spleen and blood. Protein levels of ccCRP in serum and spleen were significantly different from other organs analyzed, and levels were greatest in the liver. It is proposed that the two carp CRP genes defined differ in their expression profiles which may suggest differences in their biological activities.

Alternative complement pathway of channel catfish (Ictalurus punctatus): molecular characterization, mapping and expression analysis of factors Bf/C2 and Df

The complement system is important in both innate and adaptive host defense against microbial infection in vertebrates. It contains three pathways: the classical, alternative, and lectin pathways. Complement component factors B and D are two crucial proteases in the alternative pathway. In this study, the genes of complement factors Bf/C2 and Df from channel catfish, Ictalurus punctatus were identified and characterized. Two complement factor B-related genes, Bf/C2A and Bf/C2B, and factor D gene Df were identified. Phylogenetic analysis suggested that Bf/C2A and Bf/C2B is likely orthologous to factor B and factor C2, respectively. Southern blot results suggested that these three genes are all single-copy genes in the catfish genome. The catfish Bf/C2A, Bf/C2B and Df genes were genetically mapped on linkage group 3, 20 and 29, respectively. Bf/C2A and Bf/C2B are highly expressed in liver and kidney, while Df is highly expressed in gill and spleen. After infection with Edwardsiella ictaluri, the expression of Bf/C2A, Bf/C2B and Df genes were found to be remarkably induced in the gill, liver, spleen and kidney at some sampling times, indicating that these three complement factors play a pivotal role in immune responses after the bacterial infection in catfish.

The complement system in teleost fish: progress of post-homolog-hunting researches

Studies on the complement system of bony fish are now finishing a stage of homologue-hunting identification of the components, unveiling existence of almost all the orthologues of mammalian complement components in teleost. Genomic and transcriptomic data for several teleost species have contributed much for the homologue-hunting research progress. Only an exception is identification of orthologues of mammalian complement regulatory proteins and complement receptors. It is of particular interest that teleost complement components often exist as multiple isoforms with possible functional divergence. This review summarizes research progress of teleost complement system following the molecular identification and sequence analysis of the components. The findings of extensive expression analyses of the complement components with special emphasis of their prominent extrahepatic expression, acute-phase response to immunostimulation and various microbial infections, and ontogenic development including maternal transfer are discussed to infer teleost-specific functions of the complement system. Importance of the protein level characterization of the complement components is also emphasized, especially for understanding of the isotypic diversity of the components, a unique feature of teleost complement system.

Molecular cloning and characterization of European seabass (Dicentrarchus labrax) and Gilthead seabream (Sparus aurata) complement component C3

We present the complete C3 cDNA sequence of Gilthead seabream (Sparus aurata) and European seabass (Dicentrarchus labrax) and its molecular characterization with a descriptive analysis of their structural elements. We obtained one sequence for Gilthead seabream (gsbC3) which encodes a predicted protein of 1656 amino acids, and two sequences for European seabass (esbC3_1 and esbC3_2) which encode two predicted proteins of 1654 and 1587 amino acids respectively. All sequences present the characteristic structural features of C3 but interestingly esbC3_2 lacks the anaphylotoxin domain and the cysteine residue responsible for thiolester bond formation. Moreover, we have detected and quantified (by real-time PCR-based absolute quantification) specific isoform expression in European seabass depending on pathogen and density conditions in vivo. In addition, we have analyzed the tissue distribution pattern of European seabass and Gilthead seabream C3 genes under crowding stress and under pathological challenges in vivo, and we have observed that crowding and infection status provoke changes in expression levels, tissue expression pattern and C3 isoform expression balance.

Perforin-dependent cytotoxic mechanism in killing by CD8 positive T cells in ginbuna crucian carp, Carassius auratus langsdorfii

T cell-mediated cytotoxicity occurs via pathways based on perforin or Fas mechanisms. Perforin is a protein present in the cytoplasmic granules of CD8(+) cytotoxic T lymphocytes and is secreted to form pores on target cell membranes. In fish, although the involvement of perforin in cytotoxicity have been suggested for several species, perforin-mediated cytotoxicity of CD8α(+) lymphocyte in conjunction with expression of the perforin gene has not been reported. In order to investigate the killing mechanism of CD8α(+) lymphocytes by perforin-mediated pathway in fish, we measured apoptosis of target cells triggered by CD8α(+) lymphocytes, performed cytotoxic assays in the presence or absence of perforin inhibitor; concanamycin A and EGTA, and analysed the expression of perforin1, perforin2 and perforin3 isotypic genes in ginbuna crucian carp. In the present study, we found that CTLs attached with target cells. CTL should have direct contact with target cells to kill them. Approximately 50% of target cells were positive for annexin V after co-cultured with CD8α(+) lymphocytes, indicating the induction of apoptotic cell death. Concanamycin A, which induces depolymerization of perforin resulting in lytic function, suppressed the cytotoxicity of CD8α(+) cells in a dose-dependent manner. In addition, cytotoxicity mediated by CD8α(+) lymphocytes were significantly suppressed by the addition of the Ca(2+)-chelating agents EGTA or EGTA-Mg(2+), and the addition of Ca(2+) restored the killing mechanism of target cells. We further found enhanced expression of perforin1 but not perforin2 or perforin3 in CTLs from allo-sensitized fish. The present study has demonstrated that ginbuna CTLs kill target cells through perforin-mediated pathway, suggesting that perforin-mediated pathway is conserved throughout vertebrate.

Molecular characterization of complement factor I reveals constitutive expression in channel catfish

The complement system in vertebrates plays a crucial role in immune defense via recognition and removal of pathogens. Complement is tightly regulated by a group of both soluble and cell-associated proteins. Complement factor I is a soluble serine protease that regulates multiple pathways in complement activation. In this work, a complement factor I transcript was isolated and sequenced from channel catfish (Ictalurus punctatus) liver after screening expressed sequence tags. The full-length cDNA is comprised of 2284bp in length, encoding a polypeptide of 668 amino acids. The complement factor I protein was found to be well conserved, with similar domain structures and architecture from fish to mammals. The catfish complement factor I exists as a single-copied gene in the catfish genome. Expression analysis revealed that the catfish complement factor I is constitutively expressed in all tissues and leukocyte cell lines tested, indicating its importance as a regulatory enzyme throughout channel catfish. While expression of complement factor I is often found to be in the liver in mammals, it is constitutively expressed in channel catfish and carp throughout in various tissues and organs.

Differential transcription of multiple forms of alpha-2-macroglobulin in carp (Cyprinus carpio) infected with parasites

Alpha-2-macroglobulin (a2M) is a non-specific protease inhibitor involved in host defense mechanisms, inhibiting both endogenous and exogenous proteases. It is unique among the plasma anti-proteases with respect to the diversity of proteases that it can inactivate. Carp a2M consists of an alpha and beta chain of which the first includes the bioactive regions. Previously, three a2M alpha chain sequences were reported for East-Asian common carp. We studied a2M alpha chain variability in European common carp and report the cloning of a fourth a2M alpha chain with distinct sequence diversity in the bait region. The role of a2M in the immune response to parasites was studied in the liver of carp infected with Trypanoplasma borreli or with Ichthyophthirius multifiliis. Quantitative gene transcription analysis showed a differential regulation of the four isoforms, most clearly seen in infections with I. multifiliis. A2M3 was the only a2M isoform with a highly upregulated transcription during infection, suggesting that this particular isoform is of foremost biological importance.

The innate immune response of finfish--a review of current knowledge

The decline in the fisheries of traditional marine species has been an incentive for the diversification of today's aquaculture sector into the intensive rearing of many finfish species. The increasing interest in commercial farming of different finfish species is expected to result in similar environmental and husbandry-related problems as have been experienced in the development of the salmonid farming industry. An understanding of the biology of the fish species being cultured, in particular the immune response is important for improved husbandry and health management of the species. The innate immune system of fish has generated increasing interest in recent years and is now thought to be of key importance in primary defence and in driving adaptive immunity. This review focuses on key components (cellular and humoral) of the innate immune responses of different fish species of commercial importance.

The ontogeny and extrahepatic expression of complement factor C3 in Atlantic salmon (Salmo salar)

Fish embryos and hatchlings are exposed to pathogens long before maturation of their lymphoid organs. Little is known about defence mechanisms during the earliest stages of life, but innate mechanisms may be essential for survival. The complement system in fish is well developed and represents a major part of innate immunity. Complement factor 3 (C3) is central subsequent to activation of all pathways of the complement system, leading to inflammatory reactions, such as chemotaxis, opsonisation and lysis of pathogens. Hepatocytes represent the major source of C3, but modern molecular biological methods have confirmed that C3 is synthesised at multiple sites. Our main objective was to study the ontogeny of C3 in Atlantic salmon by mapping the commencement of synthesis and localisation of proteins. Eggs, embryos, hatchlings and adult fish were analysed for the presence of C3 mRNA and proteins. From immunohistochemical studies, C3 proteins were detected at several extrahepatic sites, such as the skeletal muscle, developing notochord and chondrocytes of the gill arch. Immunoblotting revealed presence of C3 proteins in the unfertilised egg, but C3 mRNA was only detected after fertilisation by real-time RT-PCR. Taken together, the results implicated the maternal transfer of C3 proteins as well as novel non-immunological functions during development.

The phylogeny of the complement system and the origins of the classical pathway

The origins of the complement system have now been traced to near to the beginnings of multi-cellular animal life. Most of the evidence points to the earliest activation mechanism having been more similar to the lectin pathway than to the alternative pathway. C1q, the immunoglobulin recognition molecule of the classical pathway of the vertebrates, has now been shown to predate the development of antibody as it has been found in the lamprey, a jawless fish that lacks an acquired immune system. In this species, C1q acts as a lectin that binds MASPs and activates the C3/C4-like thioester protein of the lamprey complement system. The classical pathway can, therefore, be regarded as a specialised arm of the lectin pathway in which the specificity of C1q for carbohydrate has been recruited to recognise the Fc region of immunoglobulin.

The C3 subtypes are differentially regulated after immunostimulation in rainbow trout, but head kidney macrophages do not contribute to C3 transcription

The complement system plays key roles in innate and adaptive immunity through mediating phagocytosis, chemotaxis and cell lysis. Complement component C3 is a central component in the complement cascade and belongs to the acute-phase proteins whose synthesis increase immediately upon inflammatory stimuli. The liver is the main producer of C3 and it is a well-known fact that the mammalian monocyte-macrophage lineage is a major contributor to extrahepatic C3. Immunomodulators, such as LPS and beta-glucan, can stimulate complement, lysozyme, natural killer cells and antibody responses in fish, thus enhancing the resistance to bacterial pathogens and parasitic infections. The aim of this study was to assess the effects of LPS and beta-glucan on the expression of interleukins (IL-1beta1, IL-1beta2 and IL-6) and the modulated expression of C3 subtypes (C3-1, C3-3 and C3-4) in the rainbow trout (Oncorhynchus mykiss) using real-time RT-PCR. From in vitro studies, we demonstrated that head kidney macrophages from rainbow trout and Atlantic salmon showed no basal transcription of C3. After immunostimulation, the cells responded by increased levels of ILs, but transcription of C3 was not induced. In contrast to the in vitro findings, the rainbow trout complement C3 subtypes were differentially regulated 48 h after in vivo stimulation with LPS and beta-glucan. These results support the previous findings of absence of C3 in macrophages of the spotted wolffish (Anarhichas minor) and is the first functional study showing differential regulation of the C3 subtypes in any vertebrate.

Complement expression in common carp (Cyprinus carpio L.) during infection with Ichthyophthirius multifiliis

A real-time PCR assay for determination of the complement response to infection with the ectoparasite Ichthyophthirius multifiliis in carp is presented. Specific primers were designed for selected genes representing the three pathways of the carp complement system. The investigated complement molecules were C1r/s, C3, C4, C5, factor I, factor B/C2-A (Bf/C2-A), mannose-binding lectin (MBL) and MBL-associated serine protease (MASP). The expression of the selected genes was analyzed on RNA extracts from skin, liver, and whole blood from carp at 3, 12, 24, 36, and 48 h post-infection (pi) with I. multifiliis. A pronounced up-regulation of Bf/C2-A, in skin, blood, and liver (250-, 60-, and 4-fold respectively), was observed at later sampling points pi (24-48 h). In addition, an intermediate (from 5 to 13-fold) down-regulation of MASP was observed in skin and liver samples at 36 and 48 h pi with respect to control fish. MBL was expressed only in liver and no variation in the transcription level of this lectin was observed. Complement factor C3 was significantly up-regulated in liver (4-fold up-regulation, 24 h pi). The presented results indicate that infection with the parasite I. multifiliis in carp to a large extent stimulates the expression of complement molecules. Moreover, the dramatic and early up-regulation of Bf/C2-A in skin indicates a role of this molecule as an acute-phase reactant. Furthermore, our study confirms the role of fish skin as an important extra-hepatic site of expression of complement molecules as well as an active regulator of complement expression. Expression of some of the components of the complement system in blood suggests that leukocytes in carp act as an important extra-hepatic source of complement molecules.

Lectin Pathway of Bony Fish Complement: Identification of Two Homologs of the Mannose-Binding Lectin Associated with MASP2 in the Common Carp (Cyprinus carpio)

The lectin pathway of complement is considered to be the most ancient complement pathway as inferred from identification of ancient homologs of mannose-binding lectin (MBL) and MBL-associated serine proteases (MASPs) in some invertebrates. MBL homologs with galactose selectivity and an MASP3-like sequence also occur in bony fish, linking the evolution of the lectin complement pathway from invertebrates to higher vertebrates. However, these cannot be considered authentic complement components until confirmatory functional evidence is obtained. Here, we report the isolation and characterization of two MBL homologs from a cyprinid teleost, the common carp, Cyprinus carpio. One, designated GalBL, corresponds to the MBL-like molecule with the galactose specificity. The other is an authentic MBL with mannose specificity. Both were found to associate with a serine protease that cleaves native human C4 into C4b but not C4i with a hydrolyzed thioester. Molecular cloning and phylogenetic analysis revealed this C4-activating protease to be carp MASP2, indicating that MASP2 arose before the emergence of bony fish. Database mining of MBL-like genes reveals that MBL and GalBL genes are arranged in tandem in the zebrafish genome and that both lectins are conserved in the distantly related puffer fish. These results imply that bony fish have developed a diverged set of MBL homologs that function in the lectin complement pathway.

Genomic view of the evolution of the complement system

The recent accumulation of genomic information of many representative animals has made it possible to trace the evolution of the complement system based on the presence or absence of each complement gene in the analyzed genomes. Genome information from a few mammals, chicken, clawed frog, a few bony fish, sea squirt, fruit fly, nematoda and sea anemone indicate that bony fish and higher vertebrates share practically the same set of complement genes. This suggests that most of the gene duplications that played an essential role in establishing the mammalian complement system had occurred by the time of the teleost/mammalian divergence around 500 million years ago (MYA). Members of most complement gene families are also present in ascidians, although they do not show a one-to-one correspondence to their counterparts in higher vertebrates, indicating that the gene duplications of each gene family occurred independently in vertebrates and ascidians. The C3 and factor B genes, but probably not the other complement genes, are present in the genome of the cnidaria and some protostomes, indicating that the origin of the central part of the complement system was established more than 1,000 MYA.

Cloning and characterization of mannose-binding lectin from lamprey (Agnathans)

The recognition of pathogens is mediated by a set of pattern recognition molecules that recognize conserved pathogen-associated molecular patterns shared by broad classes of microorganisms. Mannose-binding lectin (MBL) is one of the pattern recognition molecules and activates complement in association with MBL-associated serine protease (MASP) via the lectin pathway. Recently, an MBL-like lectin was isolated from the plasma of a urochordate, the solitary ascidian. This ascidian lectin has a carbohydrate recognition domain, but the collagen-like domain was replaced by another sequence. To elucidate the origin of MBLs, the aim of this study is to determine the structure and function of the MBL homolog in lamprey, the most primitive vertebrate. Using an N-acetylglucosamine (GlcNAc)-agarose column, MBL-like lectin (p25) was isolated from lamprey serum and cDNA cloning was conducted. From the deduced amino acid sequence this lectin has a collagenous region and a typical carbohydrate recognition domain. This lectin also binds mannose, glucose, and GlcNAc, but not galactose, indicating that it is structurally and functionally similar to the mammalian MBLs. Furthermore, it associated with lamprey MASPs, and the MBL-MASP activated lamprey C3 in fluid-phase and on the surface of pathogens. In conjunction with the phylogenetic analysis, it seems likely that the lamprey MBL is an ortholog of the mammalian MBL. Because acquired immunity seems to have been established only from jawed vertebrates onward, the lectin complement pathway in lamprey, as one of the major contributors to innate immunity, plays a pivotal role in defending the body against microorganisms.

cDNA cloning and phylogenetic analysis of the sixth complement component in rainbow trout

The sixth complement protein (C6) is an essential component of the membrane attack complex (MAC); the end product of the lytic pathway of complement activation. The MAC complex constitutes a supramolecular assembly containing the five precursor proteins C5b, C6, C7, C8, and C9. Once assembled on the target surface it forms transmembrane channels that cause membrane damage and cytolysis of complement-opsonized pathogens. Besides mediating direct pathogen elimination, exposure of cells to sublytic doses of MAC can trigger diverse cellular responses such as, cell activation, induction of apoptosis, cell cycle re-entry and proliferation in various biological settings. The terminal complement components (C6-C9) are structurally related proteins, differing in size and complexity. In order to study their evolution, we report here the cloning and molecular characterization of C6 component in rainbow trout. The deduced amino acid sequence of trout C6 exhibits 55 and 44% identity with zebra fish and human orthologs, respectively. The 'domain' architecture of trout C6 resembles that of mammalian counterparts, and the cysteine backbone is also conserved. Finally, trout C6 gene appears to exist as a single copy in the trout genome, and is expressed in a wide range of trout tissues.

Recent advances on the complement system of teleost fish

The complement system plays an essential role in alerting the host of the presence of potential pathogens, as well as in their clearing. In addition, activation of the complement system contributes significantly in the orchestration and development of an acquired immune response. Although the complement system has been studied extensively in mammals, considerably less is known about complement in lower vertebrates, in particular teleost fish. Here we review our current understanding of the role of fish complement in phagocytosis, respiratory burst, chemotaxis and cell lysis. We also thoroughly review the specific complement components characterized thus far in various teleost fish species. In addition, we provide a comprehensive compilation on complement host-pathogen interactions, in which we analyze the role of fish complement in host defense against bacteria, viruses, fungi and parasites. From a more physiological perspective, we evaluate the knowledge accumulated on the influence of stress, nutrition and environmental factors on levels of complement activity and components, and how the use of this knowledge can benefit the aquaculture industry. Finally, we propose future directions that are likely to advance our understanding of the molecular evolution, structure and function of complement proteins in teleosts. Such studies will be pivotal in providing new insights into complement-related mechanisms of recognition and defense that are essential to maintaining fish homeostasis.

Function and heterogeneity of fish lectins

Lectins are primordial molecules with multiple known functions. They have been known to exist in fish and other animals for decades and were initially identified as (hem)agglutinins. Demonstration of the importance of vertebrate lectins in innate immunity is a recent effort and is still largely unrealised for fish. This mini-review will tabulate those fish lectins identified since the last major review. In addition, particular lectins for which either functional relevance or functional or structural heterogeneity has been demonstrated are discussed in greater detail.

Evolution of anaphylatoxins, their diversity and novel roles in innate immunity: Insights from the study of fish complement

Anaphylatoxins are small molecules ( approximately 9 kDa) that are generated as a result of the activation of the complement system. These molecules play an important role in inflammation, and they are responsible for the activation of various innate and adaptive immune processes. The study of these important inflammatory molecules has been restricted to mammalian species so far. Recent studies have shown that teleost fish, unlike any other known animal species, contain multiple forms of the C3a anaphylatoxin, all of which are functionally active and play a prominent role in inducing superoxide production in fish leukocytes. The C5a anaphylatoxin has also been characterized in these animals, and like in mammals, it plays an important role in leukocyte chemotaxis and in triggering the respiratory burst of leukocytes. Interestingly, it has been shown that rainbow trout anaphylatoxins play an unexpected role in enhancing phagocytosis of particles. C5a and C3a receptors have recently been cloned and characterized in rainbow trout, suggesting that the duplication of these receptors from a common ancestor occurred before the emergence of teleosts. The studies derived from these molecules in teleost fish indicate that the basic structure and function of anaphylatoxins and their receptors, have been conserved for more than 300 million years.

Two Divergent Isotypes of the Fourth Complement Component from a Bony Fish, the Common Carp (Cyprinus carpio)

Duplication and diversification of several complement components is a striking feature of bony fish complement systems. It gives an interesting insight into an evolutionary strategy for the possible enhancement of the repertoire of innate immunity. The present study is aimed at examining diversity in bony fish C4, a member of the thioester-containing complement components. Two diverged cDNA sequences sharing only approximately 32% identity at the amino acid level were isolated from the common carp and designated C4-1 and C4-2. C4-1 and C4-2 share a number of C4-like structural signatures, such as the thioester site and a disulfide-linked three-chain structure. Interestingly, they differ at the residue corresponding to the thioester-catalytic histidine, as seen in the human C4A and C4B isotypes, suggesting their distinct substrate specificities in the binding reaction of the thioester. Phylogenetic analysis indicates that the divergence of C4-1 and C4-2 predated the separation of the cartilaginous and bony fish lineages. Genomic Southern hybridization suggests the presence of single copy genes each encoding C4-1 and C4-2 in the carp genome. An activation fragment, C4a, was shown to be released from each isotype in carp serum activated via the classical and/or lectin pathways. Synthetic peptides representing a putative C2 binding site on C4-1 and C4-2 inhibited the classical pathway-mediated hemolytic activity of carp serum in a dose-dependent manner. The results suggest that C4-1 and C4-2 represent two major lineages of C4 that are present in carp serum, have distinct binding specificities, and are functional in the classical/lectin pathways of complement activation.

Isolation and characterisation of spotted wolffish (Anarhichas minor Olafsen) macrophages

Non-specific mechanisms are important in the defence of all multicellular animals against pathogenic microorganisms. Macrophages and granulocytes play a central role in this respect. It is thus pertinent to develop methods for obtaining and cultivation of macrophages and assessing their functions in the spotted wolffish, a cold water species of current interest for the aquaculture industry. Kidney macrophages from the spotted wolffish (Anarhichas minor Olafsen) were isolated by density sedimentation using Percoll. The cells were highly phagocytic and possessed typical macrophage morphology evaluated by transmission and scanning electron microscopy. Using electron microscopic analysis, the size of the macrophages, collected from the Percoll density interface, was 5-9 microm. The viability in vitro was highest (87.1%) when the cells were kept at 13 degrees C with the addition of synthetic serum replacement (SSR-2) when measured 24 h after seeding. One day old cells were not significantly activated by addition of bacterial lipopolysaccharide (LPS) for 24 h when measured by reduction of nitroblue tetrazolium compared to control cells. The cells were negative in respect to synthesis and contents of complement component C3.

Interaction between the blood fluke,Sanguinicola inermisand humoral components of the immune response of carp,Cyprinus carpio

The effect ofSanguinicola inermison serum antibody and complement activity inCyprinus carpiowas assessed using an ELISA and haemolytic assays. Possible immune evasion strategies were assessed using immunodetection of host proteins on the surface of the parasite. Carp acclimatized to 20 or 25 °C were infected by exposure to 500 cercariae or injected intraperitoneally with 150 cercariae, and serum monitored over a 63-day period. In cercariae-injected carp, irrespective of time and temperature, a significant increase occurred in complement activity being greatest at 25 °C. In addition, fish exposed to the cercariae ofS. inermisand maintained at 20 °C the level of complement activity was significantly higher after 5 weeks compared to controls. At 20 °C intraperitoneal injections of parasites increased serum antibody levels which peaked after 7 days. In contrast, at 25 °C, antibody levels were maintained over 63 days. Exposure of fish to infection did not appear to stimulate antibody production. Immunofluorescence studies revealed ‘host-like’ molecules on the surface of the cercarial body exposed to carp serum and adult flukes obtained directly from the fish or cultured for 24 h in L15 medium. The possible role of ‘host-like’ molecules in immune evasion is discussed and the response at different temperatures is related to infection dynamics.

Identification and characterization of CPAMD8, a novel member of the complement 3/alpha2-macroglobulin family with a C-terminal Kazal domain

We have identified and characterized a novel member of the complement 3/alpha(2)-macroglobulin (C3/alpha(2)M) family named CPAMD8 (complement 3 and pregnancy zone protein-like, alpha2-macroglobulin domain-containing 8). The gene maps to chromosome 19p13.2-p13.3 and spans approximately 130 kb. The gene partially overlaps with the protease-activated receptor-4 (PAR4) gene in the reverse orientation. The cDNA consists of 40 exons ( approximately 6 kb) and encodes a protein of 1885 amino acids. Similar to other proteins in this family, CPAMD8 contains a signal sequence, an RXXR processing site, and a thioester motif. In addition, CPAMD8 has a Kazal-type serine proteinase inhibitor/follistatin-like domain at the C-terminus. The intact CPAMD8 protein generated by in vitro transcription and translation resolved as a single band of about 200 kDa on SDS-PAGE. RT-PCR and immunoblot assays showed that CPAMD8 is expressed in a number of human tissues, most abundantly in the kidney, brain, and testis and at lower levels in heart, liver, and small intestine. CPAMD8 is also expressed in several types of cells in culture, in which it is proteolytically processed into two chains of about 70 and 130 kDa. The Kazal domain of CPAMD8 binds to heparin, and subcellular fractionation shows that CPAMD8 is membrane associated via ionic interaction. In response to immune stimulants, CPAMD8 expression is markedly up-regulated in cells in culture. Thus, CPAMD8 may, like other members of the C3/alpha(2)M family, function in innate immunity but in a localized manner.

Invertebrate immune systems - not homogeneous, not simple, not well understood

The approximate 30 extant invertebrate phyla have diversified along separate evolutionary trajectories for hundreds of millions of years. Although recent work understandably has emphasized the commonalities of innate defenses, there is also ample evidence, as from completed genome studies, to suggest that even members of the same invertebrate order have taken significantly different approaches to internal defense. These data suggest that novel immune capabilities will be found among the different phyla. Many invertebrates have intimate associations with symbionts that may play more of a role in internal defense than generally appreciated. Some invertebrates that are either long lived or have colonial body plans may diversify components of their defense systems via somatic mutation. Somatic diversification following pathogen exposure, as seen in plants, has been investigated little in invertebrates. Recent molecular studies of sponges, cnidarians, shrimp, mollusks, sea urchins, tunicates, and lancelets have found surprisingly diversified immune molecules, and a model is presented that supports the adaptive value of diversified non-self recognition molecules in invertebrates. Interactions between invertebrates and viruses also remain poorly understood. As we are in the midst of alarming losses of coral reefs, increased pathogen challenge to invertebrate aquaculture, and rampant invertebrate-transmitted parasites of humans and domestic animals, we need a better understanding of invertebrate immunology.

Primitive complement system of invertebrates

Most components of the human complement system have unmistakable domain architectures, making evolutionary tracing feasible. In contrast to the major genes of the adaptive immune system, which are present only in jawed vertebrates, complement component genes with unique domain structures are present not only in jawed vertebrates but also in jawless fish and non-vertebrate deuterostomes. Recent progress in genome analysis in several eukaryotes, occupying the phylogenetically critical positions, showed that most individual domains found in the complement components are metazoa specific, being found both in deuterostomes and in protostomes but not in yeast or plant. However, unique domain architecture of complement components is not present in protostomes, suggesting that the complement system has been established in the deuterostome lineage not by invention of new domains but by innovation of unique combination of the pre-existing domains. The recently assembled Ciona intestinalis draft genome contained the most modular complement genes, except for factor I. However, some possible C. intestinalis complement components show critical structural divergence from the mammalian counterparts, casting doubt on their mutual interaction. Thus, another integrative step seems to have been required to establish the modern complement system of higher vertebrates.