miR-193b-5p promotes GCRV replication by inhibiting autophagy via targeting deptor in grass carp (Ctenopharyngodon idellus).

miRNAs are increasingly recognized for their crucial role in autophagy processes. Recent research has highlighted the significant function of autophagy in modulating immune responses. Within this context, specific miRNAs have been identified as indirect mediators of immune functions through their modulation of autophagy. In this study, we verified that miR-193b-5p simultaneously targeted the grass carp autophagy-related gene deptor, thereby reducing autophagy levels in CIK cells. Moreover, we found the expression levels of miR-193b-5p and deptor responding to pathogen infections in the GCRV-infected CIK cells. Notably, the overexpression of miR-193b-5p was found to induce the GCRV replication and reduce the irf3, irf7 and IFN1 expression. These findings also demonstrated that grass carp miR-193b-5p impacted the proliferation, migration, and antiapoptotic abilities of CIK cells. All the above results indicated that miR-193b-5p was linked to grass carp autophagy and played a vital role in antiviral immunity by targeting deptor. Our study may provide important insights into autophagy-related miRNAs and their roles in defense and immune mechanisms against pathogens in teleost.

Incorporating Lycium barbarum residue in diet boosts survival, growth, and liver health in juvenile grass carp (Ctenopharyngodon idellus).

This research elucidates the potential of Lycium barbarum residue (LBR), a by-product rich in bioactive substances, as a dietary supplement in aquaculture, especially for herbivorous fish like grass carp. In a detailed 120-day feeding trial, the impacts of varying LBR levels on juvenile grass carp were assessed, focusing on growth performance, survival rate, biochemical markers, and liver health. The study identified a 6% inclusion rate of LBR as optimal for enhancing survival and growth while mitigating hepatic lipid accumulation. Composition analysis of this diet revealed high concentrations of polysaccharides and flavonoids. Notably, the intake of LBR was found to enhance the antioxidant and immune-related enzymatic activities in the liver. Furthermore, it contributed to a reduction in hepatic fat deposition by decreasing the levels of triglycerides (TG) and total cholesterol (T-CHO) both in the liver and serum. Transcriptomic analysis of the liver highlighted LBR's substantial influence on lipid metabolism pathways, including the PPAR signaling pathway, primary bile acid biosynthesis, cholesterol metabolism, bile secretion, fat digestion and absorption, fatty acid degradation and fatty acid biosynthesis. Further, the expression level of genes pinpointed significant downregulation of fasn and dgat2, alongside upregulation of genes like pparda, cpt1b, cpt1ab and abca1b, in response to LBR supplementation. Overall, the findings present LBR as a promising enhancer of growth and survival in grass carp, with significant benefits in promoting fat metabolism and liver health, offering valuable insights for aquacultural nutrition strategies.

MicroRNA-30e-3p regulates the inflammatory response by targeting the gimap8 gene in Ctenopharyngodon idella kidney (CIK) cells.

Recent studies have increasingly linked miRNAs with the modulation of inflammatory responses and immunosuppressive activities. This investigation reveals that mir-30e-3p selectively binds to and modulates gimap8, as demonstrated by luciferase reporter assays and qPCR analyses. Upon LPS stimulation of CIK cells, mir-30e-3p expression was notably elevated, inversely correlating with a decrease in gimap8 mRNA levels. Overexpression of mir-30e-3p attenuated the mRNA levels of pro-inflammatory cytokines beyond the effect of LPS alone, suggesting a regulatory role of mir-30e-3p in inflammation mediated by the gimap8 gene. These insights contribute to our understanding of the complex mechanisms governing inflammatory and immune responses.

Deep sequencing identified miR-193b-3p as a positive regulator of autophagy targeting Akt3 in Ctenopharyngodon idella CIK cells during GCRV infection.

Recent research has highlighted complex and close interaction between miRNAs, autophagy, and viral infection. In this study, we observed the autophagy status in CIK cells infected with GCRV at various time points. We found that GCRV consistently induced cellar autophagy from 0 h to 12 h post infection. Subsequently, we performed deep sequencing on CIK cells infected with GCRV at 0 h and 12 h respectively, identifying 38 DEMs and predicting 9581 target genes. With the functional enrichment analyses of GO and KEGG, we identified 35 autophagy-related target genes of these DEMs, among which akt3 was pinpointed as the most central hub gene using module assay of the PPI network. Then employing the miRanda and Targetscan programs for prediction, and verification through a double fluorescent enzyme system and qPCR method, we confirmed that miR-193 b-3p could target the 3'-UTR of grass carp akt3, reducing its gene expression. Ultimately, we illustrated that grass carp miR-193 b-3p could promote autophagy in CIK cells. Above results collectively indicated that miRNAs might play a critical role in autophagy of grass carp during GCRV infection and contributed significantly to antiviral immunity by targeting autophagy-related genes. This study may provide new insights into the intricate mechanisms involved in virus, autophagy, and miRNAs.

Clustering pattern and evolution characteristic of microRNAs in grass carp (Ctenopharyngodon idella).

BACKGROUND: A considerable fraction of microRNAs (miRNAs) are highly conserved, and certain miRNAs correspond to genomic clusters. The clustering of miRNAs can be advantageous, possibly by allowing coordinated expression. However, little is known about the evolutionary forces responsible for the loss and acquisition of miRNA and miRNA clusters. RESULTS: The results demonstrated that several novel miRNAs arose throughout grass carp evolution. Duplication and de novo production were critical strategies for miRNA cluster formation. Duplicates accounted for a smaller fraction of the expansion in the grass carp miRNA than de novo creation. Clustered miRNAs are more conserved and change slower, whereas unique miRNAs usually have high evolution rates and low expression levels. The expression level of miRNA expression in clusters is strongly correlated. CONCLUSIONS: This study examines the genomic distribution, evolutionary background, and expression regulation of grass carp miRNAs. Our findings provide novel insights into the genesis and development of miRNA clusters in teleost.

miR-130a targets CiGadd45bb to modulate the inflammatory response to bacterial infection in Ctenopharyngodon idella kidney (CIK) cells.

Septicemia is a systemic inflammatory response to bacterial infection that results in a hyper-inflammatory state, which could lead to septic shock and death in grass carp (Ctenopharyngodon idella). The aim of this study was to determine the underlying mechanism of microRNA (miR-130a) in bacteria-infected grass carp. Expression levels of miR-130a against Aeromonas hydrophila (A. hydrophila) infection in Ctenopharyngodon idella kidney cells (CIK) were analyzed. Luciferase reporter assay, quantitative reverse transcription-polymerase chain reaction were performed to explore whether Ctenopharyngodon idella growth arrest and DNA damage-inducible 45 (CiGadd45bb) was a target of miR-130a. MiR-130a mimic, inhibitor and miR-control were transfected to CIK respectively. After transfection, the expression levels of proinflammatory genes were determined. Here we show that CiGadd45bb as a target of miR-130a. We also confirmed that miR-130a levels were significantly higher after being stimulated for 4 h and lower after 12 h (P < 0.01). Overexpressing miR-130a strikingly inhibited p38, JNK, ERK and TNF-a genes (P < 0.01) and silencing miR-130a activated p38, JNK, ERK, TNF-a, IFN and IL-8 (P < 0.01). Our results provide a theoretical basis for studying the molecular mechanism underlying the regulation of inflammation by miR-130a in grass carp.

LncRNA-adm2 targets adm2 via cid-miR-n3 and negatively regulates the inflammatory response in grass carp (Ctenopharyngodon idella).

Long non-coding RNAs (lncRNAs), which impact gene expression following pathogen infections, have garnered significant attention in recent years. Recent discoveries have revealed that lncRNAs play a crucial role in fish immune responses to pathogen infections. We investigated the influence of lncRNA-adm2 on the antibacterial immune response generated by Aeromonas hydrophila in grass carp (Ctenopharyngodon idella) through the adsorption of cid-miR-n3. Furthermore, we found that cid-miR-n3 interacts with lncRNA-adm2 and targets the 3' UTR of adm2. The upregulation of lncRNA-adm2 expression led to the suppression of pro-inflammatory cytokines (il-1ß and il-6) in CIK cells, while anti-inflammatory cytokines (il-10) increased. Our research provides evidence that lncRNAs are involved in the antibacterial immune response of fish, expanding our understanding of the function of lncRNAs in teleosts.

miR-22a targets p62/SQSTM1 to negatively affect autophagy and disease resistance of grass carp (Ctenopharyngodon idella).

MicroRNAs (miRNAs) are integral to many biological functions, including autophagy, a process recently proven to be closely linked to innate immunity. In this study, we present findings on miR-22a, a teleost homolog of mammalian miR-22, illustrating its capacity to target the autophagy adaptor p62, subsequently inducing downregulation at both mRNA and protein levels. Utilizing Western blot analyses, we demonstrated that miR-22a inhibits the autophagy flux of CIK cells, correlated with an elevated presence of LC3 II. Additionally, the overexpression of miR-22a resulted in the suppression of NF-κB signaling, leading to reduced cellar antimicrobial abilities and increased apoptosis. These findings provide novel insights into the role of miR-22a as an autophagy-related miRNA and its immune mechanisms against pathogens via p62 in teleost, enriching our understanding of the interplay between autophagy and innate immunity.

Transposon-induced epigenetic silencing in the X chromosome as a novel form of dmrt1 expression regulation during sex determination in the fighting fish.

BACKGROUND: Fishes are the one of the most diverse groups of animals with respect to their modes of sex determination, providing unique models for uncovering the evolutionary and molecular mechanisms underlying sex determination and reversal. Here, we have investigated how sex is determined in a species of both commercial and ecological importance, the Siamese fighting fish Betta splendens. RESULTS: We conducted association mapping on four commercial and two wild populations of B. splendens. In three of the four commercial populations, the master sex determining (MSD) locus was found to be located in a region of ~ 80 kb on LG2 which harbours five protein coding genes, including dmrt1, a gene involved in male sex determination in different animal taxa. In these fish, dmrt1 shows a male-biased gonadal expression from undifferentiated stages to adult organs and the knockout of this gene resulted in ovarian development in XY genotypes. Genome sequencing of XX and YY genotypes identified a transposon, drbx1, inserted into the fourth intron of the X-linked dmrt1 allele. Methylation assays revealed that epigenetic changes induced by drbx1 spread out to the promoter region of dmrt1. In addition, drbx1 being inserted between two closely linked cis-regulatory elements reduced their enhancer activities. Thus, epigenetic changes, induced by drbx1, contribute to the reduced expression of the X-linked dmrt1 allele, leading to female development. This represents a previously undescribed solution in animals relying on dmrt1 function for sex determination. Differentiation between the X and Y chromosomes is limited to a small region of ~ 200 kb surrounding the MSD gene. Recombination suppression spread slightly out of the SD locus. However, this mechanism was not found in the fourth commercial stock we studied, or in the two wild populations analysed, suggesting that it originated recently during domestication. CONCLUSIONS: Taken together, our data provide novel insights into the role of epigenetic regulation of dmrt1 in sex determination and turnover of SD systems and suggest that fighting fish are a suitable model to study the initial stages of sex chromosome evolution.

Genomic Basis of Striking Fin Shapes and Colors in the Fighting Fish.

Resolving the genomic basis underlying phenotypic variations is a question of great importance in evolutionary biology. However, understanding how genotypes determine the phenotypes is still challenging. Centuries of artificial selective breeding for beauty and aggression resulted in a plethora of colors, long-fin varieties, and hyper-aggressive behavior in the air-breathing Siamese fighting fish (Betta splendens), supplying an excellent system for studying the genomic basis of phenotypic variations. Combining whole-genome sequencing, quantitative trait loci mapping, genome-wide association studies, and genome editing, we investigated the genomic basis of huge morphological variation in fins and striking differences in coloration in the fighting fish. Results revealed that the double tail, elephant ear, albino, and fin spot mutants each were determined by single major-effect loci. The elephant ear phenotype was likely related to differential expression of a potassium ion channel gene, kcnh8. The albinotic phenotype was likely linked to a cis-regulatory element acting on the mitfa gene and the double-tail mutant was suggested to be caused by a deletion in a zic1/zic4 coenhancer. Our data highlight that major loci and cis-regulatory elements play important roles in bringing about phenotypic innovations and establish Bettas as new powerful model to study the genomic basis of evolved changes.

LncRNA-ANAPC2 and lncRNA-NEFM positively regulates the inflammatory response via the miR-451/npr2/ hdac8 axis in grass carp.

In grass carp (Ctenopharyngodon idella), septicemia is a systemic inflammatory response to bacterial infection and could be leaded to lethality. MiR-451 involved in septicemia progression has been reported. However, the underlying mechanism of miR-451 in septicemia induced inflammatory response remains to be revealed. In the present study, miR-451 was highly expressed in Aeromonas hydrophila induced CIK cells, opposite to lncRNA-ANAPC2 and lncRNA-NEFM expression. Furthermore, we found that miR-451 interacted with lncRNA-ANAPC2 and lncRNA-NEFM, also targeted the 3' UTR of npr2 and hdac8. In CIK cells, the inhibition of npr2 and hdac8 were down-regulated by lncRNA-ANAPC2 and lncRNA-NEFM knockdown, while downstream proinflammatory factors were inhibited. In a word, this study indicates that lncRNA-ANAPC2 and lncRNA-NEFM regulation the LPS-induced progression of inflammatory response by modulating miR-451/npr2/hdac8 axis.

Transcriptomic analysis to elucidate the effects of high stocking density on grass carp (Ctenopharyngodon idella).

BACKGROUND: Grass carp (Ctenopharyngodon idella) is one of the most widely cultivated fishes in China. High stocking density can reportedly affect fish growth and immunity. Herein we performed PacBio long-read single-molecule real-time (SMRT) sequencing and Illumina RNA sequencing to evaluate the effects of high stocking density on grass carp transcriptome. RESULTS: SMRT sequencing led to the identification of 33,773 genes (14,946 known and 18,827 new genes). From the structure analysis, 8,009 genes were detected with alternative splicing events, 10,219 genes showed alternative polyadenylation sites and 15,521 long noncoding RNAs. Further, 1,235, 962, and 213 differentially expressed genes (DEGs) were identified in the intestine, muscle, and brain tissues, respectively. We performed functional enrichment analyses of DEGs, and they were identified to be significantly enriched in nutrient metabolism and immune function. The expression levels of several genes encoding apolipoproteins and activities of enzymes involved in carbohydrate enzymolysis were found to be upregulated in the high stocking density group, indicating that lipid metabolism and carbohydrate decomposition were accelerated. Besides, four isoforms of grass carp major histocompatibility complex class II antigen alpha and beta chains in the aforementioned three tissue was showed at least a 4-fold decrease. CONCLUSIONS: The results suggesting that fish farmed at high stocking densities face issues associated with the metabolism and immune system. To conclude, our results emphasize the importance of maintaining reasonable density in grass carp aquaculture.

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.

LncRNA-WAS and lncRNA-C8807 interact with miR-142a-3p to regulate the inflammatory response in grass carp.

Septicemia of grass carp is a systemic inflammatory reaction caused by bacterial infection. More and more evidences show that long non-coding RNAs (lncRNAs) can participate in the regulation of inflammatory response. In the present study, lncRNA-WAS and lncRNA-C8807 were confirmed to be involved in the inflammatory response following infection with Aeromonas hydrophila. LncRNA-WAS and lncRNA-C8807 could interact with miR-142a-3p. LncRNA-WAS and lncRNA-C8807 interact with miR-142a-3p to effect pro-inflammatory genes and NF-κB pathway. Our results provide a theoretical basis for studying the molecular mechanism underlying the regulation of inflammation by lncRNA in grass carp.

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.

miR-23a-3p and miR-23a-5p target CiGadd45ab to modulate inflammatory response and apoptosis in grass carp.

Ctenopharyngodon idella growth arrest and DNA damage-inducible 45 ab (CiGadd45ab) is a subtype of the Gadd45a gene of the Gadd45 family in grass carp. There is increasing evidence that microRNAs (miRNAs) are involved in the regulation of inflammatory and apoptotic responses. However, little is known about the regulatory effects of miRNAs on CiGadd45ab expression. In the present study, CiGadd45ab was identified as a target gene of miR-23a-3p and miR-23a-5p, based on miRNA expression profiling and a dual-luciferase reporter assay. In addition, miR-23a-3p and miR-23a-5p were both confirmed to be involved in the inflammatory response following infection with Aeromonas hydrophila by targeting CiGadd45ab. Transfection with miR-23a-3p and miR-23a-5p mimics and inhibitor altered proinflammatory gene expression and apoptosis rate, thereby suggesting that miRNAs regulate immune response and anti-apoptosis by targeting CiGadd45ab in grass carp. Our results provide a theoretical basis for exploring the molecular mechanisms by which miR-23a-3p and miR-23a-5p target CiGadd45ab to regulate inflammation and apoptosis against bacterial infection in grass carp.

Effects of microRNA-731 on inflammation and apoptosis by targeting CiGadd45aa in grass carp.

Ctenopharyngodon idellagrowth arrest and DNA damage-inducible 45aa (CiGadd45aa) is a member of the Gadd45 family of immune-related proteins in grass carp. There is increasing evidence that microRNAs (miRNAs) are involved in the regulation of inflammatory responses and apoptosis. However, little is known about the regulatory effects of miRNAs on CiGadd45aa expression in grass carp. In the present study, CiGadd45aa was identified as a target gene of miR-731 based on miRNA expression profiling and dual-luciferase reporter assay. Our study revealed that miR-731 targets CiGadd45aa and regulates the expression of proinflammatory factors, thereby regulating immune response in grass carp. In addition, CiGadd45aa and miR-731 were both found induced apoptosis. Hence, our findings provide a theoretical basis for exploring the molecular mechanism by which miR-731 regulates inflammation and apoptosis in grass carp.

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.

Population structure, demographic history and local adaptation of the grass carp.

BACKGROUND: Genetic diversity within a species reflects population evolution, ecology, and ability to adapt. Genome-wide population surveys of both natural and introduced populations provide insights into genetic diversity, the evolutionary processes and the genetic basis underlying local adaptation. Grass carp is the most important freshwater foodfish species for food and water weed control. However, there is as yet no overall picture on genetic variations and population structure of this species, which is important for its aquaculture. RESULTS: We used 43,310 SNPs to infer the population structure, evidence of local adaptation and sources of introduction. The overall genetic differentiation of this species was low. The native populations were differentiated into three genetic clusters, corresponding to the Yangtze, Pearl and Heilongjiang River Systems, respectively. The populations in Malaysia, India and Nepal were introduced from both the Yangtze and Pearl River Systems. Loci and genes involved in putative local selection for native locations were identified. Evidence of both positive and balancing selection was found in the introduced locations. Genes associated with loci under putative selection were involved in many biological functions. Outlier loci were grouped into clusters as genomic islands within some specific genomic regions, which likely agrees with the divergence hitchhiking scenario of divergence-with-gene-flow. CONCLUSIONS: This study, for the first time, sheds novel insights on the population differentiation of the grass carp, genetics of its strong ability in adaption to diverse environments and sources of some introduced grass carp populations. Our data also suggests that the natural populations of the grass carp have been affected by the aquaculture besides neutral and adaptive forces.

miR-21 targets jnk and ccr7 to modulate the inflammatory response of grass carp following bacterial infection.

Grass carp septicemia is a systemic inflammatory response that develops following a bacterial infection. The hyperinflammatory state develops could lead to septic shock and lethality. There is increasing evidence that microRNAs are involved in the regulation of the inflammatory response. In the present study, miR-21 was confirmed to be involved in the inflammatory response following infection with Aeromonas hydrophila and LPS stimulation. Both jnk and ccr7 were identified as target gene of miR-21 by overexpression, inhibition, and dual luciferase reporter assays experiments. Meanwhile, miR-21 targets the jnk and ccr7 to modulate downstream pro-inflammatory factors tnf-α, il-1ß, il-6, and il-12. Our results provide a theoretical basis for exploring the molecular mechanism of grass carp miR-21 regulating inflammation.