Cytosolic β-catenin is involved in macrophage M2 activation and antiviral defense in teleosts: Delineation through molecular characterization of β-catenin homolog from redlip mullet (Planiliza haematocheila)

A novel beta-catenin homologue from the earthworm Eisenia andrei: Identification and characterization during embryonic development, segment regeneration, and immune response

Evolutionarily, Wnt/β-catenin signaling is well-conserved and supports several key cell-biological processes (e.g. adhesion and proliferation). Its crucial component, β-catenin, has been described in several organisms, however, its identification and characterization are notably lacking in annelid earthworms. Here, we report a novel β-catenin homologue from the earthworm Eisenia andrei, termed Ea-β-catenin. The full-length 3253 nt Ea-β-catenin mRNA includes an open reading frame of 2499 nt encoding a putative protein with 833 amino acid residues that comprise 11 classical armadillo-repeat regions. Phylogenetic analysis indicates that Ea-β-catenin shows strong homology with Lophotrochozoan β-catenins. Ubiquitous, but variable expressions of Ea-β-catenin were observed in distinct earthworm tissues. During embryogenesis, Ea-β-catenin mRNA gradually increased from the E1 to E4 developmental stages. Regeneration experiments revealed an inverse correlation between Ea-β-catenin mRNA levels and the rate of EdU+/PY489-β-catenin+ proliferating cells during the second week of the posterior blastema formation. In vitro exposures to poly(I:C) and zymosan significantly increased Ea-β-catenin mRNA levels, while small molecule Wnt-pathway modulators such as LiCl or iCRT14 increased or decreased Ea-β-catenin mRNA expression, and nuclear translocation of PY489-β-catenin, respectively. These novel results pave the way for follow-up studies aimed at characterizing additional members of the Wnt/β-catenin pathway that may be involved in embryonic and/or postembryonic development, as well as innate immunity in earthworms.

Ameliorative Effect of Moringa oleifera Against CUMS-Induced Anxiety in Rats: β-Catenin and 5-HT1 A Crosstalk

Serotonin 1 A receptor (5-HT1 AR) signaling is pivotal for stress response, determining vulnerability or resilience to psychopathology. However, the precise pathological mechanisms underlying its role remain inconsistent. Moringa oleifera (MO), a plant with purported medicinal properties, has demonstrated potential efficacy against psychiatric disorders. However, no available information exists regarding its effects on 5-HT1 A signaling under normal and stressed conditions. This study is aimed at elucidating the effects of MO in conjunction with 5-HT1 A signaling. Rats were randomly assigned to four groups: normal (NRML), normal rats receiving MO orally at 200 mg/kg (MO), rats exposed to chronic unpredictable mild stress (CUMS) for 21 days (CUMS), and stressed rats administered MO from day 15 (CUMS + MO). Behavioral analysis was conducted using forced swimming and open field tests. Serotonergic markers, β-catenin, p-Erk, c-myc, and mTOR were assessed via ELISA, while miRNA clusters and individual miRNAs were analyzed using PCR. No significant differences were observed between the NRML and MO groups, both of which exhibited approximately normal biochemical activity, except for a decreased 5-HIAA/5-HT ratio in the MO group, which was reflected behaviorally. Rats subjected to CUMS displayed defective β-catenin signaling, potentially leading to compensatory activation of 5-HT1 A. Consistently, the CUMS + MO group exhibited normalized 5-HT1 A and 5-HT signaling, accompanied by reduced pThr183-Erk and its downstream targets, c-myc and miR- 203, to mitigate pathological anxiety. Additionally, mTOR and its downstream target, miR- 217, were reduced compared to stressed rats. MO exhibited a promising anxiolytic effect by modulating 5-HT1 A signaling, as evidenced by improved neurobehavioral outcomes and restoring biochemical balance in stressed rats. These findings highlight its potential therapeutic role in anxiety management.

Identification of potential geosmin-binding proteins in grass carp gill based on affinity responsive target stability and tandem mass tag proteomics

The escalating issue of water pollution, especially the accumulation of organic off-flavor pollutants, poses significant challenges. Geosmin, a typical off-flavor compound in aquatic environments, not only compromises the quality of aquatic products but also deters consumers. Its impact extends to aquatic organisms, with current research focusing on dose-response and ecotoxicity, while neglecting the molecular-level study of geosmin-binding proteins. This study employs an integrated approach combing affinity-responsive target stability in vitro, tandem mass tag proteomics in vivo, and molecular docking to identify geosmin-binding proteins in the gill tissue of grass carp (Ctenopharyngodon idella). ARTS analysis identified 56 proteins, predominantly membrane-associated proteins, such as catenin beta-1, annexin, and integrin beta. Proteomic analysis revealed 256 differentially expressed proteins in geosmin-exposure group, with 18 common proteins screened by in vivo and in vitro methods. Among these, annexin, cathepsin D, and interleukin-1 receptors were highlighted as potential geosmin targets, with annexin demonstrating the highest binding affinity in silico. This study provides a robust protocol integrating in vivo, in vitro, and in silico approaches to elucidate geosmin's target proteins in grass carp gill tissue, advancing our understanding of pollutant-biological interactions and enhancing environmental risk assessment accuracy.

Roles of β-catenin in innate immune process and regulating intestinal flora in Qi river crucian carp (Carassius auratus)

In mammals, β-catenin participates in innate immune process through interaction with NF-κB signaling pathway. However, its role in teleost immune processes remains largely unknown. We aimed to clarify the function of β-catenin in the natural defense mechanism of Qi river crucian carp (Carassius auratus). β-catenin exhibited a ubiquitous expression pattern in adult fish, as indicated by real-time PCR analysis. Following lipopolysaccharide (LPS), Polyinosinic-polycytidylic acid (polyI: C) and Aeromonas hydrophila (A. hydrophila) challenges, β-catenin increased in gill, intestine, liver and kidney, indicating that β-catenin likely plays a pivotal role in the immune response against pathogen infiltration. Inhibition of the β-catenin pathway using FH535, an inhibitor of Wnt/β-catenin pathway, resulting in pathological damage of the gill, intestine, liver and kidney, significant decrease of innate immune factors (C3, defb3, LYZ-C, INF-γ), upregulation of inflammatory factors (NF-κB, TNF-α, IL-1, IL-8), and downregulation of glutathione peroxidase (GSH-Px), superoxide dismutase (SOD) and catalase (CAT) activities, increase of Malondialdehyde (MDA) content. Following A. hydrophila invasion, the mortality rate in the FH535 treatment group exceeded that of the control group. In addition, the diversity of intestinal microflora decreased and the community structure was uneven after FH535 treatment. In summary, our findings strongly suggest that β-catenin plays a vital role in combating pathogen invasion and regulating intestinal flora in Qi river crucian carp.

Galectin 9 restricts viral replication in teleost via autophagy-antiviral pathway and polarizes M2 macrophages for anti-inflammatory response: New insights into functional properties of fish Galectin-9 from Planiliza haematocheilus

Galectin 9 (Gal9) is a tandem repeat type ß-galactoside-binding galectin that mediates various cellular biochemical and immunological functions. Many studies have investigated the functional properties of Gal9 in mammals; however, knowledge of fish Gal9 is limited to antibacterial studies. In this context, our aim was to clone Gal9 from Planiliza haematocheilus (PhGal9) and investigate its structural and functional characteristics. We discovered the PhGal9 open reading frame, which was 969 base pairs long and encoded a 322 amino acid protein. PhGal9 had a projected molecular weight of 35.385 kDa but no signal peptide sequence. PhGal9 mRNA was ubiquitously produced in all investigated tissues but was predominant in the intestine, spleen, and brain. Its mRNA expression was increased in response to stimulation by Poly(I:C), LPS, and L. garvieae. The rPhGal9 exhibited a dose-dependent agglutination potential toward gram-positive and gram-negative bacteria at a minimum concentration of 50 μg/mL. Overexpression of PhGal9 promoted M2-like phenotype changes in mouse macrophages, and RT-qPCR analysis of M1 and M2 marker genes confirmed M2 polarization with upregulation of M2 marker genes. In the antiviral assay, the expression levels of Viral Hemorrhagic Septicemia Virus (VHSV) glycoproteins, phosphoproteins, nucleoproteins, non-virion proteins, matrix proteins, and RNA polymerase were significantly reduced in PhGal9-overexpressed cells. Furthermore, the mRNA expression of autophagic genes (sqstm1, tax1bp1b, rnf13, lc3, and atg5) and antiviral genes (viperin) were upregulated in PhGal9 overexpressed cells. For the first time in teleosts, our study demonstrated that PhGal9 promotes M2 macrophage polarization by upregulating M2-associated genes (egr2 and cmyc) and suppressing M1-associated genes (iNOS and IL-6). Furthermore, our results show that exogenous and endogenous PhGal9 prevented VHSV attachment and replication by neutralizing virion and autophagy, respectively. Gal9 may be a potent modulator of the antimicrobial immune response in teleost fish.