Project description:Animal mucosal barriers constantly interact with the external environment and this interaction is markedly different in aquatic and terrestrial environments. Transitioning from water to land was a critical step in vertebrate evolution but the immune adaptations that mucosal barriers such as the skin underwent during that process are essentially unknown. Vertebrate animals such as the African lungfish have a bimodal life, switching from freshwater to terrestrial habitats when environmental conditions are not favorable. African lungfish skin mucus secretions contribute to the terrestrialization process by forming a cocoon that surrounds and protect the lungfish body. The goal of this study is to characterize the skin mucus immunoproteome of African lungfish, Protopterus dolloi, before and during the induction phase of terrestrialization as well as the immunoproteome of the gill mucus during the terrestrialization induction phase. Using LC-MS/MS, we identified a total of a total of 974 proteins using a lungfish Illumina RNA-seq database and 880 proteins using a lungfish 454 RNA-seq database for annotation in the three samples analyzed (control skin mucus, terrestrialized skin mucus and terrestrialized gill mucus). The terrestrialized skin mucus proteome was enriched in proteins with known antimicrobial functions such as histones and S100 proteins. In support, gene ontology analyses showed that the terrestrialized skin mucus proteome has predicted functions in processes such as viral process, defense response to Gram negative bacterium and tumor necrosis factor mediated signaling. Importantly, we observed a switch in immunoglobulin heavy chain secretion upon terrestrialization, with IgW1L and IgM1 present in control skin mucus and IgW1L, IgM1 and IgM2 in terrestrialized skin mucus. Combined, these results indicate an increase investment in the production of unique immune molecules in P. dolloi skin mucus in response to terrestrialization that likely better protect lungfish against external aggressors found in land.

Project description:Antimicrobial peptides (AMPs) constitute a broad range of bioactive compounds in diverse organisms, including fish. They are effector molecules for the innate immune response, against pathogens, tissue damage and infections. Still, AMPs from African Catfish, Clarias gariepinus skin mucus are largely unexplored despite their possible therapeutic role in combating antimicrobial resistance. In this study, African Catfish Antimicrobial peptides (ACAPs) were identified from the skin mucus of African Catfish, C. gariepinus. Native peptides were extracted from fish mucus scrapings in 10% acetic acid (v/v) and ultra-filtered using 5kDa molecular cut-off membrane. The extract was purified using C18 Solid Phase Extraction. The antibacterial activity was determined using the Agar Well Diffusion method and broth-dilution method utilizing Staphylococcus aureus (ATCC 25923) and Escherichia coli (ATCC 25922). Thereafter, Sephadex G-25 gel filtration was further utilized in bio-guided isolation of the most active fractions prior to peptide identification using Orbitrap Fusion Lumos Tribrid Mass Spectrometry. The skin mucus extracted from African Catfish from all the three major lakes of Uganda exhibited antimicrobial activity on E. coli and S. aureus. Lake Albert’s C. gariepinus demonstrated the best activity with the lowest MIC of 2.84 µg/mL and 0.71 µg/mL on S. aureus and E. coli respectively. Sephadex G-25 peak I mass spectrometry analysis alongside in silico analysis revealed seven short peptides (11-15 amino acid residues) of high antimicrobial scores (0.561-0.905 units). In addition, these peptides had a low molecular weight (1005.57-1622.05 Da), and had percentage hydrophobicity above 54%. Up to four of these antimicrobial peptides demonstrated α-helix structure conformation, rendering them amphipathic. The findings of this study indicate that novel antimicrobial peptides can be sourced from the skin mucus of C. gariepinus. Such antimicrobial peptides are potential alternatives to the traditional antibiotics and can be of great application to food and pharmaceutical industries; however, further studies are still needed to establish their drug-likeness and safety profiles.

Project description:Pseudo-albinism is a complex condition, caused by a multitude of factors and negatively affecting flatfish aquaculture. The majority of studies have targeted genes involved in pigmentation, the most notable change in these animals. In this study, a global transcriptome approach was taken to understand the underlying basis of Senegalese sole pseudo-albinism, using as targets two important innate immune barriers, the skin and intestine. RNA-seq transcriptome analysis identified 573 differentially expressed transcripts (DETs) between pseudo-albino and pigmented soles in the skin and/or the gut. DETs were mainly linked to pigment production, skin structure and regeneration, mucus production and smooth muscle contraction.

Project description:Norway is the largest producer and exporter of farmed Atlantic salmon (Salmo salar) worldwide. Skin disorders correlated with bacterial infections represent an important challenge for fish farmers due to the economic losses caused. Little is known about this topic, thus studying the skin-mucus of Salmo salar and its bacterial community depict a step forward in understanding fish welfare in aquaculture. In this study, we used label free quantitative mass spectrometry to investigate the skin-mucus proteins associated with both Atlantic salmon and bacteria. In addition, the microbial temporal proteome dynamics during 9 days of mucus incubation with sterilized seawater was investigated, in order to evaluate their capacity to utilize mucus components for growth in this environment.

Project description:The Zygnematophyceae are the closest algal relatives of land plants and hence interesting to understand land plant evolution. Species of the genus Serritaenia have an aerophytic lifestyle and form colorful, mucilaginous capsules, which surround the cells and block harmful solar radiation. Under laboratory conditions the production of this “sunscreen mucilage” can be induced by ultraviolet B radiation. The present dataset reveals insights into the cellular reaction of this alga to UV radiation (a major stressor in terrestrial habitats) and allows for comparisons with other algae and land plants to draw evolutionary conclusions.

Project description:gill mucus metagenome Metagenome

Project description:Expression of known and predicted genes in tissues of Tetraodon nigroviridis (pufferfish) pooled from multiple healthy individuals. Two-colour experiments with two different tissues hybridized to each array. Each tissue is arrayed in replicate with dye swaps. Tissues: Beak, Brain, Calvaria, Connective tissue, Eye, Fin, Gallbladder, Gill, Heart, Intestine, Kidney, Liver, Ovary, Red muscle, Skin, Spleen, Stomach, Swimbladder, Testis, White muscle

Project description:The experiment focused on the transcriptomic changes associated with gill inflammation in sea farmed Atlantic salmon (Salmo salar). To ensure the multifactorial aspect of gill inflammation, fish were sampled at three marine production sites (A on Isle of Mull, B in Shetland and C in Shetland) between October 2017 and March 2018. All fish were of strain Fanad and originated from the same egg fertilisation batch. They were reared in different hatcheries (Couldoran, Pettigo-Damph and Knock-Frisa for sites A, B and C, respectively) for one year and entered the sea in spring 2017. The resultant gill tissues (44 samples in total with 1 gill sample per fish) were first scored for proliferative gill disease (PGD), using gross morphology PGD scores from 0 with no visual pathology to 5 with severe visual pathology, and then subjected to RNA-seq and histopathological (microscopic) examination. One RNA-seq sample (fish 95) was identified as an outlier and removed from the subsequent analysis. As a result, the analysis aiming to integrate gill transcriptome, gross morphology and histopathology was performed on 43 gill samples, classified either as PGD score 1 (n = 26) or PGD score 3 (n = 17). In total, 20 gill samples originated from site A (10 with PGD1 and 10 with PGD 3, 10 samples from site B (7 with PGD1 and 3 with PGD 3) and 13 samples from site C (9 with PGD1 and 4 with PGD 3).

Project description:This study shed light on the protein profile of the venomous extract and the skin mucus from S. plumieri, potentially contributing with fundamental information for future basic research, and even – through a better understanding of venomous fish toxinology – aiding in the search for new clinical strategies to treat the envenomation. Finally, seeing as fish venoms remain considerably less studied when compared to terrestrial venoms, the exploration of their full potential opens a myriad of possibilities for the development of new drugs and for a deeper understanding of complex physiological processes.

Project description:To determine whether murine GVHD associated tissue-specific signatures of donor CD8+ effector T cells are conserved at the same locations in humans developing GVHD, we compared the transcriptional profile of CD8+ T cells obtained simultaneously from the blood and skin of 5 patients developing acute pattern skin GVHD.