BACKGROUND: Aquaculture is one of the fastest growing sectors of food production and covers more than half of the market demand for fish and fishery products. However, aquaculture itself faces numerous challenges, such as infectious disease outbreaks, which are one of the limiting factors for the growth and environmental sustainability of modern aquaculture. Understanding the composition and diversity of the gut microbiota of fish is important to elucidate its role in host health and aquaculture management. In addition, the gut microbiota represents a valuable source of bacteria with probiotic potential for farmed fish. RESULTS: In this study, we analysed the intestinal microbiota of two economically important fish species, the European seabass (Dicentrarchus labrax) and the gilthead seabream (Sparus aurata), using 16S rRNA gene amplicon sequencing. The taxonomic analysis identified 462 amplicon sequence variants at a similarity level of 99 and showed similar alpha diversity indices between seabass and gilthead seabream. Beta diversity analysis showed no significant differentiation in gut microbiota between fish species or aquaculture sites. Among the culturable isolates, a high proportion of Photobacterium damselae and Bacillus spp. was detected. We selected a single Bacillus velezensis isolate and further characterised its biosynthetic potential by performing whole genome sequencing. Its genome contains biosynthetic gene clusters for most of the common secondary metabolites typical of B. velezensis. Antibiotic susceptibility testing showed the sensitivity of the selected isolates to several antibiotics according to EFSA recommendations. Furthermore, stimulation of peripheral blood leukocytes (PBL) with B. velezensis resulted in a strong pro-inflammatory response, with a pronounced upregulation of cytokines il1b, il6, tnfa and il10 observed over time. CONCLUSIONS: Overall, this study provides an insight into the composition of the intestinal microbiota and the diversity of culturable intestinal bacteria of two economically most important fish species from Adriatic cage culture and sheds light on the autochthonous intestinal B. velezensis as a promising probiotic candidate for Mediterranean aquaculture.

• Klíčová slova
• Bacillus velezensis, Dicentrarchus labrax, Sparus aurata, Aquaculture, Probiotics, Whole genome sequencing,
• Publikační typ
• časopisecké články MeSH

Myxozoans are microscopic, metazoan, obligate parasites, belonging to the phylum Cnidaria. In contrast to the free-living lifestyle of most members of this taxon, myxozoans have complex life cycles alternating between vertebrate and invertebrate hosts. Vertebrate hosts are primarily fish, although they are also reported from amphibians, reptiles, trematodes, mollusks, birds and mammals. Invertebrate hosts include annelids and bryozoans. Most myxozoans are not overtly pathogenic to fish hosts, but some are responsible for severe economic losses in fisheries and aquaculture. In both scenarios, the interaction between the parasite and the host immune system is key to explain such different outcomes of this relationship. Innate immune responses contribute to the resistance of certain fish strains and species, and the absence or low levels of some innate and regulatory factors explain the high pathogenicity of some infections. In many cases, immune evasion explains the absence of a host response and allows the parasite to proliferate covertly during the first stages of the infection. In some infections, the lack of an appropriate regulatory response results in an excessive inflammatory response, causing immunopathological consequences that are worse than inflicted by the parasite itself. This review will update the available information about the immune responses against Myxozoa, with special focus on T and B lymphocyte and immunoglobulin responses, how these immune effectors are modulated by different biotic and abiotic factors, and on the mechanisms of immune evasion targeting specific immune effectors. The current and future design of control strategies for myxozoan diseases is based on understanding this myxozoan-fish interaction, and immune-based strategies such as improvement of innate and specific factors through diets and additives, host genetic selection, passive immunization and vaccination, are starting to be considered.

• Klíčová slova
• B lymphocytes, RNAseq, T lymphocytes, adaptive immunity, immune evasion, immunoglobulin, parasite, teleost,
• MeSH
• adaptivní imunita * MeSH
• antiparazitární látky farmakologie   MeSH
• B-lymfocyty imunologie   metabolismus   parazitologie   MeSH
• imunitní únik MeSH
• imunoglobuliny imunologie   metabolismus   MeSH
• interakce hostitele a parazita MeSH
• Myxozoa účinky léků   imunologie   patogenita   MeSH
• nemoci ryb imunologie   metabolismus   parazitologie   prevence a kontrola   MeSH
• parazitární nemoci u zvířat imunologie   metabolismus   parazitologie   prevence a kontrola   MeSH
• přirozená imunita * MeSH
• ryby imunologie   metabolismus   parazitologie   MeSH
• T-lymfocyty imunologie   metabolismus   parazitologie   MeSH
• vakcíny farmakologie   MeSH
• vodní hospodářství MeSH
• zvířata MeSH
• Check Tag
• zvířata MeSH
• Publikační typ
• časopisecké články MeSH
• práce podpořená grantem MeSH
• přehledy MeSH
• Research Support, U.S. Gov't, Non-P.H.S. MeSH
• Názvy látek
• antiparazitární látky MeSH
• imunoglobuliny MeSH
• vakcíny MeSH