Simple Summary The immune systems of fish can respond rapidly to biological, physical, and environmental stresses and defend the body against pathogens. The skin is the organ most in contact… Click to show full abstract
Simple Summary The immune systems of fish can respond rapidly to biological, physical, and environmental stresses and defend the body against pathogens. The skin is the organ most in contact with the external environment and possesses a plethora of immune cells. Club cells, typical of the skin of Ostariophysi, are able to produce alarming substances following a predatory attack or exposure to toxins and parasites. This study aims to immunohistochemically characterize club cells in zebrafish skin for the first time with different immune molecules and adds further data on the involvement of these cells in the immune response. Abstract The immune system of a fish has cellular and molecular defense mechanisms that are substantially retained throughout the evolution of vertebrates. The innate immune system provides biological processes, such as phagocytosis and mechanical barriers, to implement an efficient defensive response after exposure to chemical or biological contaminants, pollutants, and contact with parasites, germs, and pathogens. Club cells (CCs) are widespread in the skin of Ostariophysi. After a predator attack or exposure to toxins and parasites, these cells can produce alarming substances. Given their effectiveness against viruses, parasites, and common skin lesions, recent studies have suggested that CCs are a component of the immune system. This study aims to immunohistochemically characterize the CCs for the first time in the skin of zebrafish, using mitogen-activated protein kinase (MAPK) p38, Toll-like receptor (TLR)2, Piscidin1, and inducible nitric oxide synthase (iNOS) peptides involved in the function of all types of vertebrate immune cells. According to our analysis, the intermediate layer of the epidermis exhibited rounded, oval, and elongated CCs, with central acidophilic cytoplasm and a spherical basophilic nucleus, that are positive to the antibodies tested. Our results may confirm that CCs could be involved in the immune function, increasing our knowledge of the immune system of teleosts.
               
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