AUTHOR=Wambreuse Noé , Bossiroy Estelle , David Frank , Vanwinge Céline , Fievez Laurence , Bureau Fabrice , Gabriele Sylvain , Karasiewicz Tania , Mascolo Cyril , Wattiez Ruddy , Eeckhaut Igor , Caulier Guillaume , Delroisse Jérôme TITLE=Carotenoid-based immune response in sea cucumbers relies on newly identified coelomocytes—the carotenocytes JOURNAL=Frontiers in Immunology VOLUME=Volume 16 - 2025 YEAR=2025 URL=https://www.frontiersin.org/journals/immunology/articles/10.3389/fimmu.2025.1668167 DOI=10.3389/fimmu.2025.1668167 ISSN=1664-3224 ABSTRACT=Sea cucumbers are marine deuterostomes possessing a complex innate immune system composed of a wide diversity of immune cells—coelomocytes—making them compelling models for exploring the evolution of immunity. This study investigates the functional specialisation of coelomocytes within the two main echinoderm body fluids, namely, the perivisceral fluid (PF) from the perivisceral cavity and the hydrovascular fluid (HF) from the hydrovascular–ambulacral system. Given their distribution restricted to the HF, haemocyte-like cells (HELs) are particularly investigated. In echinoderms, haemocytes have been described as reddish cells containing haemoglobin and thus presenting a function in oxygen transport. Using an integrative approach that combines cell morphological analyses, pigment profiling, and multi-omics technologies, we demonstrate in the sea cucumber Holothuria forskali that HELs harbour exceptionally high concentrations of carotenoids, primarily canthaxanthin and astaxanthin, potent antioxidant molecules responsible for their pigmentation. Transcriptomics and proteomics analyses reveal that HELs express candidate genes involved in the carotenoid metabolism pathway as well as catalase, an antioxidant enzyme. Additionally, spectral flow cytometry assays reveal that HELs do not produce reactive oxygen species (ROS) in contrast to most coelomocyte types, reinforcing the hypothesis of their antioxidant function. HELs also contribute to the formation of large red bodies (i.e., coelomocyte aggregates) and increase in concentration following lipopolysaccharide injections, indicating an active role in immunity. Given these results, we hypothesise that these cells act after the culmination of the immune response, forming an antioxidant shell around the cellular aggregates to mitigate oxidative stress from ROS produced while encapsulating pathogens, thus protecting the host tissues. The discovery of carotenoid-carrying coelomocytes constitutes the first report of pigmented coelomocytes in sea cucumbers (except respiratory pigments), challenging the long-standing assumption that these cells contain haemoglobin. Therefore, we propose renaming haemocytes into carotenocytes, at least in this species. However, we believe that this newly described coelomocyte type has been misidentified as haemoglobin-containing cells in many previous studies and may be present in many other holothuroid species. Our findings thus establish a new paradigm in the study of coelomocytes in echinoderms, as well as in the function of the hydrovascular system, which is unique to this phylum.