ECB-ART-52786
Comp Biochem Physiol C Toxicol Pharmacol
2024 Feb 01;276:109814. doi: 10.1016/j.cbpc.2023.109814.
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Molecular cloning, biological description, and functional analysis of Ajfos transcription factor in pathogen-induced Apostichopus japonicus.
Abstract
Activator protein-1 subfamily member c-Fos wields significant influence over cellular activities, such as regulation of cell growth and division, cell death, and immune responses under various extracellular situations. In this study, the full-length c-Fos of sea cucumber, Apostichopus japonicus (Ajfos) was successfully cloned and analyzed. The anticipated 306 amino acid sequences of Ajfos displayed a basic-leucine zipper (bZIP) domain, similar to invertebrate counterparts. In addition, the qPCR results suggested Ajfos expressed in all tissues, with the highest level in coelomocytes from polian vesicle (vesicle lumen cells), followed by coelomocytes from coelom (coelomocytes). Moreover, the expression levels of Ajfos in the coelomocytes and vesicle lumen cells of sea cucumber showed significant changes after the Vibrio splendidus challenge, especially reaching a peak at 6 h. Compared with the silencing negative control RNA interference (siNC) group, silencing Ajfos (siAjfos) in vivo decreased the downstream proliferation-related gene expression of vesicle lumen cells after infection with V. splendidus while no significant influence was observed on coelomocytes. Furthermore, the proliferation proportion of vesicle lumen cells in the siAjfos group was significantly reduced under pathogen stimulation conditions. Finally, based on the fluctuation trend of total coelomocyte density (TCD) from coelom and polian vesicle previously discovered, it is evident that Ajfos played a critical role in facilitating the swift proliferation of vesicle lumen cells in response to V. splendidus stimulation. Altogether, this research provided an initial reference of the function of Ajfos in echinoderms, unveiling its participation in host coelomocyte proliferation of sea cucumbers during bacterial challenges.
PubMed ID: 38065305
Article link: Comp Biochem Physiol C Toxicol Pharmacol