Tissue distribution and cellular uptake of Aeromonas salmonicida lipopolysaccharide (LPS) in some marine fish species

Τhe uptake and distribution of lipopolysaccharide (LPS), isolated from Aeromonas salmonicida, was investigated in Atlantic cod, Gadus morhua L., turbot, Scophthalmus maximus L., and Atlantic halibut, Hippoglossus hippoglossus L. LPS was radiolabelled by bromine oxidation and subsequent sodium borotritide reduction (³H-LPS), and fluorescence-labelled by introducing a fluorescein isothiocyanate derivative (FITC-LPS). After intravenous and intraperitoneal injections in cod, high amounts of radioactive LPS (³H-LPS) were present in heart, spleen and kidney throughout the experimental period (1–168 h). After peroral administration, a high amount of ³H-LPS was observed in intestinal tissues, whereas internal organs and tissues contained considerably lower amounts. Following intravenous administration of ³H-LPS in turbot, high contents of radioactivity were revealed in spleen, liver and kidney, whereas the content in heart was lower than in blood at the sampling times (1–24 h). The same pattern was observed after intraperitoneal administration. The spleen and liver contained high amounts of radioactivity when the turbots were intubated perorally with ³H-LPS. The spleen, kidney and heart were the main scavenging organs following intravenous administration of ³H-LPS in Atlantic halibut. A minor amount of radioactivity was present in the liver. The same pattern emerged after intraperitoneal injection in halibut. As observed for turbot, the spleen was the main accumulation site for ³H-LPS following peroral administration. Fluorescence microscopy of sections of organs and tissues from cod, intravenously and intraperitoneally injected with FITC-LPS, revealed that endocardial cells of both atrium and ventricle contained large amounts of the fluorochrome, whereas in turbot and halibut only atrial endothelial cells accumulated the substance. In all species, macrophages in kidney and spleen contained FITC-LPS and in the spleen the fluorochrome was trapped in the ellipsoidal walls. At later time points (e.g. 48 h) in the turbot spleen, FITC-LPS was located in cells adjacent to the ellipsoidal walls. Halibut endothelial cells that were located in the connective tissue of the intestine and gills also contained FITC-LPS. After peroral administration to the different fish species, specific fluorescence was found only in intestinal epithelial cells of halibut and in cells located in the lamina propria. Fluorescence was not detected in internal organs such as the kidney, spleen and liver after peroral administration of FITC-LPS. Gel chromatographic analysis of plasma samples from cod, turbot and halibut after intravenous and intraperitoneal injections showed that high molecular weight radioactivity was present. A minor amount of radioactivity that corresponded to low molecular weight substances was also observed. In conclusion, there is a high degree of variation with respect to the site of accumulation and some variation in the type of cells involved in the uptake of purified LPS in cod, turbot and halibut.