Sinusoidal cells in the rat liver were studied in vivo and in vitro using the original vital staining with lithium carmine, which has contributed much to the development of the concept of the reticulo-endothelial system. Immunohistochemical and electron-microscopic studies revealed that the dye-incorporating cells were sinusoidal endothelial cells, Kupffer cells, and monocytes. The endothelial cells took up much more dye than did the Kupffer cells and bulged largely into the sinusoidal lumen. Electron microscopy revealed that small particles of lithium carmine were associated with coated vesicles of endothelial cells and ruffled membranes of Kupffer cells. In the endothelial cells, these particles were present in various concentrations within vacuolated structures and condensed in the lysosomes forming large aggregates of lithium carmine lumps. These lumps showed crystalline structures, within which the size of the individual particle was up to 30 nm in width and 50 nm in length. A few endothelial cells containing abundant dye underwent degeneration, and some were taken up by Kupffer cells. Liver endothelial cells isolated from lithium carmine-administered rats endocytosed fluorescence-labeled collagen. Isolated endothelial cells from normal rat liver, when cultured with lithium carmine, did not take up any dye, and their endocytosis of formaldehyde-treated albumin was inhibited dose-dependently. We conclude that in the liver, endothelial cells, but not Kupffer cells, predominantly take up lithium carmine. Furthermore, we propose the existence of a generalized cell system based on its vital staining capacity.
The hepatic sinusoids are preferentially supplied with portal venous blood and equipped with fenestrated endothelial cells that are distinct from capillary endothelial cells. We previously observed in rats that sinusoidal capillarization proceeded concurrently with arterial blood supply during hepatocarcinogenesis. This study aimed to clarify the inducing role of arterialization in sinusoidal capillarization by investigating phenotypical, morphological and functional alterations to sinusoidal endothelial cells (SECs) in arterialized rat livers induced by portal branch ligation. At one week, after massive hepatic necrosis following ligation, the livers were restored to their normal architecture without causing post-necrotic fibrosis. At 12-21 weeks, they exhibited a normal histology except for mild pericellular fibrosis which developed along sinusoids or between adjacent hepatocytes. SECs expressed factor VIII-related antigen and showed a decrease in the number of fenestrae and porosity, still lacking any basement membrane but further retaining the functional capacity for carmine dye uptake. Stellate cells, while occasionally associated with large amounts of collagen bundles, contained many lipid droplets and expressed no alpha-smooth muscle actin, indicating a quiescent property. Kupffer cells were commonly found within the sinusoids. The present results indicate that arterialization of the liver induces a partial (but not complete) transition of SECs into capillary-type endothelial cells, suggesting that arterialization might be one of the factors which induce sinusoidal capillarization in the development of hepatocellular carcinoma.
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