Origin of the central cells of erythroblastic islands in fetal mouse liver: ultrahistochemical studies of membrane-bound glycoconjugates.

To clarify the origin of the central cells in hepatic erythroblastic islands, glycoconjugates on the surface of cellular constituents in fetal mice liver were ultrahistochemically examined using lectin staining. At 11 days of gestation, the cells derived from mesenchyme in fetal liver, including sinusoidal macrophages, endothelial cells, and erythropoietic cells, bound Griffonia simplicifolia isoagglutinin I-B4 (GS-I-B4), but hepatocytes lacked binding sites for the isolectin. Scavenger macrophages in the hepatic cords at 13 days of gestation and the central cells in the erythroblastic islands at 15 days of gestation also bound GS-I-B4. Hepatocytes, however, exhibited no GS-I-B4 binding site at any gestational day. At 11 days of gestation, none of the cells in fetal liver had binding sites for soybean agglutinin (SBA), but cells derived from mesenchyme acquired these binding sites at 13 days of gestation. The central cells in the erythroblastic islands also bound SBA, but hepatocytes did not bind the lectin at all. The central cells in the erythroblastic islands can be considered to belong to a mesenchymal cell lineage, and primitive sinusoidal macrophages at 11 days of gestation are possible precursors of these central cells.