The unique ultrastructure of high-endothelial venules in inguinal lymph nodes of the pig.

Lymph nodes in pigs are unique in their inverted structure, with the medulla in the periphery and the cortex in central areas. Furthermore, in this species most migrating lymphocytes do not use the classical route via efferent lymphatics to leave the lymph node. High-endothelial venules (HEV) are the entry sites for lymphocytes and in pigs probably also the exit site for recirculating lymphocytes. Therefore, the blood vessels and especially the HEV of the pig superficial inguinal lymph node were investigated as to whether morphological peculiarities could be found in the vascular system, using vascular casting, transmission- and scanning electron microscopy. A thin layer of capillary network surrounded the periphery of the lymph node and HEV branched acutely. The endothelial cells of HEV possessed well developed cytoplasmic organelles, interdigitated with each other, and demonstrated local cell-cell contacts. There were unusual cells bridging the adluminal wall of HEV. These cells were called intravascular bridging cells. They were characterized by an often invaginated nucleus, few pinocytotic vesicles, many microvilli on the surface, wide, flat, cytoplasmic processes like a pseudopod, Weibel-Palade bodies and local cell-cell contacts with endothelial cells. The pseudopod-like processes ramified over the endothelial junctions and covered lymphocytes. Lymphocytes were seen in different phases of migration between endothelial cells and in the intercellular junctions. The previous functional studies on the peculiar route of lymphocyte recirculation in pig lymph nodes are extended by these morphological data, showing a unique structure of HEV in pigs.