Further evidence of species variation in mechanisms of epithelial cell loss in mammalian small intestine: ultrastructural studies on the reindeer (Rangifer tarandus) and seal (Phoca groenlandica).

Ultrastructural studies were conducted on mechanisms of epithelial cell loss in the small intestine of seal and reindeer. Mechanisms maintaining epithelial integrity were distinguished from those that did not and the non-epithelial cell types involved were identified. Three types of cell extrusion were noted. In two, tight junctional integrity was preserved and anucleate apical cell fragments (rather than complete cells) were lost into the lumen. In reindeer (type 1), this involved creating large intercellular spaces extending from the preserved apical cap to the lamina propria and containing enterocyte debris probably phagocytosed by subepithelial macrophages. A variant of this process (type 2) involved the gradual shrinkage of individual cells, which became more electron-dense, and the in situ degeneration of their nucleated subapical portions. Degenerated cell fragments and membrane whorls were confined to narrow intercellular spaces between approximating adjacent healthy enterocytes. The mechanism of removal of these fragments was unclear. In both cases, the proximity of intraepithelial lymphocytes suggested that they were involved in cell targetting and killing. Evidence of apoptotic nuclei was not found but nucleated cell fragments could have been washed out of the lumen during tissue preparation. Type 2 cell loss was seen in both species, as was another mechanism (type 3) reminiscent of necrosis. In contrast to other mechanisms, this was accompanied by breaks in epithelial continuity following gradual loss of cell electron density and total or subtotal degradation of organelles and membranes. In seal, this terminated in the loss of an abnormal cell apex and exposure of the contents of the cell remnant to the lumen. In reindeer, all the cell remnants may have been extruded before total membrane degeneration but, in both species, the otherwise tight epithelial barrier was clearly breached. Again, intraepithelial lymphocytes were associated with sites of necrosis. These findings provide evidence for further species differences in mechanisms of epithelial cell extrusion and suggest that necrotic cell loss may be more common than previously admitted.