Secretion of Mucoid Material by Lymphokine‐Activated Killer Cells: Study by Light and Electron Microscopy

When lymph node cells from nude mice were grown on embryonic fibroblast monolayers together with rat interleukin‐2, only one type of colonies developed. These colonies were composed of cytotoxic cells termed “granular lymphokine‐activated killer mucus‐secreting cells” (LAK‐GM). An extensive differentiation course, in which all the cellular components were involved, ended with a population of short‐lived, mature, nondividing large cells that apparently synthesized and deposited a flowing mucoid material (FMM) that stained distinctly blue with periodic acid‐Schiff/alcian blue (PAS‐Ab) at pH 1 and distinctly red by the naphthol AS‐D‐chloracetate method tor specific esterase. So far, the best monolayers to trigger the FMM synthesis were those prepared from 16‐ to 18‐day‐old whole embryos. These cells were compared with LAK cells that developed on monolayers (such as embryonic skin or adult kidney) that did not trigger FMM synthesis. They were also compared with other cell types that differentiated in colonies on the fibroblast monolayers: histiocytes (fixed macrophages), mixed granulocytes monocytes, mucosal mast cells; and with populations of mature rat T‐killer cells developed on same mouse monolayers, Features distinctive to the secreting LAK‐GM cells were presence of masses of membrane‐limited vesicles that were strictly confined to the surface of the cells in FMM‐containing colonies. All transitional forms of budding activity could be seen on the cell surface facing the masses. Within the same cells, many granules displayed varying degrees of degradation, the granular material being transformed into flocculent material that formed small pools facing each degraded surface. Other characteristics of the LAK‐GM lineage were the accumulation of glycogen prior to the appearance of the FMM. the presence of several structures of a ribosome‐lamella complex in the LAK‐GM in colonies that did not accumulate FMM, and filopodia commonly emerging from the pole proximal to the nucleus. Of various fixation methods tried, only after treatment with absolute alcohol and subsequent drying was the FMM stained with PAS‐Ab. By subsequent wetting, the capacity to be stained was irreversibly lost. After incubation of the living cultures with the enzymes hyaluronidase or chondroitinases AC or ABC, the FMM disappeared. These observations suggest a triggering mechanism by the embryonic mesenchymal fibroblastoid cells for synthesis and secretion of mucous material that is a proteoglycan of the chondroitin sulfate group.