Morphological aspects of cell death associated with a cytolethal concentration of methylprednisolone sodium succinate (500 micrograms/ml) on the BLA1 lymphoblastoid cell line were studied over a 48-hr incubation period by light, transmission and scanning electron microscopy. Studies revealed two distinctive morphological changes induced by the steroid from 1 hr onwards after treatment. One showed contortion and "blebbing" of the cytoplasm and nucleus accompanied or followed by nuclear pyknosis, resulting in the formation of membrane-bounded bodies containing apparently normal cytoplasmic organelles with or without nuclear fragments. The other showed "rounding up" of the cell with loss of cytoplasmic protrusions and long slender surface processes, aggregation of well-preserved cytoplasmic organelles, accompanied by nuclear pyknosis and fragmentation. In both cases many of the features are typical of apoptosis. The subsequent degeneration of cells and fragments not unexpectedly resembled in vitro autolysis. This in-vitro system is suitable for studying the early biochemical events and intracellular control mechanisms of apoptosis.
Glucocorticoid hormones penetrate rapidly into intact lymphoblastoid cells and are retained with the same high affinity and specificity as with cytoplasmic extracts. Optimal conditions for lethal glucocorticoid responses in vitro were determined for a series of human lymphoblastoid cell lines by using different glucocorticoid preparations, and steroid solvents and by varying the cell density. Kinetic studies revealed that lethal glucocorticoid effects are dose-dependent and that continuous exposure of cells to steroid is necessary for progression of lethal effects to occur. Even under optimal conditions, human lymphoblastoid cells only exhibit a marked cytolethal response to glucocorticoids at concentrations which greatly exceed both physiological and therapeutically attainable steroid levels. They are also greatly in excess of steroid levels required to saturate the cytoplasmic receptors of intact or disrupted lymphoblastoid cells. It is suggested that either lethal steroid mechanisms in vitro differ fundamentally from those in vivo or the pharmacological activity of glucocorticoids in vivo does not involve a direct cytolethal action.
In the nematode C. elegans, cells undergoing programmed death in the developing ventral nerve cord were identified by Nomarski optics and prepared for ultrastructural study at various times after their birth in mitosis. The sequence of changes observed suggests that the hypodermis recognizes the dying cell before completion of telophase. The dying cell is engulfed and digestion then occurs until all that remains within the hypodermal cytoplasm is a collection of membranous whorls interspersed with condensed chromatin-like remnants. The process shares several features with apoptosis, the mode of programmed cell death observed in vertebrates and insects. The selection of cells for programmed death appears not to involve competition for peripheral targets.
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