Cell membranes in cytotoxicity.

Silica particles are cytotoxic for macrophages because they damage the membranes around secondary lysosomes in which the particles are engulfed. Hydroxyl groups of silicic acid on the surface of the particles form hydrogen bonds with phosphate ester groups of phospholipids and disrupt a variety of natural and artificial membranes. Asbestos fibers induce secretion of hydrolytic enzymes from cultured macrophages. Magnesium hydroxide groups of chrysotile asbestos interact ionically with ionized sialic acid residues of membrane glycoproteins, increase passive cation flux and produce osmotic lysis. The terminal components of complement (C5b-C9) when inserted into the bilayer structure also increase passive cation flux and produce osmotic lysis. The small complement cleavage product C3a is lytic for several cell types, especially malignant cells. The mechanism by which specifically sensitized thymus-derived (T)-lymphocytes kill tumour cells is discussed. Plasma membranes from effector lymphocytes possess considerable cytolytic potential, which is dependent on the activity of a membrane-associated proteinase.