Increased resistance to streptolysin O in mammalian cells treated with oxygenated derivatives of cholesterol.

L-cell fibroblast cultures were treated with certain oxygenated derivatives of cholesterol which are known to inhibit cholesterol biosynthesis in mammalian cells. After incubation in the presence of 20-alpha-hydroxycholesterol or 25-hydroxycholesterol for 18 h, the cells became increasingly resistant to streptolysin O. Maximum resistance to toxin was obtained by incubation for 48 h in 0.5 microgram of 20-alpha-hydroxycholesterol or 0.25 microgram of 25-hydroxycholesterol per ml; under these conditions, the cells were 10 to 50 times more resistant than were untreated controls. The ability of the hydroxycholesterol compounds to render the cells resistant was related to the age of the cultures. Maximum protection was found when more sparsely populated cultures were treated with 25-hydroxycholesterol. Older, heavily populated cultures could not be protected even with the high concentrations of 25-hydroxycholesterol. In contrast to control cultures, most of the toxin activity remained in the medium after being incubated with hydroxycholesterol-treated cultures. The results indicate that less toxin binds to the resistant cells and suggest that a reduction in membrane cholesterol content may account for resistance to streptolysin O.