Sterol manipulation that modulates the alteration in membrane fluidity of Tetrahymena pyriformis during temperature acclimation.

Our previous results [Umeki and Nozawa (1983) Biochem. Biophys. Res. Commun. 113, 96-101] suggested that ergosterol-replaced Tetrahymena cells (ergosterol-cells) accomplish an adaptive modification of fatty-acid composition by a preferential increase in palmitoyl-CoA desaturase activity, which is principally due to the increased content of the terminal component (cyanide-sensitive factor) of the desaturase system. The present study was designed to obtain information as to how the membrane fluidity of ergosterol-cells is changed during cold temperature acclimation. The order parameter (S) of liposomes prepared from ergosterol-cell lipids was reduced more rapidly after a temperature shift-down than that of control liposomes prepared from native cells containing tetrahymanol. These results indicate that, unlike native cells containing tetrahymanol, ergosterol-cells strive to accomplish cold temperature acclimation by undergoing a great modification of membrane fluidity because of the altered microsomal desaturase activity.