A Chinese Hamster Ovary Cell Mutant Resistant to Phosphatidylserine Is Defective in Transbilayer Movement of Cell Surface Phosphatidylserine

Abstract

A mammalian plasma membrane protein(s) which catalyzes ATP-dependent transbilayer movement (flip-flop) of phosphatidylserine (PS) has been suggested to be involved in the formation and maintenance of membrane lipid asymmetry. Flip-flop of PS in the cell surface of nucleated cells was first described by O.C. Martin and R.E. Pagano (1987,J. Biol. Chem.262, 5890–5898). It has been suggested that flip-flop is involved in the internalization of exogenous PS in cultured cells. In the present study we report that incubation with an excess amount of PS is cytotoxic to Chinese hamster ovary (CHO) cells, while the same amount of phosphatidylcholine gives no effect. This effect allowed us to obtain PS-resistant cells among mutagenized CHO cells. Endocytosis-independent internalization of exogenous fluorescent PS analog was defective in 40% of the PS-resistant mutants. One of the mutants, PSR (phosphatidylserine resistant) 406 was further characterized. Unlike wild-type CHO cells, this mutant did not transport fluorescent PS significantly at 15°C. Fluorescent PS was not metabolized at 15°C in either wild-type or mutant cells. These results suggest that transbilayer movement of cell surface PS is defective in PS-resistant cells.