Freshly isolated protoplasts from tomato leaves show two completely different responses to a chilling treatment of 12 h at 7°C prior to culture at 29 ° C, depending on the presence or absence of glucose in the medium. In the culture medium with glucose as osmoticum, where the rate of cell divisions under optimal culture conditions is relatively high (about 20% plating efficiency), protoplasts were drastically injured by the chilling procedure and died. In the medium with mannitol as the osmoticum instead of glucose, where the plating efficiency even under optimal conditions is rather low (about 8%), protoplasts withstand the chilling procedure. Moreover, after the chilling treatment when the protoplasts were transferred to the optimal culture temperature of 29 ° C, the plating efficiency was raised to about 20%, which is the same level as in the glucose-containing medium without chilling. This effect was not observed when the medium in which the protoplasts were suspended during the chilling period was replaced with fresh medium. This suggests that under these conditions tomato protoplasts produce and excrete a factor in the cold that improves the vitality of the cells or stimulates cell division. The possible relationship between chilling sensitivity of tomato protoplasts and their ability to divide will be discussed.