Biological interactions between cell membranes and glycerol or DMSO

Abstract

Human erythrocytes washed with phosphate buffered saline (PBS) were frozen for 1 or 16 min at temperatures ranging from −10 to −80 °C. Red cell suspensions contained either no protective agent or various concentrations of dimethylsulfoxide (DMSO) or glycerol. The similarities between cryoprotection by DMSO and glycerol reinforce Rapatz and Luyet's classification of cryoprotective agents into three types and support Mazur's two-factor theory of cryoprotection. However, there are important differences between the cryoprotective effects of DMSO and glycerol. The most noteworthy is that for all concentrations of DMSO a 16-min freezing exposure was equal to or more damaging than a 1-min exposure; the converse was true for 11.8 and 17.7% glycerol solutions. This and other differences suggest that the general mechanism of freeze-thaw damage and cryoprotection is more complex than described by Mazur's two-factor theory. Likewise cryoprotective agents cannot be consistently classified into two or three types. A multifactor theory was suggested as a more extensive model for understanding freeze-thaw damage and cryoprotection. The major new contribution of this theory is the idea of biological interaction. This latter refers to solutes in conjunction with various factors which disturb the steady state of the cell membrane. The change in the membrane may be reversible or irreversible depending upon the circumstances.