Freeze-thaw survival of the free-living nematode Caenorhabditis briggsae.

Abstract

Abstract Approximately 75% or more of the L2 and L3 juvenile stages of the free-living nematode Caenorhabditis briggsae survived freezing and thawing without loss of fertility. Optimum survival depended upon a combination of conditions: (1) pretreatment with 5% DMSO at 0 °C for 10 min, (2) 0.2 °C per minute cooling rate from 0 to −100 °C prior to immersion into liquid nitrogen, and (3) a 27.6 °C per minute warming rate from −196 °C to −10 °C. Storage at −196 °C for more than 100 days was without effect on viability or fertility. Some of the L4 (about 50%) and adult (about 3%) stages survive the routine freeze-thaw treatment. However, there was no recovery of either embryonic stages or embryonated eggs from −196 °C under these standard conditions. Either very fast cooling (about 545 °C/min) or fast warming (about 858 °C/min) rates diminished survival of the L2 and L3 stages drastically. Scanning electron microscopy revealed that freeze-thaw survivors with aberrant swimming behavior had cuticular defects. In juvenile forms, the altered swimming motion was lost after a molt whereas as abnormal adults grew, sinusoidal movement resumed. In the L4 and adult forms the cuticular abnormalities lowered viability and fertility. It is concluded that survival of nematodes from a freeze-thaw cycle is contingent upon establishing specific cryobiological conditions by varying aspects of the procedure that gave high recoveries of L2 and L3 stages.