Toxicity of cryoprotectants to honey bee semen and queens.

Given the threats to the intraspecific biodiversity of Apis mellifera and the pressure on bee breeding to come up with disease-tolerant lines, techniques to cryopreserve drone semen are of great interest. Freeze-thawed drone semen of high viability and/or motility has repeatedly been obtained, but fertility of such semen, when it was measured, was always low. The cryoprotective agent (CPA) most frequently used with drone semen is dimethyl sulfoxide (DMSO), although this substance has been suspected of causing genetic damage in sperm. No form of sperm washing is currently performed. Using a membrane permeability assay, we measured the short-term toxicity of four possible replacements for DMSO, 1,3-propane diol, 2,3-butane diol, ethylene glycol, and dimethyl formamide. We also tested whether the practice of inseminating queens with CPA-containing semen affects sperm numbers in the storage organs of queens, or sperm fertility. Finally, we tested whether CPA-toxicity in vivo can be reduced by using mixtures of two CPAs, DMSO, and ethylene glycol. Our results show that, although short-term toxicity of all CPAs tested was low, the presence of single CPAs in insemination mixtures at concentrations required for slow freezing greatly reduced the number of sperm reaching the spermatheca. Contrary to earlier reports, this was also true for DMSO. Ethylene glycol was additionally shown to reduce the viability of spermatozoa reaching the storage organ. Mixtures of DMSO and EthGly performed better than either substance used singly at the same concentration. We conclude that the toxicity of CPAs, including DMSO, on honey bee semen and/or queens has been underestimated in the past. This could partly explain the discrepancy between in vitro and in vivo quality of cryopreserved drone semen, described by others. Combinations of several CPAs and techniques to partly remove CPAs after thawing could help to solve this problem.