Ultrastructural Modification of Ram Sperm Frozen with Cyclohexanediol and Trehalose.

In this study, the effects of trehalose and 1, 3-cyclohexanediol (1, 3-CHD) on the ultrastructure of frozen-thawed ram sperm were assessed and compared. In the control group, sperm were frozen without trehalose and 1, 3-CHD. In the trehalose group, 100 mM trehalose was used for sperm cryopreservation. In the cyclohexanediol group, the freezing extender contained 100 mM 1, 3-CHD. The transmission electron microscope (TEM) was used to observe the ultrastructural alterations of sperm. For verification of the TEM results, the plasma membrane and acrosome integrity of ram frozen sperm was assessed. Three fertility-proven rams were used in this study. Semen collection was repeated 6 times. The collected semen was pooled to preclude the individual difference each time. The sperm collected from a representative ram were used for ultrastructural observation. The TEM results indicated extensive and severe cryoinjuries on the main organelles of ram frozen sperm. Some alterations in plasma membrane, including detachment, rupture, dilation, or loss, appeared in post-thaw sperm. The bending shape and leakage of genetic materials were also observed in the nucleus. In addition, the outer acrosome membrane in some frozen sperm was broken or partly lost. Further, leakage of the inner contents of acrosomes also occurred. Sperm mitochondria was negatively influenced by cryopreservation. With 1, 3-CHD or trehalose, the percentage of sperm with normal acrosomes was 62% or 64%, and it was significantly higher than that of the control (41.51%, p  < 0.05). However, different from trehalose, 1, 3-CHD cannot efficiently protect the post-thaw integrity of the plasma membrane (48.09% vs. 26.92%, p  < 0.05). The TEM results were consistent with the quality assessment of frozen-thawed sperm. Collectively, trehalose and 1, 3-CHD can mitigate cryoinjuries on sperm ultrastructure. The cryoprotective effects of trehalose on sperm plasma membrane are superior to 1, 3-CHD. Sperm plasma membrane is the most sensitive to cryoinjuries, followed by acrosomes, mitochondria, and nuclei.