3 SELECTION OF UNFRAGMENTED-DNA SPERMATOZOA FROM HEAT STRESSED MICE BY FEMALE UTERINE TRACT AND ZONA PELUCIDA BINDING

Abstract

Physiological bases of the sperm selection processes within the female reproductive tract before they meet and fertilize the oocyte are unknown. The aim of this work was to determine if one of the keys of spermatozoa selection could be DNA integrity. It has been reported that sperm DNA damage does not impair in vitro fertilization (IVF). However, it has been suggested that the zona pelucida (ZP) is able to select spermatozoa with unfragmented DNA (Liu and Baker 2007 Hum. Reprod. 22, 1597–1602). In this work, DNA damage of spermatozoa was artificially induced by scrotal heat treatment (HT) (42°C, 30 min). Twenty-one days after the HT, spermatozoa were recovered from the epididymis caudae of CD1 mice and from the uterine horns near the cervix (Uc), from the uterine horns near the oviducts (Uo), and from the oviducts (Ov) of CD1 females 1–2 h after mating with HT and control males. In each region we determined numbers of spermatozoa, individual motility and sperm DNA integrity by COMET assay (% DNA in tail, tail length, and COMET moment was calculated). Also, females naturally mated either with HT or control males were killed at Day 14 of pregnancy, and number of foetuses and resorptions was recorded. Additionally, IVF was performed with epididymal sperm from HT or control males, Two hours after IVF attached and un-attached spermatozoa to the ZP were recovered and samples were evaluated for sperm motility (CASA), sperm zona-binding, and sperm DNA fragmentation (COMET). Also cleavage rate of fertilized oocytes with sperm from HT or control males was analyzed. One-way ANOVA was used to compare the results form each group. Epididymal sperm count (12*106 and 4.4*106 for control and HT respectively), sperm motility (75 and 21% respectively) and testis weight (133.90 and 68.76 mg, respectively) were significantly reduced after heat treatment (P < 0.001). For the heat treatment, COMET values decreased significantly during the transit from Uc to Uo and from Uo to Ov (Tail DNA: 25.7, 23.5, and 14.4% respectively, P < 0.01; Tail length: 38.4, 29.4, and 11.2 pixels, P < 0.001; COMET Moment: 12.5, 8.5, and 2 respectively, P < 0.001). Heat treatment reduced numbers of foetuses (7 ± 0.5 v. 5 ± 0.49, control and HT group, respectively), but number of resorptions was not altered. Spermatozoa bound per ZP in IVF experiments (55 ± 7 and 13 ± 6, control and HT, respectively) and cleavage rate (61 ± 1 v. 15 ± 6, control and HT, respectively) were significantly reduced in the HT group. Two hours after IVF, spermatozoa attached to the ZP in HT group showed a significant decrease in COMET parameters as in tail length (59.46 ± 2.895 v. 34.66 ± 3.531), and in tail moment compared with unattached spermatozoa. Our results indicate that DNA integrity sperm selection mechanisms are present in both the female tract and the ZP. We suggest that genital tract and sperm-ZP binding process plays an important role in selection of sperm with normal chromatin DNA.