Rc. Chian et al., CAPACITATION IN-VITRO OF BOVINE SPERMATOZOA BY OVIDUCT EPITHELIAL-CELL MONOLAYER CONDITIONED MEDIUM, Molecular reproduction and development, 42(3), 1995, pp. 318-324
The effect of the active capacitating factor secreted from oviduct epi
thelial cell monolayers (OECM) in different environments on in vitro f
ertilization was evaluated. Capacitation was determined as the ability
of sperm to fertilize bovine oocytes in vitro. When the mTALP was sup
plemented with glucose during conditioning, the sperm penetration rate
was significantly reduced (P < 0.05) compared to the control (7% +/-
1 vs. 30% +/- 4). The percentages of sperm penetrated oocytes were hig
her following insemination in the OECM-conditioned medium derived from
the early stage (48% +/- 7) of the estrous cycle than in the OECM-con
ditioned medium derived from either mid (35% +/- 2) or late stages (28
% +/- 3) of the estrous cycle. When the medium was supplemented with 0
.1 or 0.5 mu g/ml estradiol-17 beta during medium conditioning, sperm
penetration rates increased (P < 0.05) compared to the control group (
55% +/- 4 vs. 40% +/- 3 and 54% +/- 2 vs. 41% +/- 3, respectively). In
addition, the percentages of penetrated oocytes significantly decreas
ed (P < 0.05) following insemination when the OECM-conditioned medium
was added to 0.01%, 0.05%, and 0.1% ethanol compared to the control (2
5% +/- 4, 19% +/- 2, 18% +/- 3, and 45% +/- 3, respectively). Sperm pe
netration rates significantly (P < 0.01) decreased when the OECM-condi
tioned medium was heated to 100 degrees C for 5 min (10% +/- 1 vs. 40%
+/- 3). These results suggest that the active capacitating factor was
sereted by the OECM and that this capacitating factor in the OECM-con
ditioned medium was inhibited by the presence of glucose. This factor
was found to be heat-sensitive and its action was affected by ethanol.
The OECM derived from the three phases of the estrous cycle as well a
s the presence of estradiol-17 beta influenced the capacity of the OEC
M to secrete this capacitating factor in vitro. (C) 1995 Wiley-Liss, I
nc.