Morteza Abouzaripour1,2, Fardin Fathi1, Erfan Daneshi1,2, Keywan Mortezaee1,2, Mohammad Jafar Rezaie2, Mahdad Abdi1,3. 1. Cellular and Molecular Research Center, Kurdistan University of Medical Sciences, Sanandaj, Iran. 2. Department of Anatomy, School of Medicine, Kurdistan University of Medical Sciences, Sanandaj, Iran. 3. Department of Anatomy, School of Medicine, Kurdistan University of Medical Sciences, Sanandaj, Iran. Electronic address: mahdad.Abdi@muk.ac.ir.
In spite of great scientific breakthrough for in vitro maturation
(IVM), the number of mature oocytes obtained from
these methods and their fertilization rates is still too low. So,
researchers are trying to achieve a superior approach for in
vivo recapitulation of follicular environment. Thus far, many
elements have been surveyed to assess oocyte maturation
within follicular niche. Supplementation of maturation medium
with various complements is a promising method. The
active form of vitamin A, retinoic acid (RA), is an example
of these complements involved in very initial events of
mammalian reproduction, including follicular growth, oocyte
maturation, embryonic growth and its development (1).Positive effects of RA on IVM of cumulus oocyte complexes
have previously been described (2-5). Fibroblast
growth factors (FGFs) produced by theca and granulosa
cells are involved in diverse biological processes during
folliculogenesis, but the role of these factors during the ultimate
period of oocyte maturation remained yet unknown
(6). The present study was accomplished to survey the
combined role of RA and bFGF in IVM of mouse oocytes
to reach an optimal protocol. We propose that providing
dual supplementation of maturation medium with RA and
bFGF during IVM may probably be beneficial for oocyte
maturation and the subsequent embryo development.
Materials and Methods
In this experimental study, the animals were kept under
controlled conditions (12 hour light: 12 hour dark), fed
with water ad libitum. All procedures were performed in
accordance with the approval of the Institutional Animal
Care and Use Committee at the Kurdistan University of
Medical Sciences (MUK, Iran). All reagents were purchased from Sigma-Aldrich Co, USA.Outcome of oocytes IVM in different groups*; P<0.03 vs. bFGF, #; P<0.02 vs. control, $; P<0.02 vs. bFGF, @; P<0.001 vs. control and sham, IVM; In vitro maturation, GV; Germinal vesicle, GVBD; GV break down, MII; Miosis phase II, bFGF; Basic fibroblast growth factor, and RA; Retinoic acid.
Collection of immature mouse oocytes
Animals were superovulated by an intraperitoneal injection
of 10 IU pregnant mare’s serum gonadotropin (PMSG).
Mice were sacrificed 44 hours later by cervical dislocation
and their ovaries were placed in a-MEM culture medium
supplemented with 10% fetal bovine serum (FBS). Immature
oocytes in the germinal vesicle (GV) stage were mechanically
dissected using 26-G needles attached to a 1 ml
syringe under a stereo microscope (Olympus, Japan). The
collected GV-stage oocytes obtained from 2-months-old
NMRI mice were randomly divided into control, sham and
three experimental groups (7).
In vitro maturation
The collected GV-stage oocytes of each group were
placed in 25 µl drops of maturation medium consisting
of a-MEM supplemented with 10% FBS, 50 mg/l streptomycin,
60 mg/l penicillin and 10 ng/ml epidermal growth
factors (EGF), and then they were incubated in a humidified
atmosphere of 5% CO2 at 37°C for 24 hours.In the first experimental group, maturation medium was
incubated with 2 µM RA dissolved in pure ethanol (8),
and in the second experimental group, it was incubated
with 20 ng/ml bFGF (9). In the third experimental group,
combined RA and bFGF with the same concentrations was
added to the maturation medium. In the sham group, 0.2%
(v/v) ethanol was added to the maturation medium. After
24 hours, oocytes were observed under inverted microscope.
Nuclear maturation of GV stage was determined
by evaluation of morphological changes in the nucleus or
appearance of the first polar body (MΙΙ). Matured oocytes
were collected and used for in vitro fertilization (IVF).
In vitro culture and in vitro fertilization
Sperms of 12-weeks-old male NMRI mice were collected
from the tail of epididymis. Sperm suspension (1×106
motile spermatozoa/ml) was capacitated for 1 hour in 500
µl human tubular fluid (HTF) culture medium. In vitro
matured oocytes from each group were added to 100 µl
droplets of HTF to which 0.1 ml of capacitated spermatozoa
was added. After 5 hours of incubation, the oocytes
were washed with three droplets of HTF medium and
checked for appearance of the second polar body and formation
of male and female pronuclei indicating fertilization.
Then, oocytes were cultured in fresh droplets of M2
medium (25 µl) covered by mineral oil and assessed for
cleavage to the two-cells stage after 24 hours (1).
Statistical analysis
Data were analyzed using One-way ANOVA with a post-
hoc Tukey and presented as mean ± SD. The differences in
the values of maturation, fertilization and developmental
rates were considered significant at P<0.05. All computations
were carried out using SPSS 16 for Windows.
Results
In vitro maturation of mouse oocytes
Development of oocytes from GV break down
(GVBD) to two-cells stage has been shown in in the
Figure 1. The maturation rate of cultured GV-stage oocytes
was low in both control and sham groups with
31.66 ± 1.52 and 32.66 ± 0.57, respectively. As compared
with the control group, the rate of maturation
was significantly increased in the RA (P<0.001) and
bFGF+RA (P<0.002) groups with 58 ± 1 and 57 ± 3.46,
respectively. The rate of maturation was significant in
the RA (P<0.02) and bFGF+RA (P<0.03) groups compared
to the bFGF group (Table 1).
Table 1
Outcome of oocytes IVM in different groups
Group
GV numbersn
Arrested GV Mean ± SD
Degenerated GV Mean ± SD
GVBD Mean ± SD
MII Mean ± SD
Control
110
39.33 ± 2.08
10 ± 4
30.33 ± 1.52
31.66 ± 1.52
sham (ethanol)
120
41.33 ± 1.15
13.66 ± 2.30
34 ± 1.73
32.66 ± 0.57
bFGF
115
18.33 ± 1.52
12.33 ± 1.15
44.66 ± 3.21
40.66 ± 2.30
RA
125
16.33 ± 0.57
4.33 ± 0.57
47 ± 2
58 ± 1$,@
bFGF+RA
120
17.33 ± 2.30
6.33 ± 0.57
38.66 ± 1.15
57 ± 3.46*, #
*; P<0.03 vs. bFGF, #; P<0.02 vs. control, $; P<0.02 vs. bFGF, @; P<0.001 vs. control and sham, IVM; In vitro maturation, GV; Germinal vesicle, GVBD; GV break down, MII; Miosis phase II, bFGF; Basic fibroblast growth factor, and RA; Retinoic acid.
In vitro fertilization and development of mouse oocytes
Data from Table 2 showed that the bFGF+RA group had
a higher rate 83 ± 1.52 (47.7%) of two-cells development,
compared to the control 33 ± 1 (34%) (P<0.001). The number
was significant in the bFGF+RA group in comparison
with the bFGF (P<0.001, Table 2).
Table 2
The number and percentage of oocytes attaining the two-cells stage after 24 hours of culture
Group
Number of MIIn
Number of two-cells stage Mean ± SD (%)
Control
95
33 ± 1 (34)
sham (ethanol)
65
20 ± 0.57 (30)
bFGF
122
51 ± 1 (41)#
RA
174
58 ± 0.57 (50)*
bFGF+RA
116
83 ± 1.52 (47.7)*
*; P<0.001 vs. bFGF, sham and control, #; P<0.001 vs. all groups, MII; Miosis phase II, bFGF; Basic fibroblast growth factor, and RA; Retinoic acid.
The number and percentage of oocytes attaining the two-cells stage after 24 hours of culture*; P<0.001 vs. bFGF, sham and control, #; P<0.001 vs. all groups, MII; Miosis phase II, bFGF; Basic fibroblast growth factor, and RA; Retinoic acid.Oocytes in various stages of development. A. Germinal vesicle break down (GVBD), B. GV, C. Mature oocytes with polar bodies, and D. Two-cells stage.
Discussion
In the present survey, we compared the effect of RA and
bFGF on maturation of mouse oocytes and their further
development into two-cells stage. We found that separate
usage of either RA or bFGF in basic culture medium could
improve outcomes of IVM. Achieving an efficient culture
system for IVM is an important criterion in reproductive
research. The advantageous roles of retinol metabolites in
in vitro cytoplasmic maturation and embryonic development
have formerly been demonstrated (10, 11). Previous
studies reported that RA may stimulate follicle-stimulating
hormone (FSH) for induction of luteinizing hormone
(LH) receptors RA regulates progesterone generation and
reduces cAMP levels (12). It could also protect oocyte
against oxidative stress induced by apoptosis (13, 14)
through reduction of free oxygen radicals and interaction
with other antioxidant compounds (15).bFGF has been known as an oocyte competency factor
due to its formation from theca, granulosa and cumulus
cells throughout folliculogenesis (16). Researchers asserted
that bFGF is localized in the primordial and early
developing follicles, and that this growth factor stimulates
primordial follicle development and further cell growth
(17). Addition of bFGF to the medium has also been
shown to be beneficial in improvement of oocyte development
(18, 19). We found an increase in the number of
oocytes attaining two-cells stage after addition of bFGF to
the medium for 24 hours. This number was considerably
lower compared to the RA group. When combination of
RA and bFGF was used, there were no significant changes
compared to the RA group. Therefore we propose that
both RA and bFGF could improve IVM quality, and the
role of RA was more noticeable than that of bFGF to develop
into two-cells stage.
Conclusion
Our findings showed beneficial effects of 2 µM RA and
20 ng/ml bFGF on mouse oocyte IVM.
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