Effect on the maleAlthough most of

Effect on the male
Although most of the effects described concerned
females, the effects of environmental estrogens on
males were demonstrated as well. ZEA in prepubertal
boars caused a reduction of libido and a decrease of
testosterone level in the plasma; however, the development
of sexual behaviour was not affected. In
young castrates it can result in the hypertrophy of
the mammary gland or edema of the prepucium. In
boars ZEA can cause reduced mass of the testicles.
Long-term exposure to a low concentration of ZEA
can cause the reduction of epididymis and seminal
vesicles development in young males (B e r g e r et
al., 1981; T s a k m a k i d i s et al., 2006; B e n z o n i
et al., 2008; M i n e r v i n i , D e l l ´ A q u i l a , 2008;
K a n o r a , M a e s , 2009; B h a t et al., 2010).
It has been demonstrated that phytoestrogens and
ZEA also affect male gametes – spermatozoa. The
action of phytoestrogens during incubation results in
a decrease in the induction of acrosomal reaction in
sperm and inhibition of the binding of sperm to the
zona pellucida, whereas in bovine spermatozoa motility,
viability and capacitation are not affected (H ä g e l e
et al., 1998; H i n s c h et al., 2000; M e n z e l et al.,
2007). Studies by M o h a m e d et al. (2011) showed
that the effects of phytoestrogen genistein on the capacitation
of porcine sperm are comparable to those of
endogenous estrogens. On the contrary, in human sperm
the phytoestrogen genistein significantly accelerates
capacitation and acrosome loss, which can lead to the
inability to fertilize the oocyte (F r a s e r et al., 2006;
C e d e r r o t h et al., 2010). Genistein, in comparison
to 17β-estradiol, has stronger effects on stimulation
of acrosomal reaction in pig sperm (M o h a m e d et
al., 2011). On the other hand, F u r u y a et al. (1992)
and P a r k et al. (2011) mention that the addition of
genistein strongly inhibits capacitation in mice sperm.
The above-mentioned authors agree that genistein
has no effect on motility; however, K u m i - D i a k a ,
To w n s e d (2001) recorded that higher concentrations
of genistein result in significant interference with the
number of motile spermatozoa, whereas morphology is
not affected. P a r k et al. (2011) recorded that genistein
(100μM in medium) decreased the reactivity of murine
sperm acrosome after short-term exposure (15 min)
contrary to prolonged exposure (30 min), which had a
stimulative effect. In the case of bovine sperm, after 25
min of genistein exposure (7.4μM in medium), acrosome
reaction was inhibited (H i n s c h et al., 2000).
ZEA can negatively affect the stability of chromatin
and the motility of boar spermatozoa (B e n z o n i etal., 2008) as well as damage the plasmatic membrane
of sperm, and reduce the percentage of sperm with
reactive acrosome (T s a k m a k i d i s et al., 2006).
The effect of ZEA on qualitative parameters for
IVF systems was examined by a long-term (one week)
incubation of boar spermatozoa with this contaminant,
and no significant changes in penetration as a whole,
or in monospermy and polyspermy oocyte fertilization,
were recorded. In the same way, there were no
negative effects on the cleavage and development of
blastocystes after in vitro fertilization. After three
weeks of incubation the motility, viability, and plasma
membrane integrity were significantly reduced compared
with non-stored sperm (S a m b u u et al., 2013).