Med. Weter. 72 (3), 157-161, 2016
full text
Janowski T., Zduńczyk S., Malinowska K. |
Current views on the control of the endocrine function of the corpus luteum in dogs |
This paper presents current information on the regulatory mechanism of the endocrine function of the
corpus luteum in cyclic and pregnant dogs. Corpus luteum function in the first half of diestrus or pregnancy
(< day 30) is independent of gonadotrophins. The mechanisms regulating corpus luteum function in this
phase are largely unknown. It seems that an important role in the controlling of progesterone biosynthesis
is played by StAR (steroidogenic acute regulatory protein) and 3β-HSD (3β-hydroxysteroid dehydrogenase).
Recently, it has been demonstrated that prostaglandin E2 acts luteotrophically by increasing the expression
of StAR. In addition, the action of progesterone on its receptors at the para-/autocrine level appears to serve
as a luteotrophic factor. There is no significant difference in the regulation of corpus luteum function between
pregnant and non-pregnant bitches during this time.
Corpus luteum function is fully gonadotrophin-dependent during the second half of diestrus. Prolactin and,
to a lesser extent, LH are the main luteotrophic factors. The slow process of luteal regression starts by day 30
after ovulation, and it takes place in spite of the increased availability of pituitary luteotrophic hormones (LH,
prolactin). During luteal regression, progesterone concentration gradually decreases. This decrease is caused
by a reduced expression of StAR and 3β-HSD, as well as by degenerative changes in the luteal cells. In nonpregnant
bitches, progesterone concentration decreases slowly and reaches baseline values 80-90 days after
ovulation. In pregnant bitches, on the other hand, progesterone decreases rapidly 1-2 days before parturition.
In non-pregnant bitches, luteal regression is a passive process in the absence of luteolytic factors, whereas in
pregnant bitches, luteolysis is an active process. This is due to a rapid progesterone decrease to the threshold
level and the release of PGF2α from the fetal part of the placenta. |
Key words: dog, corpus luteum function, luteotrophic factors, regression, luteolysis |