L. Torner et al., Changes in the expression of neurohypophyseal prolactins during the estrous cycle and after estrogen treatment, J ENDOCR, 161(3), 1999, pp. 423-432
Estrogens are recognized regulators of the expression of neurohypophyseal h
ormones and of anterior pituitary prolactin (PRL). Here we have investigate
d whether the levels of PRL mRNA and of 23 and 14 kDa PRL variants present
in the hypothalamo-neurohypophyseal system change during the estrous cycle
or in response to estrogen treatment. The reverse transcription polymerase
chain reaction (RT-PCR) was performed to examine PRL mRNA expression in iso
lated paraventricular (PVN) and supraoptic (SON) hypothalamic nuclei. In bo
th nuclei PRL mRNA levels appeared higher in cycling females than in male r
ats, with the highest level occurring at estrus. This increase may involve
estrogen action, since estrogen administration to ovariectomized rats was a
ssociated with apparently higher PRL mRNA levels in both the PVN and SON. E
xpression of the PRL gene at these sites may occur via both transcriptional
factor Pit-1-dependent and -independent mechanisms. RT-PCR detected the mR
NA for Pit-1 in the PVN but only at estrus. The concentration of the 23 kDa
immunoreactive PRL determined in the neurohypophysis was significantly hig
her during estrus and after estrogen treatment. However, no difference was
detected in the levels of the neurohypophyseal 14 kDa PRL-like fragment alo
ng the estrous cycle nor after estrogen administration. This lack of parall
elism between neurohypophyseal PRLs could relate to an estrogen-induced inh
ibition of the proteolysis of 23 kDa PRL at this site, since estrogen treat
ment reduced the activity of neurohypophyseal proteolytic enzymes able to c
leave PRL. Altogether our results are consistent with estrogens having a st
imulatory effect on PRL. gene expression in the hypothalamo-neurohypophysea
l system and a concomitant inhibitory action on PRL proteolysis at this sit
e.