DO GONADOTROPIN-RELEASING-HORMONE, TYROSINE HYDROXYLASE-IMMUNOREACTIVE, AND BETA-ENDORPHIN-IMMUNOREACTIVE NEURONS CONTAIN ESTROGEN-RECEPTORS - A DOUBLE-LABEL IMMUNOCYTOCHEMICAL STUDY IN THE SUFFOLK EWE
Mn. Lehman et Fj. Karsch, DO GONADOTROPIN-RELEASING-HORMONE, TYROSINE HYDROXYLASE-IMMUNOREACTIVE, AND BETA-ENDORPHIN-IMMUNOREACTIVE NEURONS CONTAIN ESTROGEN-RECEPTORS - A DOUBLE-LABEL IMMUNOCYTOCHEMICAL STUDY IN THE SUFFOLK EWE, Endocrinology, 133(2), 1993, pp. 887-895
We used double label immunocytochemistry to examine the brains of ovar
iectomized ewes and determine whether GnRH, tyrosine hydroxylase-(TH),
and beta-endorphin-immunoreactive (IR) neurons contain IR-estrogen re
ceptors (ER). Because of their possible importance as a target for the
feedback actions of estradiol, we also examined the presence of nucle
ar ER in LH-IR cells of the pars tuberalis of the pituitary. Although
preoptic GnRH neurons were frequently in close proximity to ER-IR cell
s, only one out of approximately 1000 GnRH cells examined was found to
coexpress ER. In contrast, in the arcuate nucleus and vicinity, 3-5%
of TH cells and 15-20% of beta-endorphin cells contained ER. Virtually
all LH-IR cells, seen predominantly in the ventral portion of the par
s tuberalis, coexpressed ER. These results suggest that in sheep as in
rodents, the influence of estradiol on the reproductive neuroendocrin
e system is not directly mediated by GnRH neurons, but instead is conv
eyed to GnRH cells via presynaptic afferents. Subsets of TH- and beta-
endorphin-IR cells which coexpress ER are two candidates for relaying
gonadal steroid signals to GnRH cells. At the level of the pituitary,
the feedback actions of estradiol may be expressed directly upon the g
onadotroph.