Jj. Bonavera et al., AGING RESULTS IN ATTENUATED GONADOTROPIN-RELEASING HORMONE-LUTEINIZING HORMONE AXIS RESPONSIVENESS TO GLUTAMATE-RECEPTOR AGONIST N-METHYL-D-ASPARTATE, Journal of neuroendocrinology, 10(2), 1998, pp. 93-99
Reproductive aging in the Brown Norway rat occurs because of testicula
r as well as hypothalamic-pituitary dysfunction. Excitatory amino acid
s (EAA) participate in the regulation of pulsatile secretion of hypoth
alamic GnRH and pituitary LH. In the present study, we studied the EAA
-GnRH-LH axis for possible age-related alterations in prepubertal (35
days), young (3-4 months), middle-aged (12-13 months) and old (21-23 m
onths) rats. In the first experiment, an intra-atrial cannula was impl
anted in rats of different ages to evaluate the pituitary response to
small, physiological intravenous bolus administration of GnRH (0.5 or
1.0 nmol/100 g body weight). The results showed no age-related signifi
cant differences in in-vivo serum LH or FSH responsiveness to GnRH. In
a second experiment, blood samples for the gonadotropins were withdra
wn immediately before and 10 min after an iv injection of the glutamat
e receptor agonist N-methyl-D-aspartate (NMDA; 5 mg/kg, a dose that in
duces a physiological LH pulse in young rats). Administration of NMDA
induced significant increases in LH and prolactin in all groups of ani
mals (P<0.05) and a significant FSH response in young and middle-aged
but not old rats. NMDA-induced LH, FSH and prolactin release was highe
r (P<0.05) in prepubertal rats than in all other age groups. Compared
with young rats, NMDA-induced increase in plasma LH and prolactin was
lower (P<0.05) in old rats. In the third experiment, to ascertain whet
her this reduced LH response to NMDA in old rats was exerted at the hy
pothalamic level, the effects of NMDA on GnRH release in vitro from pr
eoptic area-medial basal hypothalamus (POA-MBH) fragments were compare
d among rats of different ages. GnRH efflux in response to NMDA was si
gnificantly attenuated with increasing age. GnRH release in vitro was
higher in prepubertal and lower in old than in young rats (P<0.05). La
stly, we measured amino acid concentrations in hypothalamic tissue (PO
A-MBH fragments). Prepubertal rats had higher levels of glutamate and
taurine than young rats. Significant reductions in glutamate and gamma
-aminobutyric acid (GABA) levels were found in old compared to young r
ats. In conclusion, these results showed that the hypothalamic NMDA-Gn
RH-LH axis was altered in old rats. The decreased hypothalamic content
of some of the EAA and the reduced responsiveness of GnRH neurons to
NMDA (both in vivo and in vitro) may contribute to an altered LH pulsa
tile secretion observed in old rats.