Evidence that Hypothalamic Neuropeptide Y Gene Expression Increases Before the Onset of the Preovulatory LH Surge*

Abstract

Neuropeptide Y (NPY), a 36 amino acid residue peptide, is involved in stimulation of LHRH and LH surges on proestrus and those induced by ovarian steroids in ovariectomized (ovx) rats. Recently, we observed that NPY gene expression in the medial basal hypothalamus (MBH) was increased before the onset of the LH surge in the ovarian steroid‐primed ovx rats. Since the ovarian steroidal milieu during the estrous cycle is markedly different from that prevailing after ovarian steroid injections in ovx rats, we evaluated in cycling rats the temporal relationship between MBH preproNPY mRNA levels and the preovulatory LH surge on the day of proestrus and compared that with diestrus II, concomitant with basal LH levels. PreproNPY mRNA levels in the MBH were measured by solution hybridization/RNAse protection assay, using a cRNA probe. On the day of diestrus II, preproNPY mRNA levels changed little between 1000 and 1800 h. Quite unexpectedly, preproNPY mRNA levels at 1000 h on proestrus were similar to diestrus II levels, despite additional exposure to ovarian steroids during this interval. However, from these low levels at 1000 h, the preproNPY mRNA profile displayed a biphasic rise. During the first phase, preproNPY mRNA rose significantly at 1200 h and remained elevated at 1300 and 1400 h concomitant with basal serum LH levels. Thereafter, a second rise in preproNPY mRNA began at 1500 h, peaked rapidly at 1600 h and declined significantly at 1800 h. This secondary activation of NPY gene expression occurred with a slow, two‐fold increase in serum LH at 1500 h, followed by a rapid ascension to peak levels at 1800 h and was associated with an increase at 1400 h of serum progesterone levels which reached their peak at 1800 h. These results demonstrate that a dynamic, biphasic augmentation in hypothalamic NPY gene expression occurs selectively on proestrus, and that the first incremental response is observed some time before the onset of preovulatory LH hypersecretion. Because preproNPY mRNA levels at 1000 h on proestrus were similar to the low levels seen on the preceding diestrous II phase, a neural timing mechanism, and not changes in ovarian hormone levels during this phase may be responsible for the increase in NPY gene expression after 1000 h of proestrus. Because of our previous observations that progesterone can rapidly augment preproNPY mRNA in the MBH and because a rise in serum progesterone occurs hours before the onset of the LH surge, we suggest that the secondary rise in preproNPY mRNA is facilitated by this antecedent increase in serum progesterone. Cumulatively, these results are in accord with the thesis that activation of hypothalamic NPY gene expression is one of the key early neural events initiated by the neural clock that times the preovulatory LHRH and LH surges.