Circadian Regulation of Gonadotropin-Releasing Hormone Neurons and the Preovulatory Surge in Luteinizing Hormone in the Diurnal Rodent, Arvicanthis niloticus, and in a Nocturnal Rodent, Rattus norvegicus

doi:10.1095/biolreprod.103.021360

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BOR - Papers in Press, published online ahead of print December 10, 2003.
Biol Reprod 2003, 10.1095/biolreprod.103.021360

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Submitted July 23, 2003
Returned for revision August 11, 2003
Accepted November 25, 2003

Neuroendocrinology

Circadian Regulation of Gonadotropin-Releasing Hormone Neurons and the Preovulatory Surge in Luteinizing Hormone in the Diurnal Rodent, Arvicanthis niloticus, and in a Nocturnal Rodent, Rattus norvegicus

Megan M Mahoney , Cheryl Sisk , Heather E. Ross , and Laura Smale ^*

^* To whom correspondence should be addressed. E-mail: smale{at}msu.edu.

Abstract
Daily rhythms in the timing of the preovulatory surge and thedisplay of reproductive behavior are reversed in diurnal andnocturnal rodents, but little is known about the neural mechanismsunderlying these differences. We examined this issue by comparinga diurnal murid rodent Arvicanthis niloticus (the grass rat)to a nocturnal one, Rattus norvegicus (the lab rat). In thefirst study, we established that sequential estradiol and progesteronetreatment induces a proestrous-like rise in LH secretion andin the percent of GnRH neurons that express Fos in grass rats,as is the case in lab rats. Next, we tested the hypothesisthat differences in the timing of estrus-related events in diurnaland nocturnal species are due to differences in rhythms in responsivenessto steroid hormones. We found rhythms in GnRH neuron activity,as indicated by Fos, were 12 h out of phase in grass rats andlab rats. These patterns persisted in both species when animalswere housed in constant darkness for 5 days, suggesting thatthey are driven by an endogenous circadian mechanism. Theseresults indicate that steroid-primed grass rats and lab ratsare similar with respect to the temporal relationship among estrus-relatedevents, but that the timing of these events relative to thelight-dark cycle is dramatically different, and that this differenceis due to endogenous circadian mechanisms.

Key words: Behavior • Neuroendocrinology • Circadian rhythm • Gonadotropin-releasing hormone • Luteinizing hormone

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