Circadian Control of the Female Reproductive Axis Through Gated Responsiveness of the RFRP-3 System to VIP Signaling

Throughout most of the ovulatory cycle, estrogen negative feedback restrains the GnRH neuronal system. Just before ovulation, however, estrogen negative feedback is removed to permit stimulation of the preovulatory GnRH/LH surge (positive feedback) by the circadian clock in the suprachiasmatic nucle...

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Bibliographic Details
Published in:Endocrinology (Philadelphia) 2015-07, Vol.156 (7), p.2608-2618
Main Authors: Russo, Kimberly A, La, Janet L, Stephens, Shannon B. Z, Poling, Matthew C, Padgaonkar, Namita A, Jennings, Kimberly J, Piekarski, David J, Kauffman, Alexander S, Kriegsfeld, Lance J
Format: Article
Language:English
Subjects:
Animals
Circadian Clocks
Circadian Rhythm
Circadian rhythms
Control systems
Cricetinae
Estrogens
Estrous Cycle - metabolism
Feedback
Female
Females
Fibers
Gonadotropin-releasing hormone
Gonadotropin-Releasing Hormone - metabolism
Gonadotropins
Hamsters
Hybridization
Luteinizing hormone
Luteinizing Hormone - metabolism
Mesocricetus
Negative feedback
Neurons - metabolism
Neuropeptides - metabolism
Original Research
Ovulation
Ovulation - metabolism
Peptides
Pituitary (anterior)
Positive feedback
Receptors
Receptors, Vasoactive Intestinal Peptide, Type II - metabolism
Receptors, Vasoactive Intestinal Polypeptide, Type I - metabolism
Signal Transduction
Suprachiasmatic nucleus
Suprachiasmatic Nucleus - metabolism
Time dependence
Vasoactive agents
Vasoactive intestinal peptide
Vasoactive Intestinal Peptide - metabolism
Vasopressin
Vasopressins - metabolism
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Summary:Throughout most of the ovulatory cycle, estrogen negative feedback restrains the GnRH neuronal system. Just before ovulation, however, estrogen negative feedback is removed to permit stimulation of the preovulatory GnRH/LH surge (positive feedback) by the circadian clock in the suprachiasmatic nucleus (SCN). The mammalian ortholog of avian gonadotropin-inhibitory hormone, RFamide-related peptide 3 (RFRP-3), participates in the circadian-timed removal of estrogen negative feedback to permit the LH surge. The present study examined the specific neurochemical means by which the SCN controls RFRP-3 activity and explored whether the RFRP-3 system exhibits time-dependent responsiveness to SCN signaling to precisely time the LH surge. We found that RFRP-3 cells in female Syrian hamsters (Mesocricetus auratus) receive close appositions from SCN-derived vasopressin-ergic and vasoactive intestinal peptide (VIP)-ergic terminal fibers. Central VIP administration markedly suppressed RFRP-3 cellular activity in the evening, but not the morning, relative to saline controls, whereas vasopressin was without effect at either time point. Double-label in situ hybridization for Rfrp-3 and the VIP receptors VPAC1 and VPAC2 revealed that the majority of RFRP-3 cells do not coexpress either receptor in Syrian hamsters or mice, suggesting that SCN VIP-ergic signaling inhibits RFRP-3 cells indirectly. The timing of this VIP-mediated disinhibition is further coordinated via temporally gated responsiveness of RFRP-3 cells to circadian signaling. Together, these findings reveal a novel circadian hierarchy of control coordinating the preovulatory LH surge and ovulation.
ISSN:0013-7227
1945-7170
DOI:10.1210/en.2014-1762