1995
DOI: 10.1016/0006-8993(94)01385-u
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Changing patterns of Fos expression in brainstem catecholaminergic neurons during the rat oestrous cycle

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Cited by 47 publications
(26 citation statements)
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“…During most of the reproductive cycle estrogen receptor-␣ signaling inhibits GnRH, but in the late follicular stage it switches to positive feedback and causes a surge in GnRH and luteinizing hormone (LH) release. C1 cells may participate in the GnRH/LH surge but the evidence for this is limited (41,95,167). Alternatively, C1 neurons may inhibit GnRH, in particular, in response to physical stressors to conserve energy.…”
Section: C1 and Female Reproductive Functionmentioning
confidence: 99%
“…During most of the reproductive cycle estrogen receptor-␣ signaling inhibits GnRH, but in the late follicular stage it switches to positive feedback and causes a surge in GnRH and luteinizing hormone (LH) release. C1 cells may participate in the GnRH/LH surge but the evidence for this is limited (41,95,167). Alternatively, C1 neurons may inhibit GnRH, in particular, in response to physical stressors to conserve energy.…”
Section: C1 and Female Reproductive Functionmentioning
confidence: 99%
“…IHC was performed as described previously (Conde et al 1995) but on unfixed frozen 12 µm cryostat sections. Sections through the PVN were fixed in 4% paraformaldehyde for 10 min prior to immunostaining.…”
Section: Immunohistochemistry (Ihc)mentioning
confidence: 99%
“…Estrogen has been demonstrated to increase the electrical excitability of NE neurons projecting to the preoptic area (332) and also to stimulate Fos (333) and tyrosine hydroxylase (334) gene expression in A2 neurons. Furthermore, the number of A2 neurons expressing Fos increases on proestrus before the onset of the LH surge (333,335). Hence, estrogen may facilitate a diurnal pattern of NE secretion within the preoptic area by stimulating the A2 subpopulation to elevate NE release in the morning/early afternoon of proestrus (307,335).…”
Section: Neurotensinmentioning
confidence: 99%
“…Furthermore, the number of A2 neurons expressing Fos increases on proestrus before the onset of the LH surge (333,335). Hence, estrogen may facilitate a diurnal pattern of NE secretion within the preoptic area by stimulating the A2 subpopulation to elevate NE release in the morning/early afternoon of proestrus (307,335). In addition, there is good evidence for a presynaptic inhibition of NE release by ␤END in the preoptic area of the rat, and an estrogen-induced decrease in this tonic input may further contribute to the elevation of preoptic NE concentrations at the time of the LH surge (336 -339).…”
Section: Neurotensinmentioning
confidence: 99%