Justyna Pielecka scite author profile

GnRH neurons are the central regulators of fertility, and their activity is modulated by steroid feedback. In women with hyperandrogenemic infertility and in animal models of these disorders, elevated androgen levels interfere with progesterone (P) negative feedback. Our previous work showed that steroids altered the frequency and amplitude of gamma-aminobutyric acid (GABA) transmission to GnRH neurons. Specifically, P inhibited GABA transmission, which can excite GnRH neurons, whereas dihydrotestosterone (DHT) increased GABA transmission. In this study the GnRH neuron firing rate was examined in the same animal models. Adult (>2 months) female mice were ovariectomized and treated for 8-12 d with implants containing estradiol (E), E and P, E and DHT, or E, P, and DHT. Targeted extracellular recordings were used to examine the long-term firing activity of green fluorescent protein-identified GnRH neurons in brain slices from these mice. In comparing E alone to E plus P animals, P increased the percentage of time that GnRH neurons were quiescent and reduced the area under the curve of the firing rate and the instantaneous firing frequency, suggesting that P provides additional negative feedback over E alone. The addition of DHT markedly increased GnRH neuron activity in both the presence and absence of P. DHT also altered the firing pattern of GnRH neurons, such that peaks in the firing rate detected by the Cluster8 algorithm were approximately doubled in frequency and amplitude. These data support and extend our previous findings and are consistent with the hypothesis that the changes in GABAergic transmission observed in these animal models impact upon the activity of GnRH neurons, and central androgen action probably stimulates GnRH release.

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Effect of Steroid Milieu on Gonadotropin-Releasing Hormone-1 Neuron Firing Pattern and Luteinizing Hormone Levels in Male Mice1

Pielecka

Moenter

2006

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GnRH neuronal function is regulated by gonadal hormone feedback. In males, testosterone can act directly or be converted to either dihydrotestosterone (DHT) or estradiol (E2). We examined central steroid feedback by recording firing of green fluorescent protein (GFP)-identified GnRH neurons in brain slices from male mice that were intact, castrated, or castrated and treated with implants containing DHT, E2, or E2 + DHT. Castration increased LH levels. DHT or E2 alone partially suppressed LH, whereas E2 + DHT reduced LH to intact levels. Despite the inhibitory actions on LH, the combination of E2 + DHT increased GnRH neuron activity relative to other treatments, reflected in mean firing rate, amplitude of peaks in firing rate, and area under the curve of firing rate vs. time. Cluster8 was used to identify peaks in firing activity that may be correlated with hormone release. Castration increased the frequency of peaks in firing rate. Treatment with DHT failed to reduce frequency of these peaks. In contrast, treatment with E2 reduced peak frequency to intact levels. The frequency of peaks in firing rate was intermediate in animals treated with E2 + DHT, perhaps suggesting the activating effects of this combination partially counteracts the inhibitory actions of E2. These data indicate that E2 mediates central negative feedback in males primarily by affecting the pattern of GnRH neuron activity, and that androgens combined with estrogens have a central activating effect on GnRH neurons. The negative feedback induced by E2 + DHT to restore LH to intact levels may mask an excitatory central effect of this combination.

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Justyna Pielecka

Androgens Increase Gonadotropin-Releasing Hormone Neuron Firing Activity in Females and Interfere with Progesterone Negative Feedback

Effect of Steroid Milieu on Gonadotropin-Releasing Hormone-1 Neuron Firing Pattern and Luteinizing Hormone Levels in Male Mice1

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