Ontogeny and reversal of brain circuit abnormalities in a preclinical model of PCOS
Mauro S.B. Silva, … , Melanie Prescott, Rebecca E. Campbell
Mauro S.B. Silva, … , Melanie Prescott, Rebecca E. Campbell
Published April 5, 2018
Citation Information: JCI Insight. 2018;3(7):e99405. https://doi.org/10.1172/jci.insight.99405.
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Research Article Endocrinology Neuroscience

Ontogeny and reversal of brain circuit abnormalities in a preclinical model of PCOS

Abstract

Androgen excess is a hallmark of polycystic ovary syndrome (PCOS), a prevalent yet poorly understood endocrine disorder. Evidence from women and preclinical animal models suggests that elevated perinatal androgens can elicit PCOS onset in adulthood, implying androgen actions in both PCOS ontogeny and adult pathophysiology. Prenatally androgenized (PNA) mice exhibit a robust increase of progesterone-sensitive GABAergic inputs to gonadotropin-releasing hormone (GnRH) neurons implicated in the pathogenesis of PCOS. It is unclear when altered GABAergic wiring develops in the brain, and whether these central abnormalities are dependent upon adult androgen excess. Using GnRH-GFP–transgenic mice, we determined that increased GABA input to GnRH neurons occurs prior to androgen excess and the manifestation of reproductive impairments in PNA mice. These data suggest that brain circuit abnormalities precede the postpubertal development of PCOS traits. Despite the apparent developmental programming of circuit abnormalities, long-term blockade of androgen receptor signaling from early adulthood rescued normal GABAergic wiring onto GnRH neurons, improved ovarian morphology, and restored reproductive cycles in PNA mice. Therefore, androgen excess maintains changes in female brain wiring linked to PCOS features and the blockade of androgen receptor signaling reverses both the central and peripheral PNA-induced PCOS phenotype.

Authors

Mauro S.B. Silva, Melanie Prescott, Rebecca E. Campbell

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Figure 2

Increased GABAergic contact to GnRH neurons is present in prepubertal PNA mice.

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Increased GABAergic contact to GnRH neurons is present in prepubertal PN...
(A) Confocal images of control (N = 4; 45 neurons total) and prenatally androgenized (PNA) (N = 5; 51 neurons total) mice showing GnRH-GFP neurons (green) and vesicular GABA transporter–immunoreactive (VGAT-ir) puncta (red) in the rostral preoptic area. Scale bars: 10 μm. Inset images depict a selected confocal image stack of 1.15 μm thickness illustrating VGAT appositions at the level of GnRH neuron soma and dendrite. Red puncta (VGAT-ir) in close apposition to green GnRH neurons can appear as yellow or with a yellow halo as a result of overlap in confocal projections. White arrowheads point to putative GABA inputs onto the non-spiny GnRH neuron membrane and blue arrowheads show GABA inputs onto spines. Scale bars: 5 μm. (B) Neuronal compartments of bipolar GnRH neurons. Morphological criteria classified the primary dendrite as the thicker dendrite (with largest sectional area leaving the soma) and secondary dendrite as the thinner dendrite. Histograms depict total VGAT-ir apposition density on GnRH neurons (C) and per neuronal compartment (D). Total VGAT-ir apposition density onto the non-spiny GnRH neuron membrane (E), and per neuronal compartment (F). Total VGAT-ir apposition density onto GnRH neuron spines (G), and per neuronal compartment (H). Histogram values are represented as mean ± SEM with dot plot of individual values. *P < 0.05; Mann-Whitney U test. GnRH, gonadotropin-releasing hormone.