Chronic Undernutrition Inhibits KNDy Neurons in Ovariectomized Ewe Lambs

Abstract

Undernutrition negatively impacts reproductive success, at least in part, through a central suppression of GnRH secretion. Given that GnRH neurons are devoid of receptors for peripheral metabolic hormones such as leptin and insulin, nutritional regulation of GnRH secretion must be through afferent input. Neurons which co-express kisspeptin, neurokinin B (NKB), and dynorphin, termed KNDy neurons, are a unique population of cells in the arcuate nucleus (ARC) of the hypothalamus and are believed to play a critical role in GnRH/LH pulse generation. With our recent evidence that chronic feed restriction reduced kisspeptin and NKB in young, castrated male sheep, we hypothesized that nutrient restriction would inhibit expression of the KNDy neuron peptides kisspeptin and NKB, while increasing dynorphin expression in young, ovariectomized female sheep. Fifteen ewe lambs were ovariectomized and were fed to maintain body weight (n=7; Fed) or feed-restricted to lose 20% of pre-study body weight (FR; n=8). Blood samples were taken weekly every 12 minutes for 4.5 hours via jugular venipuncture and plasma was stored at -20°C until assessment of LH using radioimmunoassay. Body weights were recorded weekly and feed amounts were adjusted to achieve desired body weights. Following blood collection at Week 13, animals were euthanized, brain tissue was perfused with 4% paraformaldehyde, and tissue containing the hypothalamus was collected for assessment of KNDy neuropeptide mRNA abundance by in situ hybridization (RNAscope). At Week 13, the average percent change in body weight was clearly evident (Fed, 7.35 +/- 2.2% vs FR, -21.36 +/- 0.9%), and mean LH concentrations were lower in FR ewes (10.70 +/- 3.1 ng/ml) compared to Fed controls (20.98 +/- 3.8 ng/ml). Data analyzed to date for kisspeptin, NKB, and dynorphin in the ARC show that feed restriction reduced the number of kisspeptin mRNA-expressing cells (Fed, 165 +/- 25 vs FR, 9.25 +/- 6), the number of NKB mRNA-expressing cells (Fed, 141 +/- 28 vs FR, 24 +/- 5), and the number of dynorphin mRNA-expressing cells (Fed, 109 +/- 41 vs FR, 29.5 +/- 24). Together, these findings demonstrate that chronic feed restriction suppresses KNDy neurons and supports a role for these key reproductive neurons in the central mechanism governing GnRH/LH secretion during undernutrition in female sheep.