Central SELENOT deficiency impairs gonadotrope axis function, sexual behavior, and fertility in male and female mice
Ben Yamine Mallouki, Loubna Boukhzar, Ludovic Dumont, Azénor Abgrall, Marjorie Gras, Agathe Prieur, David Alexandre, David Godefroy, Yves Tillet, Nathalie Rives, Luca Grumolato, Fatiha Chigr, Youssef Anouar
Ben Yamine Mallouki, Loubna Boukhzar, Ludovic Dumont, Azénor Abgrall, Marjorie Gras, Agathe Prieur, David Alexandre, David Godefroy, Yves Tillet, Nathalie Rives, Luca Grumolato, Fatiha Chigr, Youssef Anouar
View: Text | PDF
Research Article Endocrinology Reproductive biology

Central SELENOT deficiency impairs gonadotrope axis function, sexual behavior, and fertility in male and female mice

Abstract

Reproductive disorders can result from a defective action of the neuropeptide gonadotropin-releasing hormone (GnRH), the master regulator of reproduction. We have previously shown that selenoprotein T (SELENOT), a newly described thioredoxin-like selenoprotein highly expressed in endocrine and neuroendocrine cells, plays a role in hormone secretion and neuroprotection. However, whether SELENOT is involved in neuroendocrine regulation in vivo is totally unknown. We found that SELENOT deficiency in the brain impaired sexual behavior, leading to a decline in fertility in both male and female mice. Biochemical and histological analyses of the gonadotrope axis of these mice revealed a higher expression of GnRH, which is associated with circulating luteinizing hormone (LH) excess, and elevated steroid hormones in males and a polycystic ovary syndrome–like phenotype in females. In addition, SELENOT deficiency impaired LH pulse secretion in both male and female mice. These changes were reverted after administration of a GnRH antagonist. Together, our data demonstrate for the first time to our knowledge the role of a selenoprotein in the central control of sexual behavior and reproduction, and identify a redox effector of GnRH neuron activity impacting both male and female reproductive function.

Authors

Ben Yamine Mallouki, Loubna Boukhzar, Ludovic Dumont, Azénor Abgrall, Marjorie Gras, Agathe Prieur, David Alexandre, David Godefroy, Yves Tillet, Nathalie Rives, Luca Grumolato, Fatiha Chigr, Youssef Anouar

×

Figure 1

Fertility assessment of brain SELENOT–deficient mice.

Options: View larger image (or click on image) Download as PowerPoint
Fertility assessment of brain SELENOT–deficient mice. (A) Pregnancy rate...
(A) Pregnancy rate corresponding to the percentage of mating resulting in pregnancy. The number of pregnant mice out of the number of mated females is indicated in each bar. Statistical significance for the pregnancy rate was assessed by the χ2 test. (B) Number of litters for each mated female. (C) Litter size. Data are expressed as mean ± SEM and were compared with the nonparametric Kruskal-Wallis test and a posthoc Dunn’s test. *P < 0.05; **P < 0.01; ***P < 0.001. Control females were paired with control males (n = 10 per group). Nes-Cre:Selenotfl/fl females were paired with Nes-Cre:Selenotfl/fl males (n = 8 per group). Control females were paired with Nes-Cre:Selenotfl/fl males (n = 8 per group). Nes-Cre:Selenotfl/fl females were paired with control males (n = 8 per group). Mating was performed during 5 months. Note that no statistical analysis could be performed for the pregnancy rate of the Nes-Cre:Selenotfl/fl group since only 1 mating out of 11 attempts led to pregnancy in this group, giving birth to 1 litter of 2 pups.