Estrogen-dependent sex difference in microglia in the developing brain of Japanese quail (Coturnix japonica)

Brain sexual differentiation is a developmental process leading to the establishment of stable neural sex differences. In birds and rodents, this process is largely driven by estrogens during a critical period. In rodents, estrogens drive the masculiniza- tion of the brain, a process that partly depends on microglia. In contrast, in birds, estrogens produced by females induce demasculinization, but whether microglia are involved in this process is unknown. This study assessed whether microglial num- ber, morphology, and/or activity differ between the sexes in selected regions of the developing quail brain and whether they are influenced by estrogens. We found a robust female-biased sex difference in microglial numbers between embryonic day 9 and 12 in the medial preoptic nucleus (POM), a key region for the expression of male sexual behavior. This difference relies on estrogens produced during the sensitive period. Although most embryonic microglia express iNOS, the expression of iNOS in individual microglia does not differ between sexes. Finally, microglial number and the expression of iNOS were not affected by the microglia inhibitor minocycline. Together, these results revealed an estrogen-dependent sex difference in microglia during the critical period for the sexual differentiation of the quail brain. This differ- ence mirrors the different role of estrogens in the development of birds and rodents and suggests a role for microglia in the sexual differentiation of the brain of birds, as in rodents, thus supporting the hypothesis of a conserved role of the neuroimmune system in the organization of the brain by estrogens

Effect of cyclo-oxygenase inhibition on embryonic microglia and the sexual differentiation of the brain and behavior of Japanese quail (Coturnix japonica)

peer reviewedEnduring sex differences in the brain are established during a developmental process known as brain sexual differentiation and are mainly driven by estrogens during a critical period. In rodents, the masculinization of the preoptic area by estrogens derived from the central aromatization of testosterone depends in part on the interaction between microglia and prostaglandin E2 (PGE2), a pro-inflammatory hormone of the prostanoid subclass. In contrast, in birds, estrogens produced by females induce a demasculinization, but whether an interaction with the neuro-immune system is involved in this process is unknown. This study addressed this question by testing the effects of blockade of cyclo-oxygenases (COX), the rate-limiting enzymes for prostanoid synthesis, on embryonic microglia and the sexual differentiation of brain and behavior using the Japanese quail as an animal model. The results show that COX inhibition does not affect the behavior of females, but impairs male sexual behavior and suppresses the sex difference in microglial profiles at embryonic day 12 (E12) in the medial preoptic nucleus by increasing the number of microglia in males only. However, neither prostanoid concentrations nor PGE2 receptors differed between sexes in the hypothalamus and preoptic area (HPOA) during development. Overall, these results uncovered a potential role of prostanoids in the demasculinization of Japanese quail. Moreover, the parallel effect of COX inhibition on behavior and microglia suggests an interaction between prostanoids and microglia in brain demasculinization, thus fueling the hypothesis of a conserved role of the neuroimmune system in the organization of the brain by estrogens

Deux ensembles céramiques dans la vallée de l'Isère : la fouille du 119 rue de la République à Moirans (Isère)

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