Abstract
Prolactin (PRL) is a pleiotropic hormone that was identified in the context of maternal care and its release from the anterior pituitary is primarily controlled by neuroendocrine dopaminergic (NEDA) neurones of the arcuate nucleus of the hypothalamus. The sexually dimorphic nature of PRL physiology and associated behaviours is evident in mammals, even though the number and density of NEDA neurones is reported as not being sexually dimorphic in rats. However, the underlying circuits controlling NEDA neuronal activity and subsequent PRL release are largely uncharacterised. Thus, we mapped whole‐brain monosynaptic NEDA inputs in male and female mice. Accordingly, we employed a rabies virus based monosynaptic tracing system capable of retrogradely mapping inputs into genetically defined neuronal populations. To gain genetic access to NEDA neurones, we used the dopamine transporter promoter. Here, we unravel 59 brain regions that synapse onto NEDA neurones and reveal that male and female mice, despite monomorphic distribution of NEDA neurones in the arcuate nucleus of the hypothalamus, receive sexually dimorphic amount of inputs from the anterior hypothalamic nucleus, anteroventral periventricular nucleus, medial preoptic nucleus, paraventricular hypothalamic nucleus, posterior periventricular nucleus, supraoptic nucleus, suprachiasmatic nucleus, lateral supramammillary nucleus, tuberal nucleus and periaqueductal grey. Beyond highlighting the importance of considering sex as a biological variable when evaluating connectivity in the brain, these results illustrate a case where a neuronal population with similar anatomical distribution has a subjacent sexually dimorphic connectivity pattern, potentially capable of contributing to the sexually dimorphic nature of PRL release and function.
Highlights
Mammals show sexual dimorphism in social and sexual behaviours
We show that the anterior hypothalamic nu‐ cleus (AHN), aqnteroventral periventricular nucleus (AVPV), medial proptic nucleus (MPN), paraventricular hypothalamic nucleus (PVH), paraventricular hypothalamic nucleus preoptic (PVpo), supraoptic nucleus (SO), suprachiasmatic nucleus (SCH), supramammillary nu‐ cleus lateral part (SUMl), tuberal nucleus (TU) and periaqueductal grey (PAG) are sexually dimorphic in the relative contribution of their projections to neuroendocrine dopaminergic (NEDA) neurones, setting the stage for understanding the mechanisms underlying the regulation of PRL release and its function in both sexes
Here, we have shown that the number and distribution of dopamine active transporter (Dat)‐positive NEDA neurones in mice is similar between males and females, in accordance with previous studies,[37] implying that the di‐ morphism in PRL physiology, such as higher PRL concentration in the blood of females,[5] and associated behaviours must arise from other sources
Summary
Mammals show sexual dimorphism in social and sexual behaviours. Despite the relevance of sex‐specific behaviours for the reproductive success of each species, the brain circuitry underlying sex‐specific behaviours is largely unknown. Prolactin (PRL) is a non‐gonadal pleiotropic peptide hormone primarily released by the anterior pituitary gland.[5] Originally named after its role in lactation,[6] PRL is released in response to innumerous external factors and physiological states.[7] some, such as stress,[8,9] are shared by both sexes, others are sexually dimorphic The latter ones include the release of PRL in response to nipple stim‐ ulation in lactating females,[5] the PRL circadian surges in naturally cycling females,[10,11] and PRL release during copulation in males.[12] In females, PRL is fundamental in organising a series of physiological and behavioural programmes that prepare individuals for mother‐ hood: it decreases female receptivity after fertilisation,[13] and promotes food intake[14] and maternal behaviour.[15,16] All of these programmes are fundamental to ensure the survival of the progeny. The role of PRL in male‐specific behaviours is less well understood, it has been proposed that PRL release during copulation regulates libido.[17]
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