Nutritionally Responsive PMv DAT Neurons Are Dynamically Regulated During Pubertal Transition

Overview

Journal bioRxiv

Date 2025 Feb 20

PMID 39975315

Authors

Cristina Saenz de Miera

Nicole Bellefontaine

Marina A Silveira

Chelsea N Fortin

Thais T Zampieri

Jose Donato Jr

Jose Donato

Kevin W Williams

Cristiano Mendes-da-Silva

Laura Heikkinen

Christian Broberger

Renata Frazao

Carol F Elias

Affiliations

Soon will be listed here.

Abstract

Pubertal development is tightly regulated by energy balance. The crosstalk between metabolism and reproduction is orchestrated by complex neural networks and leptin action in the hypothalamus plays a critical role. The ventral premammillary nucleus (PMv) leptin receptor (LepRb) neurons act as an essential relay for leptin action on reproduction. Here, we show that mouse PMv cells expressing the dopamine transporter (DAT) gene, (PMv) form a novel subpopulation of LepRb neurons. Virtually all PMv neurons expressed mRNA and responded to acute leptin treatment. Electrophysiological recordings from DAT;tdTomato mice showed that PMv cells in prepubertal females have a hyperpolarized resting membrane potential compared to diestrous females. mRNA expression in the PMv was higher in prepubertal than in adult females. In prepubertal females mRNA expression was higher in overnourished females from small size litters than in controls. Prepubertal females showed decreased PMv mRNA expression, that recovered to control levels after 3 days of leptin injections. Using a tracer adenoassociated virus in the PMv of adult DAT;Kiss1 females, we observed PMv projections in the anteroventral periventricular and periventricular nucleus (AVPV/PeN), surrounding Kiss1 neurons, a population critical for sexual maturation and positive estrogen feedback in females. The DAT;tdTomato projections to the AVPV were denser in adult than in prepubertal females. In adults, they surrounded tyrosine hydroxylase neurons. Overall, these findings suggest that the DAT expressing PMv subpopulation play a role in leptin regulation of sexual maturation via actions on AVPV kisspeptin/tyrosine hydroxylase neurons.

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