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Defining vitamin D receptor expression in the brain using a novel <scp>VDR<sup>Cre</sup></scp> mouse

Hailan Liu, Yang He, Jessie Beck, Silvania da Silva Teixeira, Keisha Harrison, Yong Xu, Stephanie Sisley

2020The Journal of Comparative Neurology43 citationsDOIOpen Access PDF

Abstract

Abstract Vitamin D action has been linked to several diseases regulated by the brain including obesity, diabetes, autism, and Parkinson's. However, the location of the vitamin D receptor (VDR) in the brain is not clear due to conflicting reports. We found that two antibodies previously published as specific in peripheral tissues are not specific in the brain. We thus created a new knockin mouse with cre recombinase expression under the control of the endogenous VDR promoter (VDR Cre ). We demonstrated that the cre activity in the VDR Cre mouse brain (as reported by a cre‐dependent tdTomato expression) is highly overlapping with endogenous VDR mRNAs. These VDR‐expressing cells were enriched in multiple brain regions including the cortex, amygdala, caudate putamen, and hypothalamus among others. In the hypothalamus, VDR partially colocalized with vasopressin, oxytocin, estrogen receptor‐α, and β‐endorphin to various degrees. We further functionally validated our model by demonstrating that the endogenous VDR agonist 1,25‐dihydroxyvitamin D activated all tested tdTomato + neurons in the paraventricular hypothalamus but had no effect on neurons without tdTomato fluorescence. Thus, we have generated a new mouse tool that allows us to visualize VDR‐expressing cells and to characterize their functions.

Topics & Concepts

Calcitriol receptorBiologyEndocrinologyInternal medicineHypothalamusEndogenyReceptorVitamin D and neurologyAgonistCell biologyGeneticsMedicineVitamin D Research StudiesNeuroendocrine regulation and behaviorStress Responses and Cortisol
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