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Rebecca Alyea and Cheryl Watson from the University of Texas Medical Branch investigated how physiological oestrogen levels might influence neurochemical pathways including dopamine signalling. The authors tested the rapid nongenomic effects of several physiological oestrogen's (estradiol, estrone, and estriol) on dopamine efflux via the DAT in a non-transfected rat neuronal cell culture model that expresses the three membrane oestrogen receptors ERα, ERß, and GPR30.
The authors found that estradiol-mediated dopamine efflux is DAT-specific and not dependent on extracellular Ca2+-mediated vesicular release of dopamine. Using kinase inhibitors they also showed that estradiol-mediated dopamine efflux is dependent on specific signaling kinases (protein kinase C and MEK, but not on PI3K or protein kinase A). While inhibiting dopamine efflux, estrone and estriol caused DAT to leave the plasma membrane.
Previous work by Alyea and Watson indicated that the suppression of efflux occurs mainly via ERα, and in this new study they show a physical association of ERα and ERß with DAT before and during oestrogen action, and trafficking of all three oestrogen receptors in and out of the plasma membrane during dopamine efflux.
"The significance of oestrogen-coupled regulation of the DAT by both direct and indirect (kinase-mediated) interactions between oestrogen receptors and the DAT should provide insights into how neurological diseases which involve the DAT are related to developmental, gender, and life stage issues," says Watson. "Such regulation may suggest new ideas about treatment and prevention of diseases associated with extreme hormonal fluctuations such as in postpartum depression."
Women experience significant oestrogen level changes at various life stages such as adolescence, menopause and as a result of monthly cycles. Women are also most likely to experience the onset or exacerbations of some neurological diseases at these times.