Estradiol enhances ethanol stimulation of ventral tegmental area dopamine neuron firing without limiting ethanol inhibition onto those neurons

Females can progress to alcohol and other substance use disorders more quickly than males. The ovarian hormone 17β-estradiol (E2) contributes to sex differences observed in drug use and abuse and may be a principal driver of these differences. However, it is not entirely clear how E2 acts to affect processing of ethanol reward, and several brain regions and mechanisms are implicated. We sought to clarify the role of E2 in modulating the response of ventral tegmental area dopamine neurons to ethanol. To this end, we recorded spontaneous action potentials and inhibitory post synaptic currents from dopaminergic neurons in acute horizontal brain slices from ovariectomized (OVX) dopamine neuron reporter mice (Pitx3-eGFP) treated with either vehicle (VEH) or E2. On the basis of prior work, we hypothesized that E2 administration would cause dopamine cells from OVX+E2 animals to show a more substantial ethanol-induced increase in firing rate compared to control animals. Our data confirmed that ethanol stimulation of the firing rate of dopamine neurons from OVX+E2 mice was greater than that of OVX+VEH animals. Further, we hypothesized that the firing rate increase would be accompanied by a concomitant decrease in ethanol stimulated inhibition onto those same neurons. We found that although ethanol caused the expected increase in GABAA receptor-mediated synaptic inhibition in both groups, there was no difference in this response between OVX+E2 and OVX+VEH animals. Our findings lend additional support for the ability of E2 to enhance ventral tegmental area dopamine neuron responses to ethanol and suggest that this effect is not mediated by an E2-elicited suppression of synaptic inhibition.