Ventral Tegmental Area GABA, glutamate, and glutamate-GABA neurons are heterogenous in their electrophysiological and pharmacological properties

Abstract

AbstractThe ventral tegmental area (VTA) contains dopamine neurons intermixed with GABA-releasing (expressing vesicular GABA transporter, VGaT), glutamate-releasing (expressing vesicular glutamate transporter, VGluT2), and co-releasing (co-expressing VGaT and VGluT2) neurons. By delivering INTRSECT viral vectors into VTA of double vglut2-Cre/vgat-Flp transgenic mice, we targeted specific VTA cell populations for ex vivo recordings. We found that VGluT2+ VGaT− and VGluT2+ VGaT+ neurons on average had relatively hyperpolarized resting membrane voltage, greater rheobase, and lower spontaneous firing frequency compared to VGluT2− VGaT+ neurons, suggesting that VTA glutamate-releasing and glutamate-GABA co-releasing neurons require stronger excitatory drive to fire than GABA-releasing neurons. In addition, we detected expression of Oprm1mRNA (encoding μ opioid receptors, MOR) in VGluT2+ VGaT− and VGluT2− VGaT+ neurons, and their hyperpolarization by the MOR agonist DAMGO. Collectively, we demonstrate the utility of the double transgenic mouse to access VTA glutamate, glutamate-GABA and GABA neurons, and show some electrophysiological heterogeneity among them.Impact StatementSome physiological properties of VTA glutamate-releasing and glutamate-GABA co-releasing neurons are distinct from those of VTA GABA-releasing neurons. μ-opioid receptor activation hyperpolarizes some VTA glutamate-releasing and some GABA-releasing neurons.