Vglut2 expression in dopamine neurons contributes to post-lesional striatal reinnervation

Abstract

ABSTRACTIn Parkinson’s disease, the most vulnerable neurons are found in the ventral tier of the substantia nigra (SN), while the adjacent dopamine (DA) neurons of the ventral tegmental area (VTA) are mostly spared. Although a significant subset of adult VTA DA neurons expressesVglut2, a vesicular glutamate transporter, and release glutamate as a second neurotransmitter in the striatum, only very few adult SN DA neurons have this capacity. Previous work has demonstrated that lesions created by neurotoxins such as MPTP and 6-hydroxydopamine (6-OHDA) can upregulate the expression of Vglut2 in surviving DA neurons. Currently, the molecular mechanisms explaining the plasticity of Vglut2 expression in DA neurons are unknown, as are the physiological consequences for DA neuron function and survival. Here we aimed to characterize the developmental expression pattern of Vglut2 in DA neurons and the role of this transporter in post-lesional plasticity in these neurons. Using an intersectional genetic lineage-mapping approach, based on Vglut2-Cre and TH-Flpo drivers, we first found that more than 98% of DA neurons expressedVglut2at some point in their embryonic development. Expression of this transporter was detectable in most DA neurons until E11.5 and was found to be localized in developing axons. Moderate enhancement of VGLUT2 expression in primary DA neurons caused an increase in axonal arborization length. Compatible with a developmental role, constitutive deletion of Vglut2 caused a regional defect in TH-innervation of the dorsal striatum in E18.5 embryos. Moreover, using anin vitroneurotoxin model, we demonstrate thatVglut2expression can be upregulated in post-lesional DA neurons by 2.5-fold, arguing that the developmental expression ofVglut2in DA neurons can be reactivated at postnatal stages and contribute to post-lesional plasticity of dopaminergic axons. In support of this hypothesis, we find fewer mesostriatial dopaminergic projections in the striatum of conditional Vglut2 KO mice 7 weeks after a neurotoxic lesion, compared to control animals. Thus, we propose here that one of the functions of Vglut2 in adult DA neurons is to promote post-lesional recovery of meso-striatal axons.