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Different electrophysiological profiles of genetically labelled dopaminergic neurons in the mouse midbrain and olfactory bulb

Published version
Peer-reviewed

Repository DOI


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Authors

Lau, Maggy Yu Hei 

Abstract

Dopaminergic (DA) neurons play pivotal roles in diverse brain functions, spanning movement, reward processing, and sensory perception. DA neurons are most abundant in the midbrain (Substantia Nigra pars compacta, SNC, and Ventral Tegmental Area, VTA) and the olfactory bulb (OB) in the forebrain. Interestingly, a subtype of OB DA neurons is capable of regenerating throughout life, while a second class is exclusively born during embryonic development. Compelling evidence in SNC and VTA also indicates substantial heterogeneity in terms of morphology, connectivity, and function. To further investigate this heterogeneity and directly compare form and function of midbrain and forebrain bulbar DA neurons, we performed immunohistochemistry and whole-cell patch-clamp recordings in ex vivo brain slices from juvenile DAT-tdTomato mice. After confirming the penetrance and specificity of the dopamine transporter (DAT) Cre line, we compared soma shape, passive membrane properties, voltage sags and action potential firing across midbrain and forebrain bulbar DA subtypes. We found that each DA subgroup within midbrain and OB was highly heterogeneous, and that DA neurons across the two brain areas are also substantially different. These findings complement previous work in rats as well as gene expression and in vivo datasets, further questioning the existence of a single “dopaminergic” neuronal phenotype.

Description

Publication status: Published


Funder: Newton Trust ISSF Grant

Keywords

dopamine, immunohistochemistry, midbrain, olfactory bulb, patch clamping (electrophysiology), Mice, Rats, Animals, Dopaminergic Neurons, Substantia Nigra, Olfactory Bulb, Mesencephalon, Ventral Tegmental Area, Red Fluorescent Protein

Journal Title

European Journal of Neuroscience

Conference Name

Journal ISSN

0953-816X
1460-9568

Volume Title

Publisher

Wiley
Sponsorship
Royal Society (RGS/R1/191481)
BBSRC (BB/W014688/1)
This work was supported by a Royal Society Research RGS\R1\19148, an UKRI BSRC BB/W014688/1 and an ISSF Grant to EG, and two Physiology, Development and Neuroscience Departmental Research Grants to SJ and EG.
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