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Loss of neuropeptide signalling alters temporal expression of mouse suprachiasmatic neuronal state and excitability.

Authors :
Wegner, Sven
Belle, Mino D. C.
Chang, Pi‐Shan
Hughes, Alun T. L.
Conibear, Alexandra E.
Muir, Charlotte
Samuels, Rayna E.
Piggins, Hugh D.
Source :
European Journal of Neuroscience. Dec2024, Vol. 60 Issue 11, p6617-6633. 17p.
Publication Year :
2024

Abstract

Individual neurons of the hypothalamic suprachiasmatic nuclei (SCN) contain an intracellular molecular clock that drives these neurons to exhibit day‐night variation in excitability. The neuropeptide vasoactive intestinal polypeptide (VIP) and its cognate receptor, VPAC2, are synthesized by SCN neurons and this intercellular VIP‐VPAC2 receptor signal facilitates coordination of SCN neuronal activity and timekeeping. How the loss of VPAC2 receptor signalling affects the electrophysiological properties and states of SCN neurons as well as their responses to excitatory inputs is unclear. Here we used patch‐clamp electrophysiology and made recordings of SCN neurons in brain slices prepared from transgenic animals that do not express VPAC2 receptors (Vipr2−/− mice) as well as animals that do (Vipr2+/+ mice). We report that while Vipr2+/+ neurons exhibit coordinated day‐night variation in their electrical state, Vipr2−/− neurons lack this and instead manifest a range of states during both day and night. Further, at the population level, Vipr2+/+ neurons vary the membrane threshold potential at which they start to fire action potentials from day to night, while Vipr2−/− neurons do not. We provide evidence that Vipr2−/− neurons lack a component of voltage‐gated sodium currents that contribute to SCN neuronal excitability. Moreover, we determine that this aberrant temporal control of neuronal state and excitability alters neuronal responses to a neurochemical mimic of the light‐input pathway to the SCN. These results highlight the critical role VIP‐VPAC2 receptor signalling plays in the temporal expression of individual neuronal states as well as appropriate ensemble activity and input gating of the SCN neural network. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
0953816X
Volume :
60
Issue :
11
Database :
Academic Search Index
Journal :
European Journal of Neuroscience
Publication Type :
Academic Journal
Accession number :
181276082
Full Text :
https://doi.org/10.1111/ejn.16590