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Aging affects GABAergic function and calcium homeostasis in the mammalian central clock

Anneke H. O. Olde Engberink, Pablo de Torres Gutiérrez, Anna Chiosso, Ankita Das, Johanna H. Meijer, Stephan Michel

2023Frontiers in Neuroscience15 citationsDOIOpen Access PDF

Abstract

Introduction Aging impairs the function of the central circadian clock in mammals, the suprachiasmatic nucleus (SCN), leading to a reduction in the output signal. The weaker timing signal from the SCN results in a decline in rhythm strength in many physiological functions, including sleep–wake patterns. Accumulating evidence suggests that the reduced amplitude of the SCN signal is caused by a decreased synchrony among the SCN neurons. The present study was aimed to investigate the hypothesis that the excitation/inhibition (E/I) balance plays a role in synchronization within the network. Methods Using calcium (Ca 2+ ) imaging, the polarity of Ca 2+ transients in response to GABA stimulation in SCN slices of old mice (20–24 months) and young controls was studied. Results We found that the amount of GABAergic excitation was increased, and that concordantly the E/I balance was higher in SCN slices of old mice when compared to young controls. Moreover, we showed an effect of aging on the baseline intracellular Ca 2+ concentration, with higher Ca 2+ levels in SCN neurons of old mice, indicating an alteration in Ca 2+ homeostasis in the aged SCN. We conclude that the change in GABAergic function, and possibly the Ca 2+ homeostasis, in SCN neurons may contribute to the altered synchrony within the aged SCN network.

Topics & Concepts

Suprachiasmatic nucleusGABAergicHomeostasisCircadian rhythmEndocrinologyNeuroscienceInternal medicineCircadian clockStimulationBiologyCalcium metabolismCalciumChemistryMedicineInhibitory postsynaptic potentialCircadian rhythm and melatoninSleep and Wakefulness ResearchNeuroscience of respiration and sleep