Synaptophysin is involved in resetting of the mammalian circadian clock

Marie Aramendy; Sascha Seibert; Philipp Treppmann; Karin Richter; Gudrun Ahnert-Hilger; Urs Albrecht

doi:10.1186/1740-3391-11-11

Synaptophysin is involved in resetting of the mammalian circadian clock

Authors

Marie Aramendy Department of Biology, Unit of Biochemistry, University of Fribourg, Fribourg
Sascha Seibert AG Functional Cell Biology, Institute for Integrative Neuroanatomy, Charité Centre for Basic Medicine, Berlin
Philipp Treppmann AG Functional Cell Biology, Institute for Integrative Neuroanatomy, Charité Centre for Basic Medicine, Berlin
Karin Richter AG Functional Cell Biology, Institute for Integrative Neuroanatomy, Charité Centre for Basic Medicine, Berlin
Gudrun Ahnert-Hilger AG Functional Cell Biology, Institute for Integrative Neuroanatomy, Charité Centre for Basic Medicine, Berlin
Urs Albrecht Department of Biology, Unit of Biochemistry, University of Fribourg, Fribourg

DOI:

https://doi.org/10.1186/1740-3391-11-11

Keywords:

Light, Synaptic vesicles, Synaptobrevin

Abstract

Background: Mammals can adapt to changing light/dark conditions by advancing or delaying their circadian clock phase. Light pulses evoke changes in gene expression and neuronal activity in the suprachiasmatic nuclei (SCN), the central pacemaker of the circadian system. Alterations in neuronal activity are partially mediated by changes in synaptic vesicle (SV) fusion at the presynaptic membrane, which modulates release of neurotransmitters.

Methods: Male synaptophysin (Syp) knock-out and littermate control wild type mice were tested in an Aschoff type I resetting paradigm. Additionally, gene expression of cFos, Per1 and Per2 was assessed in the SCN. Finally, complexes between the synaptic vesicle proteins Syp and synaptobrevin (Syb) were studied in order to correlate behavior with protein complexes at synaptic vesicles.

Results: Here we show that mice lacking Syp, a modulator of neurotransmitter release, are defective in delaying clock phase. In contrast, clock phase advances as well as clock period are normal in Syp-/- knock-out mice. This correlates with the formation of Syp/Syb complexes.

Conclusions: Our findings suggest that Syp is involved specifically in the response to a nocturnal light pulse occurring in the early night. It appears that the SV component Syp is critically involved in the delay portion of the resetting mechanism of the circadian clock.

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Published

2013-10-01

Issue

Vol. 11 (2013)

Section

Research Article

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