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  • Optogenetic activation of mGluR1 signaling in the cerebellum induces synaptic plasticity.

Optogenetic activation of mGluR1 signaling in the cerebellum induces synaptic plasticity.

iScience (2023-01-13)
Tatjana Surdin, Bianca Preissing, Lennard Rohr, Michelle Grömmke, Hanna Böke, Maike Barcik, Zohre Azimi, Dirk Jancke, Stefan Herlitze, Melanie D Mark, Ida Siveke
ABSTRACT

Neuronal plasticity underlying cerebellar learning behavior is strongly associated with type 1 metabotropic glutamate receptor (mGluR1) signaling. Activation of mGluR1 leads to activation of the Gq/11 pathway, which is involved in inducing synaptic plasticity at the parallel fiber-Purkinje cell synapse (PF-PC) in form of long-term depression (LTD). To optogenetically modulate mGluR1 signaling we fused mouse melanopsin (OPN4) that activates the Gq/11 pathway to the C-termini of mGluR1 splice variants (OPN4-mGluR1a and OPN4-mGluR1b). Activation of both OPN4-mGluR1 variants showed robust Ca2+ increase in HEK cells and PCs of cerebellar slices. We provide the prove-of-concept approach to modulate synaptic plasticity via optogenetic activation of OPN4-mGluR1a inducing LTD at the PF-PC synapse in vitro. Moreover, we demonstrate that light activation of mGluR1a signaling pathway by OPN4-mGluR1a in PCs leads to an increase in intrinsic activity of PCs in vivo and improved cerebellum driven learning behavior.

MATERIALS
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Product Description

Sigma-Aldrich
Anti-Glutamate Receptor 1A, Metabotropic (mGluR1A) antibody produced in rabbit, affinity isolated antibody, buffered aqueous glycerol solution