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A presynaptic phosphosignaling hub for lasting homeostatic plasticity.

Cell reports (2022-04-21)
Johannes Alexander Müller, Julia Betzin, Jorge Santos-Tejedor, Annika Mayer, Ana-Maria Oprişoreanu, Kasper Engholm-Keller, Isabelle Paulußen, Polina Gulakova, Terrence Daniel McGovern, Lena Johanna Gschossman, Eva Schönhense, Jesse R Wark, Alf Lamprecht, Albert J Becker, Ashley J Waardenberg, Mark E Graham, Dirk Dietrich, Susanne Schoch
ANOTACE

Stable function of networks requires that synapses adapt their strength to levels of neuronal activity, and failure to do so results in cognitive disorders. How such homeostatic regulation may be implemented in mammalian synapses remains poorly understood. Here we show that the phosphorylation status of several positions of the active-zone (AZ) protein RIM1 are relevant for synaptic glutamate release. Position RIMS1045 is necessary and sufficient for expression of silencing-induced homeostatic plasticity and is kept phosphorylated by serine arginine protein kinase 2 (SRPK2). SRPK2-induced upscaling of synaptic release leads to additional RIM1 nanoclusters and docked vesicles at the AZ and is not observed in the absence of RIM1 and occluded by RIMS1045E. Our data suggest that SRPK2 and RIM1 represent a presynaptic phosphosignaling hub that is involved in the homeostatic balance of synaptic coupling of neuronal networks.

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Sigma-Aldrich
Anti-Rabbit IgG (H+L), highly cross-adsorbed, CF 568 antibody produced in goat, ~2 mg/mL, affinity isolated antibody
Sigma-Aldrich
Anti-Mouse IgG (H+L), CF 568 antibody produced in goat, ~2 mg/mL, affinity isolated antibody