Protein tyrosine phosphatase receptor type R is required for Purkinje cell responsiveness in cerebellar long-term depression

Authors
Erkens, MirtheTanaka-Yamamoto, KeikoCheron, GuyMarquez-Ruiz, JavierPrigogine, CynthiaSchepens, Jan T. G.Kasri, Nael NadifAugustine, George J.Hendriks, Wiljan J. A. J.
Issue Date
2015-01-09
Publisher
BMC
Citation
MOLECULAR BRAIN, v.8
Abstract
Background: Regulation of synaptic connectivity, including long-term depression (LTD), allows proper tuning of cellular signalling processes within brain circuitry. In the cerebellum, a key centre for motor coordination, a positive feedback loop that includes mitogen-activated protein kinases (MAPKs) is required for proper temporal control of LTD at cerebellar Purkinje cell synapses. Here we report that the tyrosine-specific MAPK-phosphatase PTPRR plays a role in coordinating the activity of this regulatory loop. Results: LTD in the cerebellum of Ptprr(-/-) mice is strongly impeded, in vitro and in vivo. Comparison of basal phospho-MAPK levels between wild-type and PTPRR deficient cerebellar slices revealed increased levels in mutants. This high basal phospho-MAPK level attenuated further increases in phospho-MAPK during chemical induction of LTD, essentially disrupting the positive feedback loop and preventing alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor (AMPAR) phosphorylation and endocytosis. Conclusions: Our findings indicate an important role for PTPRR in maintaining low basal MAPK activity in Purkinje cells. This creates an optimal 'window' to boost MAPK activity following signals that induce LTD, which can then propagate through feed-forward signals to cause AMPAR internalization and LTD.
Keywords
SIGNAL-REGULATED KINASE; PTP-SL; SYNAPTIC DEPRESSION; MAP KINASE; INOSITOL TRISPHOSPHATE; ARACHIDONIC-ACID; LATE-PHASE; ACTIVATION; PHOSPHORYLATION; INDUCTION; SIGNAL-REGULATED KINASE; PTP-SL; SYNAPTIC DEPRESSION; MAP KINASE; INOSITOL TRISPHOSPHATE; ARACHIDONIC-ACID; LATE-PHASE; ACTIVATION; PHOSPHORYLATION; INDUCTION; Cerebellum; ERK; Long-term synaptic plasticity; Knock-out mice; LTD; PTPBR7; PTP-SL
ISSN
1756-6606
URI
https://pubs.kist.re.kr/handle/201004/125873
DOI
10.1186/s13041-014-0092-8
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KIST Article > 2015
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