1. Extracellular matrix remodeling through endocytosis and resurfacing of Tenascin-R
- Author
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Tal M. Dankovich, Rahul Kaushik, Linda H. M. Olsthoorn, Gabriel Cassinelli Petersen, Philipp Emanuel Giro, Verena Kluever, Paola Agüi-Gonzalez, Katharina Grewe, Guobin Bao, Sabine Beuermann, Hannah Abdul Hadi, Jose Doeren, Simon Klöppner, Benjamin H. Cooper, Alexander Dityatev, and Silvio O. Rizzoli
- Subjects
Male ,metabolism [Extracellular Matrix] ,Science ,General Physics and Astronomy ,Golgi Apparatus ,Vesicle trafficking ,Membrane trafficking ,Molecular neuroscience ,General Biochemistry, Genetics and Molecular Biology ,Article ,Epitopes ,Mice ,physiology [Neuronal Plasticity] ,Animals ,metabolism [Membrane Transport Proteins] ,Neurons ,Extracellular Matrix Proteins ,Multidisciplinary ,Neuronal Plasticity ,metabolism [Extracellular Matrix Proteins] ,Brain ,Membrane Transport Proteins ,Tenascin ,General Chemistry ,metabolism [Synapses] ,metabolism [Tenascin] ,Endocytosis ,Cellular neuroscience ,Extracellular Matrix ,Mice, Inbred C57BL ,metabolism [Brain] ,metabolism [Neurons] ,tenascin R ,Synapses ,ddc:500 - Abstract
The brain extracellular matrix (ECM) consists of extremely long-lived proteins that assemble around neurons and synapses, to stabilize them. The ECM is thought to change only rarely, in relation to neuronal plasticity, through ECM proteolysis and renewed protein synthesis. We report here an alternative ECM remodeling mechanism, based on the recycling of ECM molecules. Using multiple ECM labeling and imaging assays, from super-resolution optical imaging to nanoscale secondary ion mass spectrometry, both in culture and in brain slices, we find that a key ECM protein, Tenascin-R, is frequently endocytosed, and later resurfaces, preferentially near synapses. The TNR molecules complete this cycle within ~3 days, in an activity-dependent fashion. Interfering with the recycling process perturbs severely neuronal function, strongly reducing synaptic vesicle exo- and endocytosis. We conclude that the neuronal ECM can be remodeled frequently through mechanisms that involve endocytosis and recycling of ECM proteins., Synapses are surrounded by an extracellular matrix (ECM) of extremely long-lived proteins that is thought to only be remodeled by proteolysis and de novo synthesis. Here, the authors show an alternative molecular recycling mechanism that occurs for the key ECM protein Tenascin-R.
- Published
- 2020
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