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The β-Secretase Substrate Seizure 6–Like Protein (SEZ6L) Controls Motor Functions in Mice

Emma Ong-Pålsson, Jasenka Rudan Njavro, Yvette Wilson, Martina Pigoni, Andree Schmidt, Stephan A. Müller, Michaël Meyer, J. Hartmann, Marc Aurel Busche, Jenny M. Gunnersen, Kathryn M. Munro, Stefan F. Lichtenthaler

2021Molecular Neurobiology12 citationsDOIOpen Access PDF

Abstract

The membrane protein seizure 6-like (SEZ6L) is a neuronal substrate of the Alzheimer's disease protease BACE1, and little is known about its physiological function in the nervous system. Here, we show that SEZ6L constitutive knockout mice display motor phenotypes in adulthood, including changes in gait and decreased motor coordination. Additionally, SEZ6L knockout mice displayed increased anxiety-like behaviour, although spatial learning and memory in the Morris water maze were normal. Analysis of the gross anatomy and proteome of the adult SEZ6L knockout cerebellum did not reveal any major differences compared to wild type, indicating that lack of SEZ6L in other regions of the nervous system may contribute to the phenotypes observed. In summary, our study establishes physiological functions for SEZ6L in regulating motor coordination and curbing anxiety-related behaviour, indicating that aberrant SEZ6L function in the human nervous system may contribute to movement disorders and neuropsychiatric diseases.

Topics & Concepts

Motor coordinationKnockout mouseNeuroscienceMorris water navigation taskCerebellumNervous systemRotarod performance testPhenotypeCentral nervous systemNeurologyBiologyGene knockoutWater mazePsychologyHippocampusEndocrinologyReceptorMotor activityGeneBiochemistryAlzheimer's disease research and treatmentsCellular transport and secretionNeuroscience and Neuropharmacology Research
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