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Cover ArticleArticles, Development/Plasticity/Repair

Manduca Contactin Regulates Amyloid Precursor Protein-Dependent Neuronal Migration

Jenna M. Ramaker, Tracy L. Swanson and Philip F. Copenhaver
Journal of Neuroscience 17 August 2016, 36 (33) 8757-8775; DOI: https://doi.org/10.1523/JNEUROSCI.0729-16.2016
Jenna M. Ramaker
1Department of Cell, Developmental and Cancer Biology,
2Department of Pathology, and
3Neuroscience Graduate Program, Oregon Health & Science University, Portland, Oregon 97239
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Tracy L. Swanson
1Department of Cell, Developmental and Cancer Biology,
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Philip F. Copenhaver
1Department of Cell, Developmental and Cancer Biology,
3Neuroscience Graduate Program, Oregon Health & Science University, Portland, Oregon 97239
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Abstract

Amyloid precursor protein (APP) was originally identified as the source of β-amyloid peptides that accumulate in Alzheimer's disease (AD), but it also has been implicated in the control of multiple aspects of neuronal motility. APP belongs to an evolutionarily conserved family of transmembrane proteins that can interact with a variety of adapter and signaling molecules. Recently, we showed that both APP and its insect ortholog [APPL (APP-Like)] directly bind the heterotrimeric G-protein Goα, supporting the model that APP can function as an unconventional Goα-coupled receptor. We also adapted a well characterized assay of neuronal migration in the hawkmoth, Manduca sexta, to show that APPL–Goα signaling restricts ectopic growth within the developing nervous system, analogous to the role postulated for APP family proteins in controlling migration within the mammalian cortex. Using this assay, we have now identified Manduca Contactin (MsContactin) as an endogenous ligand for APPL, consistent with previous work showing that Contactins interact with APP family proteins in other systems. Using antisense-based knockdown protocols and fusion proteins targeting both proteins, we have shown that MsContactin is selectively expressed by glial cells that ensheath the migratory neurons (expressing APPL), and that MsContactin–APPL interactions normally prevent inappropriate migration and outgrowth. These results provide new evidence that Contactins can function as authentic ligands for APP family proteins that regulate APP-dependent responses in the developing nervous system. They also support the model that misregulated Contactin–APP interactions might provoke aberrant activation of Goα and its effectors, thereby contributing to the neurodegenerative sequelae that typify AD.

SIGNIFICANCE STATEMENT Members of the amyloid precursor protein (APP) family participate in many aspects of neuronal development, but the ligands that normally activate APP signaling have remained controversial. This research provides new evidence that members of the Contactin family function as authentic ligands for APP and its orthologs, and that this evolutionarily conserved class of membrane-attached proteins regulates key aspects of APP-dependent migration and outgrowth in the embryonic nervous system. By defining the normal role of Contactin–APP signaling during development, these studies also provide the framework for investigating how the misregulation of Contactin–APP interactions might contribute to neuronal dysfunction in the context of both normal aging and neurodegenerative conditions, including Alzheimer's disease.

  • Alzheimer's disease
  • embryo culture
  • G-protein
  • model system
  • neuronal guidance
  • neuronal–glial signaling
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The Journal of Neuroscience: 36 (33)
Journal of Neuroscience
Vol. 36, Issue 33
17 Aug 2016
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Manduca Contactin Regulates Amyloid Precursor Protein-Dependent Neuronal Migration
Jenna M. Ramaker, Tracy L. Swanson, Philip F. Copenhaver
Journal of Neuroscience 17 August 2016, 36 (33) 8757-8775; DOI: 10.1523/JNEUROSCI.0729-16.2016

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Manduca Contactin Regulates Amyloid Precursor Protein-Dependent Neuronal Migration
Jenna M. Ramaker, Tracy L. Swanson, Philip F. Copenhaver
Journal of Neuroscience 17 August 2016, 36 (33) 8757-8775; DOI: 10.1523/JNEUROSCI.0729-16.2016
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Keywords

  • Alzheimer's disease
  • embryo culture
  • G-protein
  • model system
  • neuronal guidance
  • neuronal–glial signaling

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