Knockdown of amyloid precursor protein in zebrafish causes defects in motor axon outgrowth

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Abstract

Amyloid precursor protein (APP) plays a pivotal role in Alzheimer's disease (AD) pathogenesis, but its normal physiological functions are less clear. Combined deletion of the APP and APP-like protein 2 (APLP2) genes in mice results in post-natal lethality, suggesting that APP performs an essential, if redundant, function during embryogenesis. We previously showed that injection of antisense morpholino to reduce APP levels in zebrafish embryos caused convergent-extension defects. Here we report that a reduction in APP levels causes defective axonal outgrowth of facial branchiomotor and spinal motor neurons, which involves disorganized axonal cytoskeletal elements. The defective outgrowth is caused in a cell-autonomous manner and both extracellular and intracellular domains of human APP are required to rescue the defective phenotype. Interestingly, wild-type human APP rescues the defective phenotype but APPswe mutation, which causes familial AD, does not. Our results show that the zebrafish model provides a powerful system to delineate APP functions in vivo and to study the biological effects of APP mutations. © 2012 Song, Pimplikar.

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APA

Song, P., & Pimplikar, S. W. (2012). Knockdown of amyloid precursor protein in zebrafish causes defects in motor axon outgrowth. PLoS ONE, 7(4). https://doi.org/10.1371/journal.pone.0034209

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