Soluble amyloid precursor protein induces rapid neural differentiation of human embryonic stem cells

Karla Kristine Freude, Mahmud Penjwini, Joy L Davis, Frank M LaFerla, Mathew Blurton-Jones

54 Citations (Scopus)

Abstract

Human embryonic stem cells (hESCs) offer tremendous potential for not only treating neurological disorders but also for their ability to serve as vital reagents to model and investigate human disease. To further our understanding of a key protein involved in Alzheimer disease pathogenesis, we stably overexpressed amyloid precursor protein (APP) in hESCs. Remarkably, we found that APP overexpression in hESCs caused a rapid and robust differentiation of pluripotent stem cells toward a neural fate. Despite maintenance in standard hESC media, up to 80% of cells expressed the neural stem cell marker nestin, and 65% exhibited the more mature neural marker β-3 tubulin within just 5 days of passaging. To elucidate the mechanism underlying the effects of APP on neural differentiation, we examined the proteolysis of APP and performed both gain of function and loss of function experiments. Taken together, our results demonstrate that the N-terminal secreted soluble forms of APP (in particular sAPPβ) robustly drive neural differentiation of hESCs. Our findings not only reveal a novel and intriguing role for APP in neural lineage commitment but also identify a straightforward and rapid approach to generate large numbers of neurons from human embryonic stem cells. These novel APP-hESC lines represent a valuable tool to investigate the potential role of APP in development and neurodegeneration and allow for insights into physiological functions of this protein.

Original languageEnglish
JournalThe Journal of Biological Chemistry
Volume286
Issue number27
Pages (from-to)24264-24274
Number of pages11
ISSN0021-9258
DOIs
Publication statusPublished - 8 Jul 2011
Externally publishedYes

Keywords

  • Alzheimer Disease
  • Antigens, Differentiation
  • Cell Differentiation
  • Cell Line
  • Embryonic Stem Cells
  • Gene Expression Regulation
  • Humans
  • Neurons
  • Serum Amyloid A Protein
  • Tubulin

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