Literature DB >> 32065736

A Long-Living Bioengineered Neural Tissue Platform to Study Neurodegeneration.

Nicolas Rouleau1,2,3, William L Cantley1,2, Volha Liaudanskaya1,2, Alexander Berk1, Chuang Du1,2, William Rusk1, Emily Peirent1, Cole Koester1, Thomas J F Nieland1,2, David L Kaplan1,2,3.   

Abstract

The prevalence of dementia and other neurodegenerative diseases continues to rise as age demographics in the population shift, inspiring the development of long-term tissue culture systems with which to study chronic brain disease. Here, it is investigated whether a 3D bioengineered neural tissue model derived from human induced pluripotent stem cells (hiPSCs) can remain stable and functional for multiple years in culture. Silk-based scaffolds are seeded with neurons and glial cells derived from hiPSCs supplied by human donors who are either healthy or have been diagnosed with Alzheimer's disease. Cell retention and markers of stress remain stable for over 2 years. Diseased samples display decreased spontaneous electrical activity and a subset displays sporadic-like indicators of increased pathological β-amyloid and tau markers characteristic of Alzheimer's disease with concomitant increases in oxidative stress. It can be concluded that the long-term stability of the platform is suited to study chronic brain disease including neurodegeneration.
© 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Entities:  

Keywords:  Alzheimer's disease; bioengineering; biomaterials; induced pluripotent stem cells; neurodegeneration

Mesh:

Substances:

Year:  2020        PMID: 32065736      PMCID: PMC7292623          DOI: 10.1002/mabi.202000004

Source DB:  PubMed          Journal:  Macromol Biosci        ISSN: 1616-5187            Impact factor:   4.979


  31 in total

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  14 in total

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7.  Integrated functional neuronal network analysis of 3D silk-collagen scaffold-based mouse cortical culture.

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