Literature DB >> 27402759

FoxO3 regulates neuronal reprogramming of cells from postnatal and aging mice.

Henrik Ahlenius1, Soham Chanda2, Ashley E Webb3, Issa Yousif1, Jesse Karmazin1, Stanley B Prusiner4, Anne Brunet3, Thomas C Südhof5, Marius Wernig6.   

Abstract

We and others have shown that embryonic and neonatal fibroblasts can be directly converted into induced neuronal (iN) cells with mature functional properties. Reprogramming of fibroblasts from adult and aged mice, however, has not yet been explored in detail. The ability to generate fully functional iN cells from aged organisms will be particularly important for in vitro modeling of diseases of old age. Here, we demonstrate production of functional iN cells from fibroblasts that were derived from mice close to the end of their lifespan. iN cells from aged mice had apparently normal active and passive neuronal membrane properties and formed abundant synaptic connections. The reprogramming efficiency gradually decreased with fibroblasts derived from embryonic and neonatal mice, but remained similar for fibroblasts from postnatal mice of all ages. Strikingly, overexpression of a transcription factor, forkhead box O3 (FoxO3), which is implicated in aging, blocked iN cell conversion of embryonic fibroblasts, whereas knockout or knockdown of FoxO3 increased the reprogramming efficiency of adult-derived but not of embryonic fibroblasts and also enhanced functional maturation of resulting iN cells. Hence, FoxO3 has a central role in the neuronal reprogramming susceptibility of cells, and the importance of FoxO3 appears to change during development.

Entities:  

Keywords:  aging; induced neuronal cells; reprogramming

Mesh:

Substances:

Year:  2016        PMID: 27402759      PMCID: PMC4968717          DOI: 10.1073/pnas.1607079113

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  26 in total

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Authors:  Ashley E Webb; Elizabeth A Pollina; Thomas Vierbuchen; Noelia Urbán; Duygu Ucar; Dena S Leeman; Ben Martynoga; Madhavi Sewak; Thomas A Rando; François Guillemot; Marius Wernig; Anne Brunet
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  8 in total

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