Literature DB >> 26456686

Directly Reprogrammed Human Neurons Retain Aging-Associated Transcriptomic Signatures and Reveal Age-Related Nucleocytoplasmic Defects.

Jerome Mertens1, Apuã C M Paquola1, Manching Ku2, Emily Hatch3, Lena Böhnke1, Shauheen Ladjevardi1, Sean McGrath1, Benjamin Campbell1, Hyungjun Lee1, Joseph R Herdy1, J Tiago Gonçalves1, Tomohisa Toda1, Yongsung Kim1, Jürgen Winkler4, Jun Yao5, Martin W Hetzer3, Fred H Gage6.   

Abstract

Aging is a major risk factor for many human diseases, and in vitro generation of human neurons is an attractive approach for modeling aging-related brain disorders. However, modeling aging in differentiated human neurons has proved challenging. We generated neurons from human donors across a broad range of ages, either by iPSC-based reprogramming and differentiation or by direct conversion into induced neurons (iNs). While iPSCs and derived neurons did not retain aging-associated gene signatures, iNs displayed age-specific transcriptional profiles and revealed age-associated decreases in the nuclear transport receptor RanBP17. We detected an age-dependent loss of nucleocytoplasmic compartmentalization (NCC) in donor fibroblasts and corresponding iNs and found that reduced RanBP17 impaired NCC in young cells, while iPSC rejuvenation restored NCC in aged cells. These results show that iNs retain important aging-related signatures, thus allowing modeling of the aging process in vitro, and they identify impaired NCC as an important factor in human aging.
Copyright © 2015 Elsevier Inc. All rights reserved.

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Year:  2015        PMID: 26456686      PMCID: PMC5929130          DOI: 10.1016/j.stem.2015.09.001

Source DB:  PubMed          Journal:  Cell Stem Cell        ISSN: 1875-9777            Impact factor:   24.633


  48 in total

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  224 in total

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