Literature DB >> 33314575

Directly converted astrocytes retain the ageing features of the donor fibroblasts and elucidate the astrocytic contribution to human CNS health and disease.

Noemi Gatto1, Cleide Dos Santos Souza1, Allan C Shaw1, Simon M Bell1, Monika A Myszczynska1, Samantha Powers2, Kathrin Meyer2, Lydia M Castelli1, Evangelia Karyka1, Heather Mortiboys1, Mimoun Azzouz1, Guillaume M Hautbergue1, Nóra M Márkus1, Pamela J Shaw1, Laura Ferraiuolo1.   

Abstract

Astrocytes are highly specialised cells, responsible for CNS homeostasis and neuronal activity. Lack of human in vitro systems able to recapitulate the functional changes affecting astrocytes during ageing represents a major limitation to studying mechanisms and potential therapies aiming to preserve neuronal health. Here, we show that induced astrocytes from fibroblasts donors in their childhood or adulthood display age-related transcriptional differences and functionally diverge in a spectrum of age-associated features, such as altered nuclear compartmentalisation, nucleocytoplasmic shuttling properties, oxidative stress response and DNA damage response. Remarkably, we also show an age-related differential response of induced neural progenitor cells derived astrocytes (iNPC-As) in their ability to support neurons in co-culture upon pro-inflammatory stimuli. These results show that iNPC-As are a renewable, readily available resource of human glia that retain the age-related features of the donor fibroblasts, making them a unique and valuable model to interrogate human astrocyte function over time in human CNS health and disease.
© 2020 The Authors. Aging Cell published by the Anatomical Society and John Wiley & Sons Ltd.

Entities:  

Keywords:  ageing; astrocytes; direct reprogramming; in vitro model; neurodegeneration; neuroinflammation; neuron-astrocyte crosstalk; nuclear abnormalities; nucleocytoplasmic transport; oxidative stress

Mesh:

Year:  2020        PMID: 33314575      PMCID: PMC7811849          DOI: 10.1111/acel.13281

Source DB:  PubMed          Journal:  Aging Cell        ISSN: 1474-9718            Impact factor:   11.005


  109 in total

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  10 in total

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