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Literature DB >> 28846081

Microglia turnover with aging and in an Alzheimer's model via long-term in vivo single-cell imaging.

Petra Füger^1,2, Jasmin K Hefendehl^1,2, Karthik Veeraraghavalu³, Ann-Christin Wendeln^1,2,4, Christine Schlosser¹, Ulrike Obermüller^1,2, Bettina M Wegenast-Braun^1,2, Jonas J Neher^1,2, Peter Martus⁵, Shinichi Kohsaka⁶, Martin Thunemann⁷, Robert Feil⁷, Sangram S Sisodia³, Angelos Skodras^1,2, Mathias Jucker^1,2.

Abstract

To clarify the role of microglia in brain homeostasis and disease, an understanding of their maintenance, proliferation and turnover is essential. The lifespan of brain microglia, however, remains uncertain, and reflects confounding factors in earlier assessments that were largely indirect. We genetically labeled single resident microglia in living mice and then used multiphoton microscopy to monitor these cells over time. Under homeostatic conditions, we found that neocortical resident microglia were long-lived, with a median lifetime of well over 15 months; thus, approximately half of these cells survive the entire mouse lifespan. While proliferation of resident neocortical microglia under homeostatic conditions was low, microglial proliferation in a mouse model of Alzheimer's β-amyloidosis was increased threefold. The persistence of individual microglia throughout the mouse lifespan provides an explanation for how microglial priming early in life can induce lasting functional changes and how microglial senescence may contribute to age-related neurodegenerative diseases.

Entities: Disease Gene Species

Mesh：

Year: 2017 PMID： 28846081 DOI： 10.1038/nn.4631

Source DB: PubMed Journal: Nat Neurosci ISSN： 1097-6256 Impact factor: 24.884

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Review 1. Microglia in Pain: Detrimental and Protective Roles in Pathogenesis and Resolution of Pain.

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