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Direct visualization of microtubules using a genetic tool to analyse radial progenitor-astrocyte continuum in brain

Author

Listed:
  • Tae-Yeon Eom

    (University of North Carolina School of Medicine)

  • Amelia Stanco

    (University of North Carolina School of Medicine)

  • Jill Weimer

    (University of North Carolina School of Medicine)

  • Kristen Stabingas

    (University of North Carolina School of Medicine)

  • Elizabeth Sibrack

    (University of North Carolina School of Medicine)

  • Vladimir Gukassyan

    (University of North Carolina School of Medicine)

  • JrGang Cheng

    (University of North Carolina School of Medicine)

  • E.S. Anton

    (University of North Carolina School of Medicine)

Abstract

Microtubule cytoskeletal dynamics of cortical progenitors and astroglial cells have critical roles in the emergence of normal functional organization of cerebral cortex and in disease processes such as tumorigenesis. However, tools to efficiently visualize these events are lacking. Here we describe a mouse genetic model to efficiently visualize and analyse radial progenitors, their astroglial progeny, and the microtubule cytoskeleton of these cells in the developing and adult brain. Using this tool, we demonstrate altered microtubule organization and capture dynamics in adenomatous polyposis coli-deficient radial progenitors. Further, using multiphoton microscopy, we show the utility of this tool in real-time imaging of astrocytes in living mouse brain and the short-term stable nature of astrocytes in cerebral cortex. Thus, this model will help explore the dynamics of radial progenitor/astrocyte development or dysfunction and the influence of microtubule functions during these events.

Suggested Citation

  • Tae-Yeon Eom & Amelia Stanco & Jill Weimer & Kristen Stabingas & Elizabeth Sibrack & Vladimir Gukassyan & JrGang Cheng & E.S. Anton, 2011. "Direct visualization of microtubules using a genetic tool to analyse radial progenitor-astrocyte continuum in brain," Nature Communications, Nature, vol. 2(1), pages 1-6, September.
    • Handle: RePEc:nat:natcom:v:2:y:2011:i:1:d:10.1038_ncomms1460
    DOI: 10.1038/ncomms1460
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    Cited by:

    1. Lei Xing & Vasiliki Gkini & Anni I. Nieminen & Hui-Chao Zhou & Matilde Aquilino & Ronald Naumann & Katrin Reppe & Kohichi Tanaka & Peter Carmeliet & Oskari Heikinheimo & Svante Pääbo & Wieland B. Hutt, 2024. "Functional synergy of a human-specific and an ape-specific metabolic regulator in human neocortex development," Nature Communications, Nature, vol. 15(1), pages 1-13, December.

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