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ATR regulates neuronal activity by modulating presynaptic firing

Author

Listed:
  • Murat Kirtay

    (Leibniz Institute on Aging - Fritz Lipmann Institute (FLI))

  • Josefine Sell

    (Jena University Hospital)

  • Christian Marx

    (Leibniz Institute on Aging - Fritz Lipmann Institute (FLI))

  • Holger Haselmann

    (Jena University Hospital)

  • Mihai Ceanga

    (Jena University Hospital)

  • Zhong-Wei Zhou

    (Leibniz Institute on Aging - Fritz Lipmann Institute (FLI)
    Sun Yat-Sen University)

  • Vahid Rahmati

    (Jena University Hospital)

  • Joanna Kirkpatrick

    (Leibniz Institute on Aging - Fritz Lipmann Institute (FLI))

  • Katrin Buder

    (Leibniz Institute on Aging - Fritz Lipmann Institute (FLI))

  • Paulius Grigaravicius

    (Leibniz Institute on Aging - Fritz Lipmann Institute (FLI))

  • Alessandro Ori

    (Leibniz Institute on Aging - Fritz Lipmann Institute (FLI))

  • Christian Geis

    (Jena University Hospital)

  • Zhao-Qi Wang

    (Leibniz Institute on Aging - Fritz Lipmann Institute (FLI)
    Friedrich Schiller University of Jena)

Abstract

Ataxia Telangiectasia and Rad3-related (ATR) protein, as a key DNA damage response (DDR) regulator, plays an essential function in response to replication stress and controls cell viability. Hypomorphic mutations of ATR cause the human ATR-Seckel syndrome, characterized by microcephaly and intellectual disability, which however suggests a yet unknown role for ATR in non-dividing cells. Here we show that ATR deletion in postmitotic neurons does not compromise brain development and formation; rather it enhances intrinsic neuronal activity resulting in aberrant firing and an increased epileptiform activity, which increases the susceptibility of ataxia and epilepsy in mice. ATR deleted neurons exhibit hyper-excitability, associated with changes in action potential conformation and presynaptic vesicle accumulation, independent of DDR signaling. Mechanistically, ATR interacts with synaptotagmin 2 (SYT2) and, without ATR, SYT2 is highly upregulated and aberrantly translocated to excitatory neurons in the hippocampus, thereby conferring a hyper-excitability. This study identifies a physiological function of ATR, beyond its DDR role, in regulating neuronal activity.

Suggested Citation

  • Murat Kirtay & Josefine Sell & Christian Marx & Holger Haselmann & Mihai Ceanga & Zhong-Wei Zhou & Vahid Rahmati & Joanna Kirkpatrick & Katrin Buder & Paulius Grigaravicius & Alessandro Ori & Christia, 2021. "ATR regulates neuronal activity by modulating presynaptic firing," Nature Communications, Nature, vol. 12(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-24217-2
    DOI: 10.1038/s41467-021-24217-2
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