Kinetic monitoring of neuronal stress response to proteostasis dysfunction
Proteostasis dysfunction and activation of the unfolded protein response (UPR) are characteristic of all major neurodegenerative diseases. Nevertheless, although the UPR and proteostasis dysfunction has been studied in great detail in model organisms like yeast and mammalian cell lines, it has not y...
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Veröffentlicht in: | Molecular and cellular neuroscience 2022-01, Vol.118, p.103682-103682, Article 103682 |
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Sprache: | eng |
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Zusammenfassung: | Proteostasis dysfunction and activation of the unfolded protein response (UPR) are characteristic of all major neurodegenerative diseases. Nevertheless, although the UPR and proteostasis dysfunction has been studied in great detail in model organisms like yeast and mammalian cell lines, it has not yet been examined in neurons. In this study, we applied a viral vector-mediated expression of a reporter protein based on a UPR transcription factor, ATF4, and time-lapse fluorescent microscopy to elucidate how mouse primary neurons respond to pharmacological and genetic perturbations to neuronal proteostasis. In in vitro models of endoplasmic reticulum (ER) stress and proteasome inhibition, we used the ATF4 reporter to reveal the time course of the neuronal stress response relative to neurite degeneration and asynchronous cell death. We showed how potential neurodegenerative disease co-factors, ER stress and mutant α-synuclein overexpression, impacted neuronal stress response and overall cellular health. This work therefore introduces a viral vector-based reporter that yields a quantifiable readout suitable for non-cell destructive kinetic monitoring of proteostasis dysfunction in neurons by harnessing ATF4 signaling as part of the UPR activation.
•ATF4-based translational control allows for stress-dependent transgene expression in neurons.•ATF4 reporter permits kinetic monitoring of ER stress in live neurons.•ATF4 reporter detects neuronal stress response to proteasome inactivation.•Mutant α-synuclein overexpression elicits neuronal stress response to proteostasis impairment. |
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ISSN: | 1044-7431 1095-9327 |
DOI: | 10.1016/j.mcn.2021.103682 |