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Rapid, biochemical tagging of cellular activity history in vivo

Medicine and Health

Rapid, biochemical tagging of cellular activity history in vivo

R. Zhang, M. Anguiano, et al.

Discover CaST, a groundbreaking Ca2+-activated split-TurboID enzyme that enables rapid, non-invasive tagging of activated cells. In just 10 minutes, this innovative tool offers a new way to study neuronal activity, as demonstrated by researchers Run Zhang and colleagues through their exploration of prefrontal cortex neurons activated by psilocybin in freely behaving mice.

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~3 min • Beginner • English
Abstract
Intracellular calcium (Ca2+) is ubiquitous to cell signaling across biology. While existing fluorescent sensors and reporters can detect activated cells with elevated Ca2+ levels, these approaches require implants to deliver light to deep tissue, precluding their noninvasive use in freely behaving animals. Here we engineered an enzyme-catalyzed approach that rapidly and biochemically tags cells with elevated Ca2+ in vivo. Ca2+-activated split-TurboID (CaST) labels activated cells within 10 min with an exogenously delivered biotin molecule. The enzymatic signal increases with Ca2+ concentration and biotin labeling time, demonstrating that CaST is a time-gated integrator of total Ca2+ activity. Furthermore, the CaST readout can be performed immediately after activity labeling, in contrast to transcriptional reporters that require hours to produce signal. These capabilities allowed us to apply CaST to tag prefrontal cortex neurons activated by psilocybin, and to correlate the CaST signal with psilocybin-induced head-twitch responses in untethered mice.
Publisher
Nature Methods
Published On
Sep 01, 2024
Authors
Run Zhang, Maribel Anguiano, Isak K. Aarrestad, Sophia Lin, Joshua Chandra, Sruti S. Vadde, David E. Olson, Christina K. Kim
DOI
https://doi.org/10.1038/s41592-024-02375-7
Tags
calcium signaling
cell activation
non-invasive tagging
neuroscience
psilocybin

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