Event-triggered STED imaging

Monitoring the proteins and lipids that mediate all cellular processes requires imaging methods with increased spatial and temporal resolution. STED (stimulated emission depletion) nanoscopy enables fast imaging of nanoscale structures in living cells but is limited by photobleaching. Here, we present event-triggered STED, an automated multiscale method capable of rapidly initiating two-dimensional (2D) and 3D STED imaging after detecting cellular events such as protein recruitment, vesicle trafficking and second messengers activity using biosensors. STED is applied in the vicinity of detected events to maximize the temporal resolution. We imaged synaptic vesicle dynamics at up to 24 Hz, 40 ms after local calcium activity; endocytosis and exocytosis events at up to 11 Hz, 40 ms after local protein recruitment or pH changes; and the interaction between endosomal vesicles at up to 3 Hz, 70 ms after approaching one another. Event-triggered STED extends the capabilities of live nanoscale imaging, enabling novel biological observations in real time. Event-triggered STED is an automated approach that can initiate 2D or 3D STED imaging of specific regions in biological samples after detection of an event of interest. This approach can help maximize observations in live cell imaging and enable discovery.

Automated summary

Event-triggered STED is an automated imaging method that rapidly initiates STED imaging after detecting cellular events, which can enhance live cell imaging capabilities and enable real-time biological observations and discoveries.