AI Article Synopsis
- Agonist-induced Ca(2+) signals triggered by phospholipase C (PLC) can show various patterns like transient, sustained, and oscillatory changes, but detailed studies on PLC activation in single living cells are limited due to inadequate indicators.
- Recent advancements involve using green fluorescent protein-tagged pleckstrin homology domains to track PLC activation in real-time, enabling visualization of fluorescence changes as PLC acts on specific lipids.
- A new method using fluorescence resonance energy transfer (FRET) allows for sensitive detection of PLC activity, requiring less excitation intensity and enabling analysis of both single cells and cell populations, revealing that PLC activation kinetics may differ significantly among stimuli that produce similar Ca(2+) responses.
Article Abstract
Agonist-induced intracellular Ca(2+) signals following phospholipase C (PLC) activation display a variety of patterns, including transient, sustained, and oscillatory behavior. These Ca(2+) changes have been well characterized, but detailed kinetic analyses of PLC activation in single living cells is lacking, due to the absence of suitable indicators for use in vivo. Recently, green fluorescent protein-tagged pleckstrin homology domains have been employed to monitor PLC activation in single cells, based on (confocal) imaging of their fluorescence translocation from the membrane to the cytosol that occurs upon hydrolysis of phosphatidylinositol bisphosphate. Here we describe fluorescence resonance energy transfer between pleckstrin homology domains of PLCdelta1 tagged with cyan and yellow fluorescent proteins as a sensitive readout of phosphatidylinositol bisphosphate metabolism for use both in cell populations and in single cells. Fluorescence resonance energy transfer requires significantly less excitation intensity, enabling prolonged and fast data acquisition without the cell damage that limits confocal experiments. It also allows experiments on motile or extremely flat cells, and can be scaled to record from cell populations as well as single neurites. Characterization of responses to various agonists by this method reveals that stimuli that elicit very similar Ca(2+) mobilization responses can exhibit widely different kinetics of PLC activation, and that the latter appears to follow receptor activation more faithfully than the cytosolic Ca(2+) transient.
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| http://dx.doi.org/10.1074/jbc.M007194200 | DOI Listing |
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