Ca(2+) plays important roles in animal development and behavior. Various Ca(2+) transients during development have been reported in non-neuronal tissues, mainly by using synthesized calcium indicators. Here we used GCaMP3, a genetically encoded calcium indicator, to monitor stochastic Ca(2+) waves, in zebrafish embryos. To express GCaMP3 systemically throughout the body, its mRNA was injected into fertilized eggs. In the neuroepithelium of developing anterior brain and retina at 12-20 hours post-fertilization, we found spontaneously occurring stochastic Ca(2+) waves. Each Ca(2+) wave typically appeared in a randomly distributed spot, spread for 5-60 sec to form an area whose position and size varied each time with a diameter ranging from 10 to 160 µm, and then shrank and decreased to 50% brightness in 4-67 sec. A precise examination of the cellular distribution using Nipkow disk multibeam confocal laser scanning indicated that the Ca(2+) waves spread cell by cell. 2-APB, IP3-receptor inhibitor, but not carbenoxolone, a gap junction blocker, inhibit these Ca(2+) waves. Stronger fluorescence was found in the cytoplasm compared to the nuclei in the resting cells, and localized fluorescence was observed at the spindle poles in dividing cells. Ca(2+) waves also spread through the dividing cells. Our results reveal a novel type of cell-to-cell communication through the neuroepithelium in the developing zebrafish brain and retina, distinct from communication through neuron-neuron circuits. Our findings also indicated that GCaMP3 was useful for monitoring both stochastic and behavior-related Ca(2+) waves in the nervous system and skeletal muscles in zebrafish embryos.
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