Abstract
The coupling of Ca2+ influx to synaptic vesicle (SV) recycling in nerve terminals is essential for neurotransmitter release and thus neuronal communication. Both of these parameters have been monitored using fluorescent reporter dyes such as fura-2 and FM1-43 in single central nerve terminals. However, their simultaneous monitoring has been hampered by the proximity of their fluorescence spectra, resulting in significant contamination of their signals by bleedthrough. We have developed an assay that simultaneously monitors both SV recycling and changes in intracellular free Ca2+ ([Ca2+]i) in cultured neurons using the reporter dyes FM4-64 and fura-2AM. By monitoring both fura-2 and FM4-64 emission in the far red range, we were able to visualize functionally independent readouts of both SV recycling and [Ca2+]i independent of fluorescence bleedthrough. We were also able to incorporate an assay of cell viability without any fluorescence bleedthrough from either fura-2 or FM4-64 signals, using the dye SYTOX Green. We propose that this assay of three key neuronal functions could be simply translated into a high content screening format for studies investigating small molecule inhibitors of these processes.
Highlights
Neurotransmitter release is essential for communication between neurones and brain function
This should allow fura-2 emission to be monitored with a 575 nm dichroic mirror and >575 nm long pass emission filter, a configuration traditionally used with FM4-64 alone
[intracellular free calcium (Ca2+]i) responses and synaptic vesicle (SV) recycling could be monitored in real time in the same nerve terminals by exciting at 340, 380 nm and 550 nm and monitoring emission at >575 nm
Summary
Neurotransmitter release is essential for communication between neurones and brain function. Cousin / Journal of Neuroscience Methods 160 (2007) 197–205 and its derivatives are widely used to examine the extent and kinetics of SV recycling in real time in individual nerve terminals using single cell fluorescence imaging techniques (Cochilla et al, 1999; Cousin and Robinson, 1999) This has allowed the simultaneous monitoring of both SV recycling and Ca2+ influx (using dyes such as fura-2) in single nerve terminals (Burrone and Lagnado, 1997; Haller et al, 1998, 1999, 2001; Lagnado et al, 1996; Nunez et al, 2000; Shorte et al, 1995). We propose that this assay could be converted into a high content multiplexed assay of neuronal function
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