Visible Evidence for Differences in Synaptic Effectiveness With Activity-Dependent Vesicular Uptake and Release of FM1-43

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Visible Evidence for Differences in Synaptic Effectiveness With Activity-Dependent Vesicular Uptake and Release of FM1-43

P. A. Quigley¹, M. Msghina², C. K. Govind³, and H. L. Atwood¹

¹ Department of Physiology, Medical Research Council Neural Group, University of Toronto, Toronto, Ontario M5S 1A8, Canada; ² Department of Physiology and Pharmacology, Karolinska Institutet, S-171 77 Stockholm, Sweden; and ³ Life Sciences Division, University of Toronto at Scarborough, Toronto, Ontario M1C 1A4, Canada

Quigley, P. A., M. Msghina, C. K. Govind, and H. L. Atwood. Visible evidence for differences in synaptic effectivenesswith activity-dependent vesicular uptake and release of FM1-43.J. Neurophysiol. 81: 356-370, 1999. Activity-dependent uptakeand release of the fluorescent probe FM1-43 were used to comparesynaptic performance (rates of transmitter release and synapticvesicle turnover) at different frequencies in phasic and tonicmotor neurons innervating the crayfish leg extensor muscle andin the tonic motor neuron of the opener muscle. The phasic extensormotor neuron, which has a high quantal content of transmitterrelease, accumulated and released FM1-43 more rapidly than thetonic motor neuron, especially at low frequencies of stimulation.Individual bright spots appeared on the varicosities of the junctionalterminals during stimulation in FM1-43; these spots correspondedto zones of immunostaining for the synaptic vesicle associatedprotein synaptotagmin, but they were larger and less numerousthan synapses identified by electron microscopy and appear torepresent one to several synapses with their associated clustersof synaptic vesicles. The number of bright spots observed on varicositiesof the tonic terminal after stimulation at $>=$ 20 Hz is generallysimilar to values for responding units (n) calculated from binomialdistributions derived from quantal analysis. At frequencies of $<=$ 10 Hz, bright spots did not usually appear on tonic extensorvaricosities, and the quantal release patterns were best fittedwith Poisson distributions. Another tonic motor neuron, the excitorof the opener muscle, showed individual bright spots at lowerfrequencies of stimulation, consistent with its higher quantaloutput at these frequencies and corresponding with the binomialfits for quantal release distributions. In this axon, the numberof distinctive bright spots increased with frequency in the 2-to 20-Hz range, indicating increased participation of synapsesduring frequency facilitation. In the tonic extensor neuron terminals,the brightness and the size of the individual spots increasedwith frequency, and new foci of dye uptake appeared at the edgesof preexisting spots. Relative intensity change varied considerablyamong individual spots during dye loading at different frequencies.Similarly, individual spots on a single tonic terminal destainedat different rates when stimulated after previous loading withFM1-43. These results suggest differential performance of individualsynapses or small groups of synapses, some being more effectivein transmitter release than others, as inferred from previousultrastructural and quantal analysis studies. The large overalldifferences between phasic and tonic synapses suggest differentialregulation of transmitter release at individual synapses in thetwo neurons.

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