THE EARLY CAUSAL INFLUENCE OF CELL-SIZE UPON SYNAPTIC NUMBER - THE MUTANT GIGAS OF DROSOPHILA

The number of synaptic contacts formed by a neuron is known to vary wi th its surface area. This could be because large neurons are able to e stablish more synaptic sites, or because those neurons that are able t o establish more sites are subsequently able to enlarge. To test betwe en these two possibilities clones of enlarged ommatidia were generated in the retina of the Drosophila mutant gigas, by mitotic recombinatio n following gamma-irradiation in the third-instar larva. The numbers o f afferent synaptic contacts formed by the photoreceptor terminals in the first optic neuropil, or lamina, were then counted in the adult. T he terminals of mutant photoreceptors were also enlarged, but by varyi ng degrees. The sizes of their profiles in single sections merged with the size distribution of terminals having a wild-type phenotype, lyin g outside the clone in the same lamina A perimeter of 6.0 mu m for the profiles of receptor terminal in cross section was established as a c riterion for distinguishing between normal and mutant phenotypes. The mutant terminals had more presynaptic sites. Because only the gigas te rminals are mutant and because they enlarged at a time long before syn apse formation occurred in the lamina we may conclude that cell enlarg ement preceded elevated synaptic number. The increase in synaptic numb er roughly matched the increased membrane surface of the terminals, so as nearly to preserve a constant areal density of synaptic sites over a 5-fold range in synaptic frequency.