Litcius/Paper detail

A conditional strategy for cell-type-specific labeling of endogenous excitatory synapses in Drosophila

Michael Parisi, Michael A. Aimino, Timothy J. Mosca

2023Cell Reports Methods20 citationsDOIOpen Access PDF

Abstract

Chemical neurotransmission occurs at specialized contacts where neurotransmitter release machinery apposes neurotransmitter receptors to underlie circuit function. A series of complex events underlies pre- and postsynaptic protein recruitment to neuronal connections. To better study synaptic development in individual neurons, we need cell-type-specific strategies to visualize endogenous synaptic proteins. Although presynaptic strategies exist, postsynaptic proteins remain less studied because of a paucity of cell-type-specific reagents. To study excitatory postsynapses with cell-type specificity, we engineered dlg1[4K], a conditionally labeled marker of Drosophila excitatory postsynaptic densities. With binary expression systems, dlg1[4K] labels central and peripheral postsynapses in larvae and adults. Using dlg1[4K], we find that distinct rules govern postsynaptic organization in adult neurons, multiple binary expression systems can concurrently label pre- and postsynapse in a cell-type-specific manner, and neuronal DLG1 can sometimes localize presynaptically. These results validate our strategy for conditional postsynaptic labeling and demonstrate principles of synaptic organization.

Topics & Concepts

Postsynaptic potentialExcitatory postsynaptic potentialNeuroscienceNeurotransmitter receptorBiologyNeurotransmissionPostsynaptic densityInhibitory postsynaptic potentialNeurotransmitterPost-tetanic potentiationCell biologyReceptorCentral nervous systemBiochemistryNeurobiology and Insect Physiology ResearchRetinal Development and DisordersCellular transport and secretion