Optogenetic manipulation of medullary neurons in the locust optic lobe

Author:

Wang Hongxia1,Dewell Richard B.1ORCID,Ehrengruber Markus U.2,Segev Eran3,Reimer Jacob1,Roukes Michael L.3,Gabbiani Fabrizio14ORCID

Affiliation:

1. Department of Neuroscience, Baylor College of Medicine, Houston, Texas

2. Department of Biology, Kantonsschule Hohe Promenade, Zurich, Switzerland

3. Department of Applied Physics and Material Science, California Institute of Technology, Pasadena, California

4. Electrical and Computer Engineering Department, Rice University, Houston, Texas

Abstract

The locust is a widely used animal model for studying sensory processing and its relation to behavior. Due to the lack of genomic information, genetic tools to manipulate neural circuits in locusts are not yet available. We examined whether Semliki Forest virus is suitable to mediate exogenous gene expression in neurons of the locust optic lobe. We subcloned a channelrhodopsin variant and the yellow fluorescent protein Venus into a Semliki Forest virus vector and injected the virus into the optic lobe of locusts ( Schistocerca americana). Fluorescence was observed in all injected optic lobes. Most neurons that expressed the recombinant proteins were located in the first two neuropils of the optic lobe, the lamina and medulla. Extracellular recordings demonstrated that laser illumination increased the firing rate of medullary neurons expressing channelrhodopsin. The optogenetic activation of the medullary neurons also triggered excitatory postsynaptic potentials and firing of a postsynaptic, looming-sensitive neuron, the lobula giant movement detector. These results indicate that Semliki Forest virus is efficient at mediating transient exogenous gene expression and provides a tool to manipulate neural circuits in the locust nervous system and likely other insects.NEW & NOTEWORTHY Using Semliki Forest virus, we efficiently delivered channelrhodopsin into neurons of the locust optic lobe. We demonstrate that laser illumination increases the firing of the medullary neurons expressing channelrhodopsin and elicits excitatory postsynaptic potentials and spiking in an identified postsynaptic target neuron, the lobula giant movement detector neuron. This technique allows the manipulation of neuronal activity in locust neural circuits using optogenetics.

Funder

HHS | NIH | National Institute of Mental Health (NIMH)

National Science Foundation (NSF)

Publisher

American Physiological Society

Subject

Physiology,General Neuroscience

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