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Publications

by Keyword: Optical switch

Garrido-Charles, A, Huet, A, Matera, C, Thirumalai, A, Hernando, J, Llebaria, A, Moser, T, Gorostiza, P, (2022). Fast Photoswitchable Molecular Prosthetics Control Neuronal Activity in the Cochlea Journal Of The American Chemical Society 144, 9229-9239

Artificial control of neuronal activity enables the study of neural circuits and restoration of neural functions. Direct, rapid, and sustained photocontrol of intact neurons could overcome the limitations of established electrical stimulation such as poor selectivity. We have developed fast photoswitchable ligands of glutamate receptors (GluRs) to enable neuronal control in the auditory system. The new photoswitchable ligands induced photocurrents in untransfected neurons upon covalently tethering to endogenous GluRs and activating them reversibly with visible light pulses of a few milliseconds. As a proof of concept of these molecular prostheses, we applied them to the ultrafast synapses of auditory neurons of the cochlea that encode sound and provide auditory input to the brain. This drug-based method afforded the optical stimulation of auditory neurons of adult gerbils at hundreds of hertz without genetic manipulation that would be required for their optogenetic control. This indicates that the new photoswitchable ligands are also applicable to the spatiotemporal control of fast spiking interneurons in the brain.

JTD Keywords: Acid, Azobenzene, Glutamate-receptor, Ion channels, Mechanisms, Nerve, Optical switches, Release, Stimulation


Gorostiza, P., Isacoff, E.Y., (2011). Photoswitchable ligand-gated ion channels Photosensitive molecules for controlling biological function (ed. Chambers, J. J. , Kramer, R. H.), Springer (Saskatoon, Canada) 55, 267-285

Ligand-activated proteins can be controlled with light by means of synthetic photoisomerizable tethered ligands (PTLs). The application of PTLs to ligand-gated ion channels, including the nicotinic acetylcholine receptor and ionotropic glutamate receptors, is reviewed with emphasis on rational photoswitch design and the mechanisms of optical switching. Recently reported molecular dynamic methods allow simulation with high reliability of novel PTLs for any ligand-activated protein whose structure is known.

JTD Keywords: Nicotinic acetylcholine receptor, Kainate receptor, Glutamate receptor, Photoisomerizable tether ligand (PTL), Optical switch, Nanotoggle, Azobenzene, Neurobiology,, Nanoengineering, Nanomedicine