Flipping the photoswitch: Ion channels under light control Journal Article


Author(s): McKenzie, Catherine K; Sanchez-Romero, Inmaculada; Janovjak, Harald
Article Title: Flipping the photoswitch: Ion channels under light control
Affiliation IST Austria
Abstract: Nature has incorporated small photochromic molecules, colloquially termed 'photoswitches', in photoreceptor proteins to sense optical cues in photo-taxis and vision. While Nature's ability to employ light-responsive functionalities has long been recognized, it was not until recently that scientists designed, synthesized and applied synthetic photochromes to manipulate many of which open rapidly and locally in their native cell types, biological processes with the temporal and spatial resolution of light. Ion channels in particular have come to the forefront of proteins that can be put under the designer control of synthetic photochromes. Photochromic ion channel controllers are comprised of three classes, photochromic soluble ligands (PCLs), photochromic tethered ligands (PTLs) and photochromic crosslinkers (PXs), and in each class ion channel functionality is controlled through reversible changes in photochrome structure. By acting as light-dependent ion channel agonists, antagonist or modulators, photochromic controllers effectively converted a wide range of ion channels, including voltage-gated ion channels, 'leak channels', tri-, tetra- and pentameric ligand-gated ion channels, and temperaturesensitive ion channels, into man-made photoreceptors. Control by photochromes can be reversible, unlike in the case of 'caged' compounds, and non-invasive with high spatial precision, unlike pharmacology and electrical manipulation. Here, we introduce design principles of emerging photochromic molecules that act on ion channels and discuss the impact that these molecules are beginning to have on ion channel biophysics and neuronal physiology.
Keywords: Azobenzene; Optogenetics; Optochemical genetics; Optical control; Photochrome; Photopharmacology; Tethered ligand
Journal Title: Advances in Experimental Medicine and Biology
Volume: 869
ISSN: 0065-2598
Publisher: Springer  
Date Published: 2015-09-18
Start Page: 101
End Page: 117
URL:
DOI: 10.1007/978-1-4939-2845-3_6
Open access: yes (repository)