Near-infrared light-controlled gene expression and protein targeting in neurons and non-neuronal cells.
blue near-infrared AsLOV2 BphP1/Q-PAS1 Cos-7 HEK293 HeLa Neuro-2a rat cortical neurons SH-SY5Y U-2 OS Multichromatic
Abstract: Near-infrared (NIR) light-inducible binding of bacterial phytochrome BphP1 to its engineered partner QPAS1 is used for optical protein regulation in mammalian cells. However, there are no data on the application of the BphP1-QPAS1 pair in cells derived from various mammalian tissues. Here, we tested functionality of two BphP1-QPAS1-based optogenetic tools, such as an NIR and blue light-sensing system for control of protein localization (iRIS) and an NIR light-sensing system for transcription activation (TA), in several cell types including cortical neurons. We found that the performance of these optogenetic tools often rely on physiological properties of a specific cell type, such as nuclear transport, which may limit applicability of blue light-sensitive component of iRIS. In contrast, the NIR-light-sensing part of iRIS performed well in all tested cell types. The TA system showed the best performance in HeLa, U-2 OS and HEK-293 cells. Small size of the QPAS1 component allows designing AAV viral particles, which were applied to deliver the TA system to neurons.