An Optical Approach to Modulating Membrane Protein Endocytosis Using a Light-Responsive Tag for Recruiting β-Arrestin.

Membrane receptors, particularly G protein-coupled receptors (GPCRs), are integral to numerous physiological processes. Precise control of the receptor endocytosis is essential for understanding cellular signaling pathways. In this study, we present the development of a broadly applicable optogenetic tool for light-inducible receptor internalization. This system, named E-fragment, leverages the CRY2-CIB photodimerization pair to enable blue-light-dependent recruitment of β-arrestin and subsequent receptor internalization. We showed that the E-fragment system is applicable across diverse membrane proteins, including multiple GPCRs. Furthermore, we investigated its impact on intracellular cAMP signaling in cells expressing dopamine receptor D1 and α2-adrenergic receptor. Quantitative analyses revealed that light-induced internalization led to reduced surface receptor expression and attenuated ligand-evoked cAMP responses. These findings demonstrate the versatility of the E-fragment system as a platform for studying membrane receptor function and suggest potential applications in therapeutic strategies targeting receptor trafficking and signaling modulation.