Melanopsin (Opn4) utilizes Gα and Gβγ as major signal transducers.

Melanopsin (Opn4), a ubiquitously expressed photoreceptor in all classes of vertebrates, is crucial for both visual and non-visual signaling. Opn4 supports visual functions of the eye by sensing radiance levels and discriminating contrast and brightness. Non-image-forming functions of Opn4 not only regulate circadian behavior, but also control growth and development processes of the retina. It is unclear how a single photoreceptor could govern such a diverse range of physiological functions; a role in genetic hardwiring could be one explanation, but molecular and mechanistic evidence is lacking. In addition to its role in canonical G pathway activation, here we demonstrate that Opn4 efficiently activates G heterotrimers and signals through the G protein βγ. Compared with the low levels of G pathway activation observed for several G-coupled receptors, the robust Gα and Gβγ signaling of Opn4 led to both generation of PIP and directional migration of RAW264.7 macrophages. We propose that the ability of Opn4 to signal through Gα and Gβγ subunits is a major contributor to its functional diversity.