ABSTRACT: Pancreatic ?-cell insulin production is orchestrated by a complex circuitry involving intracellular elements including cyclic AMP (cAMP). Tackling aberrations in glucose-stimulated insulin release such as in diabetes with pharmacological agents, which boost the secretory capacity of ?-cells, is linked to adverse side effects. We hypothesized that a photoactivatable adenylyl cyclase (PAC) can be employed to modulate cAMP in ?-cells with light thereby enhancing insulin secretion. To that end, the PAC gene from Beggiatoa (bPAC) was delivered to ?-cells. A cAMP increase was noted within 5?minutes of photostimulation and a significant drop at 12?minutes post-illumination. The concomitant augmented insulin secretion was comparable to that from ?-cells treated with secretagogues. Greater insulin release was also observed over repeated cycles of photoinduction without adverse effects on viability and proliferation. Furthermore, the expression and activation of bPAC increased cAMP and insulin secretion in murine islets and in ?-cell pseudoislets, which displayed a more pronounced light-triggered hormone secretion compared to that of ?-cell monolayers. Calcium channel blocking curtailed the enhanced insulin response due to bPAC activity. This optogenetic system with modulation of cAMP and insulin release can be employed for the study of ?-cell function and for enabling new therapeutic modalities for diabetes.