Abstract
ABSTRACTcAMP is a key player in many physiological processes. Classically considered to originate solely from the plasma membrane, this view was recently challenged by observations showing that GPCRs can sustain cAMP signaling from intracellular compartments associated with nuclear PKA translocation and activation of transcriptional events. In this report we show that neither PKA translocation nor cAMP diffusion, but rather nuclear sAC activation represents the only source of nuclear cAMP accumulation, PKA activation, and CREB phosphorylation. Both pharmacological and genetic sAC inhibition, that did not affect the cytosolic cAMP levels, completed blunted nuclear cAMP accumulation, PKA activation and proliferation, while an increase in sAC nuclear expression significantly enhanced cell proliferation. Moreover, utilizing novel compartment-specific optogenetic actuators we showed that light-dependent nuclear cAMP synthesis can stimulate PKA, CREB and trigger cell proliferation. Thus, our results show that sAC-mediated nuclear accumulation is not only necessary but sufficient and rate-limiting for cAMP-dependent proliferation.
Publisher
Cold Spring Harbor Laboratory