DNA‐Based Signal Circuit for Self‐Regulated Bidirectional Communication in Protocell‐Living Cell Communities

Developing synthetic biology tools to control cell‐to‐cell signaling can provide new capabilities to engineer cell‐cell communication and program desired cellular behaviors. As cell mimics, abiotic protocells provide an attractive opportunity to modulate the intercellular communication with design‐based regulatory features. Despite the chemical communication of protocells that interact with living cells have been demonstrated, the autonomous regulation of intercellular signal transmission in protocell/living cell community remains a critical challenge. Herein, we designed a DNA circuit consisting of a recognition module, activation module, and feedback module that enables protocells to self‐regulate the interaction with living cells by sensing and responding to the signal released from living cells. The feedback module with renewable capability is capable of processing the signal transduction on the membrane surface of protocells and controlling intercellular adhesion. Once dissociated from living cells, the disengaged protocells allow the following interaction with multiple target living cells in succession. Overall, this work provides an avenue to control and program dynamic signal propagation in protocell/living cell community. The designed communication with living cells would open new ways to tune cellular behavior and apply them to cell‐based therapeutics.