A fundamental limitation of T cell therapies in solid tumors is loss of inflammatory effector functions, such as cytokine production and proliferation. Here, we target a regulatory axis of T cell inflammatory responses, Regnase-1 and Roquin-1, to enhance antitumor responses in human T cells engineered with two clinical-stage immune receptors. Building on previous observations of Regnase-1 or Roquin-1 knockout in murine T cells or in human T cells for hematological malignancy models, we found that knockout of either Regnase-1 or Roquin-1 alone enhances antitumor function in solid tumor models, but that knockout of both Regnase-1 and Roquin-1 increases function further than knockout of either regulator alone. Double knockout of Regnase-1 and Roquin-1 increased resting T cell inflammatory activity and led to at least an order of magnitude greater T cell expansion and accumulation in xenograft mouse models, increased cytokine activity, and persistence. However double knockout of Regnase-1 and Roguin-1 also led to a lymphoproliferative syndrome and toxicity in some mice. These results suggest that regulators of immune inflammatory functions may be interesting targets to modulate to improve antitumor responses.
Keywords: T cell therapy; gene editing; inflammation; solid tumors.