ABSTRACT: Chimeric antigen receptor-engineered T (CAR T) cell therapy has made great progress in hematological malignancies and resulted in two newly FDA-approved drugs specific for CD19, Kymriah and Yescarta. To some extent, this success is attributable to the appropriately selected antigen, CD19, a cell surface protein that is uniformly and strongly expressed on malignant B cells. This result indicates that a proper CAR target is of great importance to the success of this technique. Another key factor contributing to the success of hematological malignancies can be ascribed to the nonphysical tumor microenvironment (TME). The TME in solid tumors is complicated and has a specific niche favorable for tumor progression with physical barriers, multiple mechanisms of immunosuppression, and a variety of biochemical factors, thus resulting in limited efficacy of CAR T cell therapy in clinical trials with cancer patients. Therefore, the inhospitable solid TME becomes a major hurdle in translating the success of CAR T cell therapy in hematological malignancies to solid tumors. Here, we provide our perspective on how to improve the success of CAR T therapy in solid tumors by focusing on the aspects of target selection and the related TME in CAR T cell design, especially stressing the interplay between them. With four kinds of antigenic CAR targets as examples in this review, we anticipate that the overall consideration of both factors will further expand CAR T cell therapy in clinical trials.