Supplemental Figure Video S2 from Development of a Clinically Relevant Reporter for Chimeric Antigen Receptor T-cell Expansion, Trafficking, and Toxicity
posted on 2023-04-04, 01:07authored byReona Sakemura, Aditya Bansal, Elizabeth L. Siegler, Mehrdad Hefazi, Nan Yang, Roman H. Khadka, Alysha N. Newsom, Michael J. Hansen, Michelle J. Cox, Claudia Manriquez Roman, Kendall J. Schick, Ismail Can, Erin E. Tapper, Wendy K. Nevala, Mohamad M. Adada, Evandro D. Bezerra, Lionel Aurelien Kankeu Fonkoua, Paulina Horvei, Michael W. Ruff, Sameer A. Parikh, Mukesh K. Pandey, Timothy R. DeGrado, Lukkana Suksanpaisan, Neil E. Kay, Kah-Whye Peng, Stephen J. Russell, Saad S. Kenderian
Supplemental Figure Video
Funding
Mayo Clinic Center for Individualized Medicine
History
ARTICLE ABSTRACT
Although chimeric antigen receptor T (CART)–cell therapy has been successful in treating certain hematologic malignancies, wider adoption of CART-cell therapy is limited because of minimal activity in solid tumors and development of life-threatening toxicities, including cytokine release syndrome (CRS). There is a lack of a robust, clinically relevant imaging platform to monitor in vivo expansion and trafficking to tumor sites. To address this, we utilized the sodium iodide symporter (NIS) as a platform to image and track CART cells. We engineered CD19-directed and B-cell maturation antigen (BCMA)–directed CART cells to express NIS (NIS+CART19 and NIS+BCMA-CART, respectively) and tested the sensitivity of 18F-TFB-PET to detect trafficking and expansion in systemic and localized tumor models and in a CART-cell toxicity model. NIS+CART19 and NIS+BCMA-CART cells were generated through dual transduction with two vectors and demonstrated exclusive 125I uptake in vitro. 18F-TFB-PET detected NIS+CART cells in vivo to a sensitivity level of 40,000 cells. 18F-TFB-PET confirmed NIS+BCMA-CART-cell trafficking to the tumor sites in localized and systemic tumor models. In a xenograft model for CART-cell toxicity, 18F-TFB-PET revealed significant systemic uptake, correlating with CART-cell in vivo expansion, cytokine production, and development of CRS-associated clinical symptoms. NIS provides a sensitive, clinically applicable platform for CART-cell imaging with PET scan. 18F-TFB-PET detected CART-cell trafficking to tumor sites and in vivo expansion, correlating with the development of clinical and laboratory markers of CRS. These studies demonstrate a noninvasive, clinically relevant method to assess CART-cell functions in vivo.