Checkpoint immunotherapy has made great strides in the treatment of solid tumors, but many patients do not respond to immune checkpoint inhibitors. Identification of tumor-infiltrating cytotoxic T cells (CTLs) has the potential to stratify patients and monitor immunotherapy responses. In this study, the design of cluster of differentiation (CD8+) T cell-targeted nanoprobes that emit shortwave infrared (SWIR) light in the second tissue-transparent window for noninvasive, real-time imaging of CTLs in murine models of breast cancer is presented. SWIR-emitting rare-earth nanoparticles encapsulated in human serum albumin are conjugated with anti-CD8α to target CTLs with high specificity. CTL targeting is validated in vitro through binding of nanoprobes to primary mouse CTLs. The potential for the use of SWIR fluorescence intensity to determine CTL presence is validated in two syngeneic mammary fat pad tumor models, EMT6 and 4T1, which differ in immune infiltration. SWIR imaging using CD8-targeted nanoprobes successfully identifies the presence of CTLs in the more immunogenic EMT6 model, while imaging confirms the lack of substantial immune infiltration in the nonimmunogenic 4T1 model. In this work, the opportunity for SWIR imaging using CD8-targeted nanoprobes to assess CTL infiltration in tumors for the stratification and monitoring of responders to checkpoint immunotherapy is highlighted.
Keywords: cytotoxic T cells; immune cell targeting; immunosurveillance; nanotechnologies; rare-earth probes; shortwave infrared imaging.
© 2023 The Authors. Advanced NanoBiomed Research published by Wiley‐VCH GmbH.