Purpose: While immunotherapy has revolutionized the oncology field, variations in therapy responsiveness limit the broad applicability of these therapies. Diagnostic imaging of immune cell, and specifically CD8 T cell, dynamics could allow early patient stratification and result in improved therapy efficacy and safety. In this study, we report the development of a nanobody-based immunotracer for non-invasive SPECT and PET imaging of human CD8 T-cell dynamics.
Methods: Nanobodies targeting human CD8β were generated by llama immunizations and subsequent biopanning. The lead anti-human CD8β nanobody was characterized on binding, specificity, stability and toxicity. The lead nanobody was labeled with technetium-99m, gallium-68 and copper-64 for non-invasive imaging of human T-cell lymphomas and CD8 T cells in human CD8 transgenic mice and non-human primates by SPECT/CT or PET/CT. Repeated imaging of CD8 T cells in MC38 tumor-bearing mice allowed visualization of CD8 T-cell dynamics.
Results: The nanobody-based immunotracer showed high affinity and specific binding to human CD8 without unwanted immune activation. CD8 T cells were non-invasively visualized by SPECT and PET imaging in naïve and tumor-bearing mice and in naïve non-human primates with high sensitivity. The nanobody-based immunotracer showed enhanced specificity for CD8 T cells and/or faster in vivo pharmacokinetics compared to previous human CD8-targeting immunotracers, allowing us to follow human CD8 T-cell dynamics already at early timepoints.
Conclusion: This study describes the development of a more specific human CD8 T-cell-targeting immunotracer, allowing follow-up of immunotherapy responses by non-invasive imaging of human CD8 T-cell dynamics.
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| http://dx.doi.org/10.1007/s00259-024-06896-3 | DOI Listing |
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