Labeling Natural Killer cells with superparamagnetic iron oxide nanoparticles for detection by preclinical and clinical-scale magnetic particle imaging

  1. Olivia C. Sehl
  2. Yanwen Yang
  3. Ariana R Anjier
  4. Dmitry Nevozhay
  5. Donghang Cheng
  6. Kelvin Guo
  7. Benjamin Fellows
  8. A. Rahman Mohtasebzadeh
  9. Erica E. Mason
  10. Toby Sanders
  11. Petrina Kim
  12. David Trease
  13. Dimpy Koul
  14. Patrick W. Goodwill
  15. Konstantin Sokolov
  16. Max Wintermark
  17. Nancy Gordon
  18. Joan M. Greve
  19. Vidya Gopalakrishnan
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Abstract

Introduction

Clinical adoption of NK cell immunotherapy is underway for medulloblastoma and osteosarcoma, however there is currently little feedback on cell fate after administration. We propose magnetic particle imaging (MPI) for the detection, localization, and quantification of VivoTrax-labeled NK cells.

Methods

Human-derived NK-92 cells were labeled by co-incubation with VivoTrax for 24 hours then the excess nanoparticles were washed with centrifugation. Cytolytic activity of labeled vs. unlabeled NK-92 cells was assessed after 4 hours of co- incubation with medulloblastoma cells (DAOY) or osteosarcoma cells (LM7 or OS17) using bioluminescent or GFP counts. Labeled NK-92 cells at two different doses (0.5 or 1 x 10 6 ) were administered to excised mouse brains (cerebellum), tibias, and lungs then imaged by 3D preclinical MPI (MOMENTUM imager) and localized relative to fiducial markers. NK-92 cells were imaged by clinical-scale MPI under development at Magnetic Insight Inc.

Results

NK-92 cells were labeled with an average of 3.17 pg Fe/cell with no measured effects on cell viability or cytolytic activity against 3 tumor cell lines. MPI signal was directly quantitative with the number of VivoTrax-labeled NK-92 cells, with preclinical limit of detection of 3.1 x 10 4 cells on MOMENTUM imager. Labeled NK-92 cells could be accurately localized in mouse brains, tibias, and lungs within < 1 mm of stereotactic injection coordinates with preclinical scanner. Feasibility for detection of a clinically relevant dose of 4 x 10 7 labeled NK-92 cells was demonstrated on clinical-scale MPI.

Conclusion

MPI can provide sensitive, quantitative, and accurate spatial information on NK cell delivery, showing its potential to resolve a significant unmet clinical need to track NK cell treatments in patients.

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  1. Version published to 10.1101/2024.03.08.583881v1 on bioRxiv