Anchal Ghai1, Dolonchampa Maji1,2, Nicholas Cho1,2, Chantiya Chanswangphuwana3, Michael Rettig3, Duanwen Shen1, John DiPersio3, Walter Akers4, Farrokh Dehdashti1, Samuel Achilefu1,2,5, Ravi Vij3, Monica Shokeen6,2. 1. Department of Radiology, Washington University School of Medicine, St. Louis, Missouri. 2. Department of Biomedical Engineering, Washington University in St. Louis, St. Louis, Missouri. 3. Department of Medicine, Washington University School of Medicine, St. Louis, Missouri. 4. Center for In Vivo Imaging and Therapeutics, St. Jude Children's Research Hospital, Memphis, Tennessee; and. 5. Department of Biochemistry and Molecular Biophysics, Washington University School of Medicine, St. Louis, Missouri. 6. Department of Radiology, Washington University School of Medicine, St. Louis, Missouri mshokeen@wustl.edu.
Abstract
Multiple myeloma (MM) is a plasma B-cell hematologic cancer that causes significant skeletal morbidity. Despite improvements in survival, heterogeneity in response remains a major challenge in MM. Cluster of differentiation 38 (CD38) is a type II transmembrane glycoprotein overexpressed in myeloma cells and is implicated in MM cell signaling. Daratumumab is a U.S. Food and Drug Administration-approved high-affinity monoclonal antibody targeting CD38 that is clinically benefiting refractory MM patients. Here, we evaluated [89Zr]Zr-desferrioxamine (DFO)-daratumumab PET/CT imaging in MM tumor models. Methods: Daratumumab was conjugated to DFO-p-benzyl-isothiocyanate (DFO-Bz-NCS) for radiolabeling with 89Zr. Chelator conjugation was confirmed by electrospray ionization-mass spectrometry, and radiolabeling was monitored by instant thin-layer chromatography. Daratumumab was conjugated to Cyanine5 (Cy5) dye for cell microscopy. In vitro and in vivo evaluation of [89Zr]Zr-DFO-daratumumab was performed using CD38+ human myeloma MM1.S-luciferase (MM1.S) cells. Cellular studies determined the affinity, immunoreactivity, and specificity of [89Zr]Zr-DFO-daratumumab. A 5TGM1-luciferase (5TGM1)/KaLwRij MM mouse model served as control for imaging background noise. [89Zr]Zr-DFO-daratumumab PET/CT small-animal imaging was performed in severe combined immunodeficient mice bearing solid and disseminated MM tumors. Tissue biodistribution (7 d after tracer administration, 1.11 MBq/animal, n = 4-6/group) was performed in wild-type and MM1.S tumor-bearing mice. Results: A specific activity of 55.5 MBq/nmol (0.37 MBq/μg) was reproducibly obtained with [89Zr]Zr-daratumumab-DFO. Flow cytometry confirmed CD38 expression (>99%) on the surface of MM1.S cells. Confocal microscopy with daratumumab-Cy5 demonstrated specific cell binding. Dissociation constant, 3.3 nM (±0.58), and receptor density, 10.1 fmol/mg (±0.64), was obtained with a saturation binding assay. [89Zr]Zr-DFO-daratumumab/PET demonstrated specificity and sensitivity for detecting CD38+ myeloma tumors of variable sizes (8.5-128 mm3) with standardized uptake values ranging from 2.1 to 9.3. Discrete medullar lesions, confirmed by bioluminescence images, were efficiently imaged with [89Zr]Zr-DFO-daratumumab/PET. Biodistribution at 7 d after administration of [89Zr]Zr-DFO-daratumumab showed prominent tumor uptake (27.7 ± 7.6 percentage injected dose per gram). In vivo blocking was achieved with a 200-fold excess of unlabeled daratumumab. Conclusion: [89Zr]Zr-DFO- and Cy5-daratumumab demonstrated superb binding to CD38+ human MM cells and significantly low binding to CD38low cells. Daratumumab bioconjugates are being evaluated for image-guided delivery of therapeutic radionuclides.
Multiple myeloma (MM) is a plasma B-cell hematologic cancer that causes significant skeletal morbidity. Despite improvements in survival, heterogeneity in response remains a major challenge in MM. Cluster of differentiation 38 (CD38) is a type II transmembrane glycoprotein overexpressed in myeloma cells and is implicated in MM cell signaling. Daratumumab is a U.S. Food and Drug Administration-approved high-affinity monoclonal antibody targeting CD38 that is clinically benefiting refractory MM patients. Here, we evaluated [89Zr]Zr-desferrioxamine (DFO)-daratumumab PET/CT imaging in MM tumor models. Methods: Daratumumab was conjugated to DFO-p-benzyl-isothiocyanate (DFO-Bz-NCS) for radiolabeling with 89Zr. Chelator conjugation was confirmed by electrospray ionization-mass spectrometry, and radiolabeling was monitored by instant thin-layer chromatography. Daratumumab was conjugated to Cyanine5 (Cy5) dye for cell microscopy. In vitro and in vivo evaluation of [89Zr]Zr-DFO-daratumumab was performed using CD38+ human myeloma MM1.S-luciferase (MM1.S) cells. Cellular studies determined the affinity, immunoreactivity, and specificity of [89Zr]Zr-DFO-daratumumab. A 5TGM1-luciferase (5TGM1)/KaLwRij MM mouse model served as control for imaging background noise. [89Zr]Zr-DFO-daratumumab PET/CT small-animal imaging was performed in severe combined immunodeficient mice bearing solid and disseminated MM tumors. Tissue biodistribution (7 d after tracer administration, 1.11 MBq/animal, n = 4-6/group) was performed in wild-type and MM1.S tumor-bearing mice. Results: A specific activity of 55.5 MBq/nmol (0.37 MBq/μg) was reproducibly obtained with [89Zr]Zr-daratumumab-DFO. Flow cytometry confirmed CD38 expression (>99%) on the surface of MM1.S cells. Confocal microscopy with daratumumab-Cy5 demonstrated specific cell binding. Dissociation constant, 3.3 nM (±0.58), and receptor density, 10.1 fmol/mg (±0.64), was obtained with a saturation binding assay. [89Zr]Zr-DFO-daratumumab/PET demonstrated specificity and sensitivity for detecting CD38+ myeloma tumors of variable sizes (8.5-128 mm3) with standardized uptake values ranging from 2.1 to 9.3. Discrete medullar lesions, confirmed by bioluminescence images, were efficiently imaged with [89Zr]Zr-DFO-daratumumab/PET. Biodistribution at 7 d after administration of [89Zr]Zr-DFO-daratumumab showed prominent tumor uptake (27.7 ± 7.6 percentage injected dose per gram). In vivo blocking was achieved with a 200-fold excess of unlabeled daratumumab. Conclusion: [89Zr]Zr-DFO- and Cy5-daratumumab demonstrated superb binding to CD38+ human MM cells and significantly low binding to CD38low cells. Daratumumab bioconjugates are being evaluated for image-guided delivery of therapeutic radionuclides.
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