Samenvatting
Introduction: Activation of T-cells is accompanied by a strong up-regulation of interleukin-2 (IL2) receptor (CD25). Therefore PET imaging of IL2 receptors might be a suitable imaging biomarker for T-cell activation. 18F-IL2 PET could detect CD25-positive T-cells and the migration of these T-cells to distant sites of inflammation in SCID mice subcutaneously injected with human peripheral blood mononuclear cells1 and NOD mice with insulitis. Also a strong correlation was found between the accumulation of 18F-IL2 and the number of injected activated T-cells in immune-competent rats.2 In tumor bearing mice, 18F-IL2 PET could detect treatment-induced accumulation of activated T-cells in the tumor following local radiotherapy and/or vaccination.
Cancer immunotherapy is increasingly obtaining a place in clinical practice. However not all patients benefit. A biomarker for upfront or early response prediction for these immunotherapies might support patient selection before and during therapy. Potentially 18F-IL2 PET might serve this purpose. Therefore we aimed to accommodate the production of 18F-IL2 for use in clinical imaging studies.
Material and methods: In order to produce a GMP-compliant tracer the production is being implemented on the Eckert & Ziegler PharmTracer synthesis module. In this synthesis module, disposable cassettes, reactors and vials are used to avoid cross-contamination between productions. First the prosthetic group N-succinimidyl 4-fluorobenzoate (18F-SFB) is produced in 3 steps from cyclotron-produced 18F-fluoride. Subsequently, 18F-SFB is conjugated to human recombinant IL2 (Proleukin®). Various methods for synthesis and purification of 18F-SFB have been evaluated. Also purification of 18F-IL2 has been optimized. Quality control has been performed using ultra performance liquid chromatography (UPLC) and Thin Layer Chromatography (TLC).
Results: 18F-SFB was successfully synthesized with the Eckert & Ziegler PharmTracer synthesis module with decay-corrected radiochemical yields comparable to literature (range 28-64%). Major challenges have been encountered, most importantly regarding the purification of the 18F-SFB and 18F-IL2, stability of the IL2 and specific activity. The activated ester 18F-SFB was purified by high performance liquid chromatography (HPLC) to remove any impurities that could interfere with the conjugation. 18F-IL2 has been purified using PD-10 columns with PBS containing 0.05% SDS as mobile phase.
Conclusions: Several challenges for the GMP-compliant production of 18F-IL2 have been overcome. In the near future this tracer will be used in preclinical and clinical studies to non-invasively image activated T-cells before and during cancer immunotherapy. This can provide insight in the effects of cancer immunotherapy on the immune response.
Originele taal-2 | English |
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Artikelnummer | 4208 |
Aantal pagina's | 1 |
Tijdschrift | Cancer Research |
Volume | 76 |
Nummer van het tijdschrift | 14 supplement |
DOI's | |
Status | Published - 22-jul.-2016 |
Evenement | 107th Annual Meeting of the American Association for Cancer Research - New Orleans, LA. Philadelphia (PA), United States Duur: 16-apr.-2016 → 20-jan.-2017 |