Vincent F Taelman1,2, Piotr Radojewski1,2, Nicolas Marincek1,2, Anat Ben-Shlomo3, Andrea Grotzky1,2, Cristina I Olariu1,2, Aurel Perren4, Christoph Stettler5, Thomas Krause1,2, Lorenz P Meier1,2, Renzo Cescato1,2, Martin A Walter6,2,7. 1. Department of Nuclear Medicine, Inselspital, University Hospital Bern, Bern, Switzerland. 2. Clinical Radiopharmacy, Department of Clinical Research, University Hospital Bern, Bern, Switzerland. 3. Pituitary Center, Department of Medicine, Cedars Sinai Medical Center, Los Angeles, California. 4. Institute of Pathology, University Bern, Bern, Switzerland. 5. Division of Diabetes, Endocrinology, Nutritional Medicine & Metabolism, University Hospital and Inselspital, Bern, Switzerland; and. 6. Department of Nuclear Medicine, Inselspital, University Hospital Bern, Bern, Switzerland m.a.walter@gmx.net. 7. Molecular and Medical Pharmacology, David Geffen School of Medicine, UCLA, Los Angeles, California.
Abstract
Targeted diagnosis and therapy enable precise tumor detection and treatment. Successful examples for precise tumor targeting are diagnostic and therapeutic radioligands. However, patients with tumors expressing low levels of the relevant molecular targets are deemed ineligible for such targeted approaches. METHODS: We performed a screen for drugs that upregulate the somatostatin receptor subtype 2 (sstr2). Then, we characterized the effects of these drugs on transcriptional, translational, and functional levels in vitro and in vivo. RESULTS: We identified 9 drugs that act as epigenetic modifiers, including the inhibitor of DNA methyltransferase decitabine as well as the inhibitors of histone deacetylase tacedinaline and romidepsin. In vitro, these drugs upregulated sstr2 on transcriptional, translational, and functional levels in a time- and dose-dependent manner. Thereby, their combinations revealed synergistic effects. In vivo, drug-based sstr2 upregulation improved the tumor-to-background and tumor-to-kidney ratios, which are the key determinants of successful sstr2-targeted imaging and radiopeptide therapy. CONCLUSION: We present an approach that uses epigenetic modifiers to improve sstr2 targeting in vitro and in vivo. Translation of this method into the clinic may potentially convert patients ineligible for targeted imaging and therapy to eligible candidates.
Targeted diagnosis and therapy enable precise tumor detection and treatment. Successful examples for precise tumor targeting are diagnostic and therapeutic radioligands. However, patients with tumors expressing low levels of the relevant molecular targets are deemed ineligible for such targeted approaches. METHODS: We performed a screen for drugs that upregulate the somatostatin receptor subtype 2 (sstr2). Then, we characterized the effects of these drugs on transcriptional, translational, and functional levels in vitro and in vivo. RESULTS: We identified 9 drugs that act as epigenetic modifiers, including the inhibitor of DNA methyltransferase decitabine as well as the inhibitors of histone deacetylase tacedinaline and romidepsin. In vitro, these drugs upregulated sstr2 on transcriptional, translational, and functional levels in a time- and dose-dependent manner. Thereby, their combinations revealed synergistic effects. In vivo, drug-based sstr2 upregulation improved the tumor-to-background and tumor-to-kidney ratios, which are the key determinants of successful sstr2-targeted imaging and radiopeptide therapy. CONCLUSION: We present an approach that uses epigenetic modifiers to improve sstr2 targeting in vitro and in vivo. Translation of this method into the clinic may potentially convert patients ineligible for targeted imaging and therapy to eligible candidates.
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