Lutetium-177-octreotate treatment of small intestine neu-roendocrine tumors - Radiation biology as basis for optimization
Sammanfattning
Patients with neuroendocrine tumors (NETs) often have metastatic spread at the time of diagnosis. NETs frequently express somatostatin receptors (SSTR) that can be targeted by radiolabeled somatostatin analogs (e.g. 177Lu-octreotate). Despite being highly effective in animal models (e.g. the human small intestine NET GOT1 transplanted to nude mice), 177Lu-octreotate-based therapies have shown low cure rates in clinical studies. The cellular processes that underlie positive treatment response to 177Lu-octreotate are largely unknown.
The aim of this work was to study the possibilities to optimize the therapeutic effects of 177Lu-octreotate in the GOT1 model in nude mice.
A literature study of available data on radiolabeled somatostatin analogs on NETs in animal models was performed, to identify strategies for treatment optimization. To test these strategies, GOT1-bearing BALB/c nude mice were treated with non-curative amounts of 177Lu-octreotate in different treatment schedules including single administrations, priming (fractionated) administrations and combination treatment with hedgehog inhibitor sonidegib. Biodistribution and dosimetry studies were performed and anti-tumor effects were monitored by measuring tumor volume. Global transcriptional and proteomic responses in tumor samples were evaluated using RNA microarray and liquid chromatography mass spectrometry, respectively.
177Lu-octreotate therapy of GOT1 tumors xenotransplanted in nude mice resulted in tumor volume reduction. Priming administration resulted in increased anti-tumor effects and increased therapeutic window. Combination therapy using sonidegib and 177Lu-octreotate resulted in prolonged time to progression. The global transcriptional and proteomic analyses of 177Lu-octreotate treated tumor samples revealed time-specific responses in terms of affected biological functions.
In conclusion, time-dependent changes in p53-related cell cycle regulation and apoptosis, angiogenesis, endoplasmic reticulum stress, and oxidative stress-related processes suggest possible niches for combination therapy at different time points after radionuclide therapy. Priming 177Lu-octreotate therapy and combination therapy using sonidegib and 177Lu-octreotate could be beneficial to patients with NE-tumors.
Delarbeten
I. Eva Forssell-Aronsson, Johan Spetz, Håkan Ahlman: Radionuclide therapy via SSTR: Future aspects from experimental animal studies. Neuroendocrinology, 2013; 97(1):86-98 ::doi::10.1159/000336086 II. Johan Spetz, Nils Rudqvist, Britta Langen, Toshima Z Parris, Johanna Dalmo, Emil Schüler, Bo Wängberg, Ola Nilsson, Khalil Helou, Eva Forssell-Aronsson: Time-dependent transcriptional response of GOT1 human small intestine neuroendocrine tumor after 177Lu-octreotate therapy. In revision III. Johan Spetz, Mikael Montelius, Evelin Berger, Carina Sihlbom, Maria Ljungberg, Khalil Helou,
Ola Nilsson, Eva Forssell-Aronsson: Profiling proteomic responses in small intestinal neuroendocrine tumor GOT1 after 177Lu-octreotate therapy. Submitted. IV. Johanna Dalmo, Johan Spetz, Mikael Montelius, Britta Langen, Yvonne Arvidsson,
Henrik Johansson, Toshima Z Parris, Khalil Helou, Bo Wängberg, Ola Nilsson, Maria Ljungberg, Eva Forssell-Aronsson: Priming increases the anti-tumor effect and therapeutic window of
177Lu-octreotate in nude mice bearing human small intestine neuroendocrine tumor GOT1. EJNMMI Research, 2016, in press. V. Johan Spetz, Britta Langen, Nils Rudqvist, Toshima Z Parris, Johanna Dalmo, Bo Wängberg,
Ola Nilsson, Khalil Helou, Eva Forssell-Aronsson: Transcriptional effects of 177Lu-octreotate therapy using a priming treatment schedule on GOT1 tumor in nude mice. Manuscript. VI. Johan Spetz, Britta Langen, Nils Rudqvist, Toshima Z Parris, Khalil Helou, Ola Nilsson,
Eva Forssell-Aronsson: Hedgehog inhibitor sonidegib potentiates 177Lu-octreotate therapy of GOT1 human small intestine neuroendocrine tumors in nude mice. Submitted.
Examinationsnivå
Doctor of Philosophy (Medicine)
Universitet
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Clincial Sciences. Department of Radiation Physics
Disputation
Fredagen den 27 januari 2017, kl. 9.00, Hörsal Arvid Carlsson, Academicum, Medicinaregatan 3, Göteborg
Datum för disputation
2017-01-27
E-post
johan.spetz@gu.se
Datum
2016-12-19Författare
Spetz, Johan
Nyckelord
Peptide receptor radionuclide therapy
PRRT
somatostatin receptors
SSTR
midgut carcinoid
radiogenomics
Publikationstyp
Doctoral thesis
ISBN
978-91-629-0045-8 (Print)
978-91-629-0046-5 (PDF)
Språk
eng