Comparison of three radiolabelled peptide analogues for CCK-2 receptor scintigraphy in medullary thyroid carcinoma

Purpose: Cholecystokinin 2 (CCK-2) receptor overexpression has been demonstrated in a high percentage of medullary thyroid carcinomas (MTC). Analogous to somatostatin receptors, CCK-2 receptors might be viable targets for radionuclide scintigraphy and/or radionuclide therapy. Several CCK-2 receptor-binding radiopeptides have been developed, and some have been carried through into clinical studies. However, these studies are mostly limited and difficult to compare. The aim of this study was to evaluate the diagnostic and therapeutic potential of three promising CCK-2 receptor-binding radiopeptides in patients with MTC. Methods: 111In-DOTA-(D)Asp-Tyr-Nle-Gly-Trp-Nle- Asp-Phe-NH2 (111In-DOTA-CCK), a CCK analogue, and the gastrin-based ligands 99mTc-N4-Gly-(D)Glu-(Glu) 5-Ala-Tyr-Gly-Trp-Met-Asp-Phe-NH2 (99mTc- demogastrin 2) and 111In-DOTA-(D)Glu-Ala-Tyr-Gly-Trp-Met-Asp-Phe- NH2 (111In-DOTA-MG11) were each administered to the same group of six patients. Planar images made at 3-5, 7 and 24 h p.i. were used for comparison of tumour visualisation and renal uptake. Results: 99mTc-demogastrin 2 scintigraphy visualised all known lesions and new lesions in four of six patients. 111In-DOTA-CCK and 111In-DOTA-MG11 on the other hand missed several lesions; tumour uptake of these two radiopharmaceuticals was quite low. Comparison of retention of renal activity showed no major differences between the three radiopeptides. Conclusion: 99mTc-demogastrin 2 scintigraphy appeared most promising as a diagnostic tool in patients with MTC. Further studies are required to evaluate its value in patient management. Direct comparisons of the compounds studied strongly suggests that 111In-DOTA-CCK and 111In-DOTA-MG11 have less potential as imaging agents than 99mTc-demogastrin 2. These DOTA-linked compounds are considered unlikely to be useful for radionuclide therapy because of low tumour uptake

Radiolabeled CCK/gastrin peptides for imaging and therapy of CCK2 receptor-expressing tumors

Cholecystokinin (CCK) receptors are overexpressed in numerous human cancers, like medullary thyroid carcinomas, small cell lung cancers and stromal ovarian cancers. The specific receptor-binding property of the endogenous ligands for these receptors can be exploited by labeling peptides with a radionuclide and using these as carriers to guide the radioactivity to the tissues that express the receptors. In this way, tumors can be visualized using positron emission tomography and single photon emission computed tomography imaging. A variety of radiolabeled CCK/gastrin-related peptides has been synthesized and characterized for imaging. All peptides have the C-terminal CCK receptor-binding tetrapeptide sequence Trp-Met-Asp-Phe-NH2 in common or derivatives thereof. This review focuses on the development and application of radiolabeled CCK/gastrin peptides for radionuclide imaging and radionuclide therapy of tumors expressing CCK receptors. We discuss both preclinical studies as well as clinical studies with CCK and gastrin peptides

First Evaluation of [11C]R116301 as an In Vivo Tracer of NK1 Receptors in Man

PURPOSE: NK1 receptors have been implicated in various neuropsychiatric and other disorders. R116301 is a selective NK1 receptor antagonist. In this pilot study, [(11)C]R116301 was evaluated as a potential positron emission tomography (PET) ligand for the NK1 receptor. PROCEDURES: Two dynamic PET studies were performed in three normal volunteers before and after a blocking dose of aprepitant. Data were analyzed using striatum to cerebellum standardized uptake value (SUV) ratios. RESULTS: Baseline SUV ratios at 60-90 min after injection ranged from 1.22 to 1.70. Following aprepitant administration, this specific signal was completely blocked. Aprepitant administration did not significantly affect uptake in cerebellum, confirming the absence of NK1 receptors in cerebellum. CONCLUSION: These preliminary results indicate that [(11)C]R116301 has potential as a radioligand for in vivo assessment of NK1 receptors in the human brai

Radiolabelled peptides for oncological diagnosis

Radiolabelled receptor-binding peptides targeting receptors (over)expressed on tumour cells are widely under investigation for tumour diagnosis and therapy. The concept of using radiolabelled receptor-binding peptides to target receptor-expressing tissues in vivo has stimulated a large body of research in nuclear medicine. The 111In-labelled somatostatin analogue octreotide (OctreoScan™) is the most successful radiopeptide for tumour imaging, and was the first to be approved for diagnostic use. Based on the success of these studies, other receptor-targeting peptides such as cholecystokinin/gastrin analogues, glucagon-like peptide-1, bombesin (BN), chemokine receptor CXCR4 targeting peptides, and RGD peptides are currently under development or undergoing clinical trials. In this review, we discuss some of these peptides and their analogues, with regard to their potential for radionuclide imaging of tumours

The joint IAEA, EANM, and SNMMI practical guidance on peptide receptor radionuclide therapy (PRRNT) in neuroendocrine tumours

Peptide receptor radionuclide therapy (PRRNT) is a molecularly targeted radiation therapy involving the systemic administration of a radiolabelled peptide designed to target with high affinity and specificity receptors overexpressed on tumours. PRRNT employing the radiotagged somatostatin receptor agonists (90)Y-DOTATOC ([(90)Y-DOTA(0),Tyr(3)]-octreotide) or (177)Lu-DOTATATE ([(177)Lu-DOTA(0),Tyr(3),Thr(8)]-octreotide or [(177)Lu-DOTA(0),Tyr(3)]-octreotate) have been successfully used for the past 15 years to target metastatic or inoperable neuroendocrine tumours expressing the somatostatin receptor subtype 2. Accumulated evidence from clinical experience indicates that these tumours can be subjected to a high absorbed dose which leads to partial or complete objective responses in up to 30 % of treated patients. Survival analyses indicate that patients presenting with high tumour receptor expression at study entry and receiving (177)Lu-DOTATATE or (90)Y-DOTATOC treatment show significantly higher objective responses, leading to longer survival and improved quality of life. Side effects of PRRNT are typically seen in the kidneys and bone marrow. These, however, are usually mild provided adequate protective measures are undertaken. Despite the large body of evidence regarding efficacy and clinical safety, PRRNT is still considered an investigational treatment and its implementation must comply with national legislation, and ethical guidelines concerning human therapeutic investigations. This guidance was formulated based on recent literature and leading experts’ opinions. It covers the rationale, indications and contraindications for PRRNT, assessment of treatment response and patient follow-up. This document is aimed at guiding nuclear medicine specialists in selecting likely candidates to receive PRRNT and to deliver the treatment in a safe and effective manner. This document is largely based on the book published through a joint international effort under the auspices of the Nuclear Medicine Section of the International Atomic Energy Agency

Comparison of the binding and internalization properties of 12 DOTA-coupled and 111In-labelled CCK2/Gastrin receptor binding peptides: a collaborative project under COST Action BM0607

Specific overexpression of cholecystokinin 2 (CCK2)/Gastrin receptors has been demonstrated in several tumors of neuroendocrine origin. In some of these cancer types, such s medullary thyroid cancer (MTC), there are no effective systemic treatments for metastatic disease. Peptide Receptor Radionuclide Therapy (PRRT) may be a viable therapeutic strategy in the management of these patients. Several CK2R targeted radiopharmaceuticals have been described in recent years. As part of the EU COST action BM0607 we studied the in vitro and in vivo characteristics of 12 DOTA‐conjugated CK2R binding peptides. In the present study, we analyzed binding and internalization characteristics. Stability, biodistribution, and imaging studies have been performed in parallel. methods. Determination of IC50 was performed using autoradiography, with peptides complexed to Indium‐115 displacing 125I‐CCK on tissue sections from human tumors. Saturation binding and internalization experiments were performed using 111In‐labelled peptides (specific activity 2‐10 MBq/nmol). The rat AR42J cell line and the human A431‐CCK2R transfected cell line were utilized for in vitro experiments. Dissociation constants (Kd) and apparent number of binding sites (Bmax) were determined with the aid of graphical analysis software. Internalization was determined in receptor expressing cells by incubating with tracer amounts of peptide at 37 and 4°C for different times up to 120 min. Surface bound peptide was then stripped either by acid wash or incubation with 1μM cold peptide at 4°C. Results. All peptides showed high and similar receptor affinity with IC50 values ranging from 0.2 to 3.4 nM. Saturation experiments also showed high affinity with Kd values in the 10‐9 ‐10‐8 M range. Bmax values estimated in A431‐CCK2R cells ranged from 1 .0‐ 4.6 E6 per cell. Slight differences in the levels of non‐specific binding to cells were observed for the different peptides. All peptides showed high levels of internalization when incubated at 37°C. Conclusion. All DOTA‐conjugated peptides showed similar receptor binding and internalization properties. Issues pertaining to in vivo stability and biodistribution will be important in determining the most promising candidates for further development and clinical application. This study is part of COST Action BM0607‐WG

Somatostatin receptor: Scintigraphy and radionuclide therapy

Peptide receptor scintigraphy is more sensitive at the biological than anatomical level, in contrast to conventional imaging, which it complements. Neuroendocrine tumours have the most somatostatin receptors in vitro and their metastases are somatostatin receptor positive in vitro, so that [In-111-DTPA-D-Phe(1)]octreotide (OCT) can be used to image them. OCT was compared with conventional imaging techniques (CON) in a European Multicentre Trial. In 350 evaluable patients, CON detected 88%, and OCT 80% (glucagonomas 100%, VIPomas 88%, carcinoids 87%, non-functioning islet cell tumours 82%, insulinomas 46%) of tumour sites but there was no systematic use of abdominal single-photon-emission computerised tomography. OCT demonstrated multiple tumour sites in 62 of 178 patients in whom CON had found only 1 lesion, with 60% confirmed. 12/16 lesions detected by OCT in 11 patients with no lesions according to CON were also confirmed. The impact of OCT on management was evaluated in 235 patients and affected 40%: it determined 29 surgical decisions, led to octreotide therapy in 47, and modified octreotide dose in 18. Six end-stage patients with neuroendocrine tumours were treated with OCT radionuclide therapy (up to a cumulative dose of 53 GBq per patient) in a phase I trial. There were no major side-effects after up to 2 years treatment, with impressive effects on hormone production and a likely anti-proliferative effect