Introduction: [177Lu]Lu-DOTA-Ahx-Lys40-Exendin-4 ([177Lu]Lu-DOTA-Exendin-4) is a potential agent for radiotherapy of insulinomas owing to its specificity towards GLP-1 (Glucagon like peptide-1) receptors over-expressed on such cancers. The objective of the present study is to optimize the various radiochemistry parameters for the consistent formulation of the agent with high radiolabeling yield using carrier added [177Lu]LuCl3 and also to evaluate its biological behaviour in small animal model.
Methods: In order to optimize the radiolabeling parameters, DOTA-Exendin-4 was radiolabeled with [177Lu]LuCl3 in two different buffer systems (sodium acetate and HEPES) at three different temperatures (45, 65 and 95 °C) using three different ligand to metal ratios (3:1, 4:1 and 5:1). The radiolabeled peptide was characterized by both paper chromatography and HPLC. The effect of addition of three different radio-protectors on complexation yield was also studied. Bio-distribution studies were carried out in healthy Swiss mice to evaluate the pharmacokinetic behaviour of the radiolabeled peptide as well as to determine the in vivo specificity of the radiotracer towards GLP-1 receptors (blocking studies). Urine and kidney lysate of the animals were analyzed at various post-administration time-points in order to determine the in vivo stability of the radiolabeled peptide.
Results: The [177Lu]Lu-DOTA-Exendin-4 complex could be prepared consistently with >95% radiolabeling yield using the optimized reaction conditions. Bio-distribution studies revealed early accumulation of [177Lu]Lu-DOTA-Exendin-4 in pancreas along with fast clearance via renal pathway. Significantly high accumulation of the radiotracer was observed in kidneys. Analyses of urine and kidney lysate of the animals revealed in vivo stability of [177Lu]Lu-DOTA-Exendin-4. Blocking studies showed displacement of significant amount of radiotracer from GLP-1 receptor-positive organs such as, pancreas and lungs (p <0.05) in presence of unlabeled peptide, indicating the specificity of the radiolabeled preparation towards GLP-1 receptors.
Conclusions: Present study shows that [177Lu]Lu-DOTA-Exendin-4 could be formulated for radiotherapeutic application with high radiochemical purity and adequate in vivo stability using [177Lu]LuCl3 produced via direct neutron irradiation.
Advances in knowledge and implications for patient care: Findings of the present study will be helpful in preparing the patient dose of [177Lu]Lu-labeled Exendin for radiotherapy of insulinoma using carrier added [177Lu]LuCl3, produced in a medium flux reactor, without the requirement of post-labeling purification.
Keywords: DOTA-Exendin-4; Radiolabeled Exendin; Radionuclide therapy of Insulinoma; [(177)Lu]Lu-DOTA-Exendin-4; [(177)Lu]LuCl(3).
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